:: BINARITH semantic presentation

REAL is non empty V45() set
NAT is non empty V32() V33() V34() V45() V50() V51() Element of K19(REAL)
K19(REAL) is V45() set
{} is functional empty ext-real non positive non negative V32() V33() V34() V36() V37() V38() complex V40() V41() V45() V50() V52( {} ) FinSequence-membered V58() set
COMPLEX is non empty V45() set
RAT is non empty V45() set
INT is non empty V45() set
K20(COMPLEX,COMPLEX) is V45() set
K19(K20(COMPLEX,COMPLEX)) is V45() set
K20(K20(COMPLEX,COMPLEX),COMPLEX) is V45() set
K19(K20(K20(COMPLEX,COMPLEX),COMPLEX)) is V45() set
K20(REAL,REAL) is V45() set
K19(K20(REAL,REAL)) is V45() set
K20(K20(REAL,REAL),REAL) is V45() set
K19(K20(K20(REAL,REAL),REAL)) is V45() set
K20(RAT,RAT) is V45() set
K19(K20(RAT,RAT)) is V45() set
K20(K20(RAT,RAT),RAT) is V45() set
K19(K20(K20(RAT,RAT),RAT)) is V45() set
K20(INT,INT) is V45() set
K19(K20(INT,INT)) is V45() set
K20(K20(INT,INT),INT) is V45() set
K19(K20(K20(INT,INT),INT)) is V45() set
K20(NAT,NAT) is V45() set
K20(K20(NAT,NAT),NAT) is V45() set
K19(K20(K20(NAT,NAT),NAT)) is V45() set
NAT is non empty V32() V33() V34() V45() V50() V51() set
K19(NAT) is V45() set
K19(NAT) is V45() set
BOOLEAN is non empty set
K101(NAT) is V27() set
K20(NAT,REAL) is V45() set
K19(K20(NAT,REAL)) is V45() set
1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
0 is functional empty ext-real non positive non negative V32() V33() V34() V36() V37() V38() complex V40() V41() V45() V50() V52( {} ) FinSequence-membered V58() Element of NAT
2 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
3 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
Seg 1 is non empty V12() V45() V52(1) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= 1 ) } is set
{..} is non empty V12() V52(1) set
Seg 2 is non empty V45() V52(2) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= 2 ) } is set
{.2,.} is non empty set
addnat is V1() V4(K20(NAT,NAT)) V5( NAT ) Function-like V18(K20(NAT,NAT), NAT ) V21( NAT ) V22( NAT ) having_a_unity Element of K19(K20(K20(NAT,NAT),NAT))
FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
Seg z1 is V45() V52(z1) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= z1 ) } is set
z2 is non empty set
F is Element of z2
<*F*> is V1() V4( NAT ) V5(z2) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of z2
K96(1,F) is set
{.F,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
z1 is V1() V4( NAT ) V5(z2) Function-like V45() V52(z1) FinSequence-like FinSubsequence-like FinSequence of z2
z1 ^ <*F*> is V1() V4( NAT ) V5(z2) Function-like non empty V45() V52(z1 + 1) FinSequence-like FinSubsequence-like FinSequence of z2
z1 + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(z1 ^ <*F*>) /. n is Element of z2
z1 /. n is Element of z2
len z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom z1 is V52(z1) Element of K19(NAT)
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
n + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 is non empty set
z2 is Element of z1
<*z2*> is V1() V4( NAT ) V5(z1) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of z1
K96(1,z2) is set
{.z2,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
F is V1() V4( NAT ) V5(z1) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of z1
F ^ <*z2*> is V1() V4( NAT ) V5(z1) Function-like non empty V45() V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of z1
(F ^ <*z2*>) /. (n + 1) is Element of z1
len <*z2*> is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
0 + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
Seg (len <*z2*>) is non empty V45() V52( len <*z2*>) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= len <*z2*> ) } is set
dom <*z2*> is non empty V12() V52(1) Element of K19(NAT)
len F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
<*z2*> /. 1 is Element of z1
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
n 'or' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - n is ext-real complex V40() V41() set
'not' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - z1 is ext-real complex V40() V41() set
('not' n) '&' ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' n) * ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' n) '&' ('not' z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' n) '&' ('not' z1)) is ext-real complex V40() V41() set
FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
n 'xor' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n <=> z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n => z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' n) 'or' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' n) is ext-real complex V40() V41() set
('not' ('not' n)) '&' ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' n)) * ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' n)) '&' ('not' z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' n)) '&' ('not' z1)) is ext-real complex V40() V41() set
z1 => n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' z1) 'or' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' z1) is ext-real complex V40() V41() set
('not' ('not' z1)) '&' ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' z1)) * ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' z1)) '&' ('not' n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' z1)) '&' ('not' n)) is ext-real complex V40() V41() set
(n => z1) '&' (z1 => n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(n => z1) * (z1 => n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (n <=> z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (n <=> z1) is ext-real complex V40() V41() set
FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - n is ext-real complex V40() V41() set
'not' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - FALSE is ext-real complex V40() V41() set
('not' n) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' n) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' n) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' n) '&' ('not' FALSE)) is ext-real complex V40() V41() set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n '&' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n * z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (n '&' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (n '&' z1) is ext-real complex V40() V41() set
'not' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - n is ext-real complex V40() V41() set
'not' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - z1 is ext-real complex V40() V41() set
('not' n) 'or' ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' n) is ext-real complex V40() V41() set
'not' ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' z1) is ext-real complex V40() V41() set
('not' ('not' n)) '&' ('not' ('not' z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' n)) * ('not' ('not' z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' n)) '&' ('not' ('not' z1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' n)) '&' ('not' ('not' z1))) is ext-real complex V40() V41() set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n 'or' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - n is ext-real complex V40() V41() set
'not' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - z1 is ext-real complex V40() V41() set
('not' n) '&' ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' n) * ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' n) '&' ('not' z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' n) '&' ('not' z1)) is ext-real complex V40() V41() set
'not' (n 'or' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (n 'or' z1) is ext-real complex V40() V41() set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n '&' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n * z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - n is ext-real complex V40() V41() set
'not' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - z1 is ext-real complex V40() V41() set
('not' n) 'or' ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' n) is ext-real complex V40() V41() set
'not' ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' z1) is ext-real complex V40() V41() set
('not' ('not' n)) '&' ('not' ('not' z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' n)) * ('not' ('not' z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' n)) '&' ('not' ('not' z1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' n)) '&' ('not' ('not' z1))) is ext-real complex V40() V41() set
'not' (('not' n) 'or' ('not' z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' n) 'or' ('not' z1)) is ext-real complex V40() V41() set
TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
TRUE 'xor' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
TRUE <=> n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
TRUE => n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - TRUE is ext-real complex V40() V41() set
('not' TRUE) 'or' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' TRUE) is ext-real complex V40() V41() set
'not' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - n is ext-real complex V40() V41() set
('not' ('not' TRUE)) '&' ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) * ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' TRUE)) '&' ('not' n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' TRUE)) '&' ('not' n)) is ext-real complex V40() V41() set
n => TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' n) 'or' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' n) is ext-real complex V40() V41() set
('not' ('not' n)) '&' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' n)) * ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' n)) '&' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' n)) '&' ('not' TRUE)) is ext-real complex V40() V41() set
(TRUE => n) '&' (n => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(TRUE => n) * (n => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (TRUE <=> n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE <=> n) is ext-real complex V40() V41() set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
FALSE 'xor' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
FALSE <=> n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
FALSE => n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - FALSE is ext-real complex V40() V41() set
('not' FALSE) 'or' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' FALSE) is ext-real complex V40() V41() set
'not' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - n is ext-real complex V40() V41() set
('not' ('not' FALSE)) '&' ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' n)) is ext-real complex V40() V41() set
n => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' n) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' n) is ext-real complex V40() V41() set
('not' ('not' n)) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' n)) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' n)) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' n)) '&' ('not' FALSE)) is ext-real complex V40() V41() set
(FALSE => n) '&' (n => FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(FALSE => n) * (n => FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (FALSE <=> n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (FALSE <=> n) is ext-real complex V40() V41() set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n '&' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n * n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n 'or' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - n is ext-real complex V40() V41() set
'not' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - TRUE is ext-real complex V40() V41() set
('not' n) '&' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' n) * ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' n) '&' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' n) '&' ('not' TRUE)) is ext-real complex V40() V41() set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n 'or' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - n is ext-real complex V40() V41() set
'not' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - z1 is ext-real complex V40() V41() set
('not' n) '&' ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' n) * ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' n) '&' ('not' z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' n) '&' ('not' z1)) is ext-real complex V40() V41() set
z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(n 'or' z1) 'or' z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (n 'or' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (n 'or' z1) is ext-real complex V40() V41() set
'not' z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - z2 is ext-real complex V40() V41() set
('not' (n 'or' z1)) '&' ('not' z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (n 'or' z1)) * ('not' z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (n 'or' z1)) '&' ('not' z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (n 'or' z1)) '&' ('not' z2)) is ext-real complex V40() V41() set
z1 'or' z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' z1) '&' ('not' z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' z1) * ('not' z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' z1) '&' ('not' z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' z1) '&' ('not' z2)) is ext-real complex V40() V41() set
n 'or' (z1 'or' z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 'or' z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 'or' z2) is ext-real complex V40() V41() set
('not' n) '&' ('not' (z1 'or' z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' n) * ('not' (z1 'or' z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' n) '&' ('not' (z1 'or' z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' n) '&' ('not' (z1 'or' z2))) is ext-real complex V40() V41() set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
n 'or' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - n is ext-real complex V40() V41() set
('not' n) '&' ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' n) * ('not' n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' n) '&' ('not' n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' n) '&' ('not' n)) is ext-real complex V40() V41() set
(TRUE,FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
TRUE => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - TRUE is ext-real complex V40() V41() set
('not' TRUE) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' TRUE) is ext-real complex V40() V41() set
'not' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - FALSE is ext-real complex V40() V41() set
('not' ('not' TRUE)) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' TRUE)) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' TRUE)) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' FALSE) is ext-real complex V40() V41() set
('not' ('not' FALSE)) '&' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' TRUE)) is ext-real complex V40() V41() set
(TRUE => FALSE) '&' (FALSE => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(TRUE => FALSE) * (FALSE => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (TRUE <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE <=> FALSE) is ext-real complex V40() V41() set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
Seg n is V45() V52(n) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n ) } is set
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
len z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom z2 is Element of K19(NAT)
F is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
F /. z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (z1 /. z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
1 - (z1 /. z1) is ext-real complex V40() V41() set
dom F is V52(n) Element of K19(NAT)
F . z1 is set
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
F is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
len z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom z2 is V52(n) Element of K19(NAT)
len F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
dom F is V52(n) Element of K19(NAT)
z2 . z1 is set
z2 /. z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (z1 /. z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
1 - (z1 /. z1) is ext-real complex V40() V41() set
F /. z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
F . z1 is set
n is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K20(NAT,BOOLEAN) is V45() set
K19(K20(NAT,BOOLEAN)) is V45() set
F is V1() V4( NAT ) V5( BOOLEAN ) Function-like V18( NAT , BOOLEAN ) boolean-valued Element of K19(K20(NAT,BOOLEAN))
F . 0 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 is V1() V4( NAT ) Function-like V45() FinSequence-like FinSubsequence-like set
len z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom z1 is Element of K19(NAT)
z2 is set
rng z1 is set
i is set
z1 . i is set
Seg n is non empty V45() V52(n) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n ) } is set
t2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
t2 - 1 is ext-real complex V40() V41() Element of INT
z1 . t2 is set
d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
F . d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
0 + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
Seg n is non empty V45() V52(n) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n ) } is set
dom z2 is V52(n) Element of K19(NAT)
z2 . 1 is set
1 - 1 is ext-real complex V40() V41() Element of INT
F . (1 - 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
i + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z2 /. (i + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. i) '&' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. i) * (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
z2 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. i) '&' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. i) * (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' (z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((z1 /. i) '&' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i) '&' (z2 /. i)) is ext-real complex V40() V41() set
'not' ((z1 /. i) '&' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i) '&' (z2 /. i)) is ext-real complex V40() V41() set
('not' ((z1 /. i) '&' (z2 /. i))) '&' ('not' ((z1 /. i) '&' (z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((z1 /. i) '&' (z2 /. i))) * ('not' ((z1 /. i) '&' (z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((z1 /. i) '&' (z2 /. i))) '&' ('not' ((z1 /. i) '&' (z2 /. i)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((z1 /. i) '&' (z2 /. i))) '&' ('not' ((z1 /. i) '&' (z2 /. i)))) is ext-real complex V40() V41() set
(z2 /. i) '&' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. i) * (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' (z2 /. i))),((z2 /. i) '&' (z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' (z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' (z2 /. i))) is ext-real complex V40() V41() set
'not' ((z2 /. i) '&' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z2 /. i) '&' (z2 /. i)) is ext-real complex V40() V41() set
('not' (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' (z2 /. i)))) '&' ('not' ((z2 /. i) '&' (z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' (z2 /. i)))) * ('not' ((z2 /. i) '&' (z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' (z2 /. i)))) '&' ('not' ((z2 /. i) '&' (z2 /. i)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' (z2 /. i)))) '&' ('not' ((z2 /. i) '&' (z2 /. i)))) is ext-real complex V40() V41() set
t2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
t2 + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z2 /. (t2 + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 . (t2 + 1) is set
(t2 + 1) - 1 is ext-real complex V40() V41() Element of INT
F . ((t2 + 1) - 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
F . t2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(i + 1) - 1 is ext-real complex V40() V41() Element of INT
z2 . (i + 1) is set
F . (t2 + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
F is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
F /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z1 /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
len z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
len F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom F is V52(n) Element of K19(NAT)
Seg n is non empty V45() V52(n) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n ) } is set
dom z1 is V52(n) Element of K19(NAT)
z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
F /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
F /. (z2 + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. (z2 + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
0 + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. z2) '&' (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. z2) * (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(z1 /. z2) '&' (F /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. z2) * (F /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((z1 /. z2) '&' (z2 /. z2)),((z1 /. z2) '&' (F /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((z1 /. z2) '&' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. z2) '&' (z2 /. z2)) is ext-real complex V40() V41() set
'not' ((z1 /. z2) '&' (F /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. z2) '&' (F /. z2)) is ext-real complex V40() V41() set
('not' ((z1 /. z2) '&' (z2 /. z2))) '&' ('not' ((z1 /. z2) '&' (F /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((z1 /. z2) '&' (z2 /. z2))) * ('not' ((z1 /. z2) '&' (F /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((z1 /. z2) '&' (z2 /. z2))) '&' ('not' ((z1 /. z2) '&' (F /. z2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((z1 /. z2) '&' (z2 /. z2))) '&' ('not' ((z1 /. z2) '&' (F /. z2)))) is ext-real complex V40() V41() set
(z2 /. z2) '&' (F /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. z2) * (F /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((((z1 /. z2) '&' (z2 /. z2)),((z1 /. z2) '&' (F /. z2))),((z2 /. z2) '&' (F /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (((z1 /. z2) '&' (z2 /. z2)),((z1 /. z2) '&' (F /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. z2) '&' (z2 /. z2)),((z1 /. z2) '&' (F /. z2))) is ext-real complex V40() V41() set
'not' ((z2 /. z2) '&' (F /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z2 /. z2) '&' (F /. z2)) is ext-real complex V40() V41() set
('not' (((z1 /. z2) '&' (z2 /. z2)),((z1 /. z2) '&' (F /. z2)))) '&' ('not' ((z2 /. z2) '&' (F /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((z1 /. z2) '&' (z2 /. z2)),((z1 /. z2) '&' (F /. z2)))) * ('not' ((z2 /. z2) '&' (F /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (((z1 /. z2) '&' (z2 /. z2)),((z1 /. z2) '&' (F /. z2)))) '&' ('not' ((z2 /. z2) '&' (F /. z2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (((z1 /. z2) '&' (z2 /. z2)),((z1 /. z2) '&' (F /. z2)))) '&' ('not' ((z2 /. z2) '&' (F /. z2)))) is ext-real complex V40() V41() set
F /. 0 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. 0 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
F . z2 is set
F /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 . z2 is set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
Seg n is V45() V52(n) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n ) } is set
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 is V1() V4( NAT ) V5( NAT ) Function-like V45() FinSequence-like FinSubsequence-like FinSequence of NAT
len z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom z2 is Element of K19(NAT)
F is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of NAT
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
F /. z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 /. z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 -' 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 to_power (z1 -' 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
IFEQ ((z1 /. z1),FALSE,0,(2 to_power (z1 -' 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom F is V52(n) Element of K19(NAT)
F . z1 is set
z2 is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of NAT
F is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of NAT
len z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom z2 is V52(n) Element of K19(NAT)
len F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom F is V52(n) Element of K19(NAT)
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
z2 . z1 is set
z2 /. z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 /. z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 -' 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 to_power (z1 -' 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
IFEQ ((z1 /. z1),FALSE,0,(2 to_power (z1 -' 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
F /. z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
F . z1 is set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (n,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
n is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
Seg n is non empty V45() V52(n) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n ) } is set
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1,z2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
F is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
len F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom F is Element of K19(NAT)
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
z1 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. z2) <=> (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. z2) => (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 /. z2) is ext-real complex V40() V41() set
('not' (z1 /. z2)) 'or' (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z1 /. z2)) is ext-real complex V40() V41() set
'not' (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2 /. z2) is ext-real complex V40() V41() set
('not' ('not' (z1 /. z2))) '&' ('not' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. z2))) * ('not' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. z2))) '&' ('not' (z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. z2))) '&' ('not' (z2 /. z2))) is ext-real complex V40() V41() set
(z2 /. z2) => (z1 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. z2)) 'or' (z1 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2 /. z2)) is ext-real complex V40() V41() set
('not' ('not' (z2 /. z2))) '&' ('not' (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. z2))) * ('not' (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. z2))) '&' ('not' (z1 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. z2))) '&' ('not' (z1 /. z2))) is ext-real complex V40() V41() set
((z1 /. z2) => (z2 /. z2)) '&' ((z2 /. z2) => (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. z2) => (z2 /. z2)) * ((z2 /. z2) => (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. z2) <=> (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. z2) <=> (z2 /. z2)) is ext-real complex V40() V41() set
(n,z1,z2) /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(((z1 /. z2),(z2 /. z2)),((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. z2),(z2 /. z2)) is ext-real complex V40() V41() set
('not' ((z1 /. z2),(z2 /. z2))) 'or' ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. z2),(z2 /. z2))) is ext-real complex V40() V41() set
'not' ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((n,z1,z2) /. z2) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. z2),(z2 /. z2)))) * ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2))) is ext-real complex V40() V41() set
((n,z1,z2) /. z2) => ((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((n,z1,z2) /. z2)) 'or' ((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((n,z1,z2) /. z2)) is ext-real complex V40() V41() set
('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,z1,z2) /. z2))) * ('not' ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' ((z1 /. z2),(z2 /. z2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' ((z1 /. z2),(z2 /. z2)))) is ext-real complex V40() V41() set
(((z1 /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2)) '&' (((n,z1,z2) /. z2) => ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2)) * (((n,z1,z2) /. z2) => ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2)) is ext-real complex V40() V41() set
dom z1 is V52(n) Element of K19(NAT)
z1 . z2 is set
F is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
len F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom F is V52(n) Element of K19(NAT)
len z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
dom z1 is V52(n) Element of K19(NAT)
z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
F . z2 is set
F /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. z2) <=> (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. z2) => (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 /. z2) is ext-real complex V40() V41() set
('not' (z1 /. z2)) 'or' (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z1 /. z2)) is ext-real complex V40() V41() set
'not' (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2 /. z2) is ext-real complex V40() V41() set
('not' ('not' (z1 /. z2))) '&' ('not' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. z2))) * ('not' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. z2))) '&' ('not' (z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. z2))) '&' ('not' (z2 /. z2))) is ext-real complex V40() V41() set
(z2 /. z2) => (z1 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. z2)) 'or' (z1 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2 /. z2)) is ext-real complex V40() V41() set
('not' ('not' (z2 /. z2))) '&' ('not' (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. z2))) * ('not' (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. z2))) '&' ('not' (z1 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. z2))) '&' ('not' (z1 /. z2))) is ext-real complex V40() V41() set
((z1 /. z2) => (z2 /. z2)) '&' ((z2 /. z2) => (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. z2) => (z2 /. z2)) * ((z2 /. z2) => (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. z2) <=> (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. z2) <=> (z2 /. z2)) is ext-real complex V40() V41() set
(n,z1,z2) /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(((z1 /. z2),(z2 /. z2)),((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. z2),(z2 /. z2)) is ext-real complex V40() V41() set
('not' ((z1 /. z2),(z2 /. z2))) 'or' ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. z2),(z2 /. z2))) is ext-real complex V40() V41() set
'not' ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((n,z1,z2) /. z2) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. z2),(z2 /. z2)))) * ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2))) is ext-real complex V40() V41() set
((n,z1,z2) /. z2) => ((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((n,z1,z2) /. z2)) 'or' ((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((n,z1,z2) /. z2)) is ext-real complex V40() V41() set
('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,z1,z2) /. z2))) * ('not' ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' ((z1 /. z2),(z2 /. z2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' ((z1 /. z2),(z2 /. z2)))) is ext-real complex V40() V41() set
(((z1 /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2)) '&' (((n,z1,z2) /. z2) => ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2)) * (((n,z1,z2) /. z2) => ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2)) is ext-real complex V40() V41() set
z1 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 . z2 is set
n is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z1 /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) '&' (z2 /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) * (z2 /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(n,z1,z2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1,z2) /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) '&' ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) * ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((z1 /. n) '&' (z2 /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. n) '&' (z2 /. n)) is ext-real complex V40() V41() set
'not' ((z1 /. n) '&' ((n,z1,z2) /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. n) '&' ((n,z1,z2) /. n)) is ext-real complex V40() V41() set
('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((z1 /. n) '&' (z2 /. n))) * ('not' ((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n)))) is ext-real complex V40() V41() set
(z2 /. n) '&' ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. n) * ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))),((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real complex V40() V41() set
'not' ((z2 /. n) '&' ((n,z1,z2) /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z2 /. n) '&' ((n,z1,z2) /. n)) is ext-real complex V40() V41() set
('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) * ('not' ((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n)))) is ext-real complex V40() V41() set
n is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
<*FALSE*> is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,FALSE) is set
{.FALSE,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
<*TRUE*> is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,TRUE) is set
{.TRUE,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
n is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
n /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
<*z1*> is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,z1) is set
{.z1,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
n /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
<*z1*> is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,z1) is set
{.z1,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
n /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
n is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(1,n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,n) is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (1,n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
n /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(1,n) /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
1 -' 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 to_power (1 -' 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
IFEQ ((n /. 1),FALSE,0,(2 to_power (1 -' 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
<*0*> is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
K96(1,0) is set
{.0,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
addnat $$ <*0*> is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
<*z1*> is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
K96(1,z1) is set
{.z1,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
n is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(1,n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,n) is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (1,n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
1 - 1 is ext-real complex V40() V41() Element of INT
n /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(1,n) /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
1 -' 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 to_power (1 -' 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
IFEQ ((n /. 1),FALSE,0,(2 to_power (1 -' 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
<*(2 to_power (1 -' 1))*> is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
K96(1,(2 to_power (1 -' 1))) is set
{.(2 to_power (1 -' 1)),.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
addnat $$ <*(2 to_power (1 -' 1))*> is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 to_power 0 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
<*z1*> is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
K96(1,z1) is set
{.z1,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
z2 is non empty set
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
F is V1() V4( NAT ) V5(z2) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of z2
z1 is V1() V4( NAT ) V5(z2) Function-like V45() V52(z1) FinSequence-like FinSubsequence-like FinSequence of z2
F ^ z1 is V1() V4( NAT ) Function-like V45() FinSequence-like FinSubsequence-like set
n + z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
n is non empty set
z1 is Element of n
<*z1*> is V1() V4( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like set
K96(1,z1) is set
{.z1,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
<*z1*> is V1() V4( NAT ) V5(n) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of n
1 -tuples_on n is functional non empty FinSequence-membered FinSequenceSet of n
n is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
Seg n is non empty V45() V52(n) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n ) } is set
n + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1,z2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(BOOLEAN,F) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,F) is set
{.F,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(n,1,BOOLEAN,z1,(BOOLEAN,F)) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V45() V52(n + 1) V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
n + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(BOOLEAN,z1) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,z1) is set
{.z1,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(n,1,BOOLEAN,z2,(BOOLEAN,z1)) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V45() V52(n + 1) V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(n,z1,z2) /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
i is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(n,z1,z2) /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
i + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. (i + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(n,z1,z2) /. (i + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(n,1,BOOLEAN,z1,(BOOLEAN,F)) /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. i) '&' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. i) * (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(z1 /. i) '&' ((n,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. i) * ((n,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' ((n,z1,z2) /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((z1 /. i) '&' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i) '&' (z2 /. i)) is ext-real complex V40() V41() set
'not' ((z1 /. i) '&' ((n,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i) '&' ((n,z1,z2) /. i)) is ext-real complex V40() V41() set
('not' ((z1 /. i) '&' (z2 /. i))) '&' ('not' ((z1 /. i) '&' ((n,z1,z2) /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((z1 /. i) '&' (z2 /. i))) * ('not' ((z1 /. i) '&' ((n,z1,z2) /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((z1 /. i) '&' (z2 /. i))) '&' ('not' ((z1 /. i) '&' ((n,z1,z2) /. i)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((z1 /. i) '&' (z2 /. i))) '&' ('not' ((z1 /. i) '&' ((n,z1,z2) /. i)))) is ext-real complex V40() V41() set
(z2 /. i) '&' ((n,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. i) * ((n,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' ((n,z1,z2) /. i))),((z2 /. i) '&' ((n,z1,z2) /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' ((n,z1,z2) /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' ((n,z1,z2) /. i))) is ext-real complex V40() V41() set
'not' ((z2 /. i) '&' ((n,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z2 /. i) '&' ((n,z1,z2) /. i)) is ext-real complex V40() V41() set
('not' (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' ((n,z1,z2) /. i)))) '&' ('not' ((z2 /. i) '&' ((n,z1,z2) /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' ((n,z1,z2) /. i)))) * ('not' ((z2 /. i) '&' ((n,z1,z2) /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' ((n,z1,z2) /. i)))) '&' ('not' ((z2 /. i) '&' ((n,z1,z2) /. i)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (((z1 /. i) '&' (z2 /. i)),((z1 /. i) '&' ((n,z1,z2) /. i)))) '&' ('not' ((z2 /. i) '&' ((n,z1,z2) /. i)))) is ext-real complex V40() V41() set
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(n,z1,z2) /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
n is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
n + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) '&' (z2 /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) * (z2 /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(n,z1,z2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1,z2) /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) '&' ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) * ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((z1 /. n) '&' (z2 /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. n) '&' (z2 /. n)) is ext-real complex V40() V41() set
'not' ((z1 /. n) '&' ((n,z1,z2) /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. n) '&' ((n,z1,z2) /. n)) is ext-real complex V40() V41() set
('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((z1 /. n) '&' (z2 /. n))) * ('not' ((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n)))) is ext-real complex V40() V41() set
(z2 /. n) '&' ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. n) * ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))),((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real complex V40() V41() set
'not' ((z2 /. n) '&' ((n,z1,z2) /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z2 /. n) '&' ((n,z1,z2) /. n)) is ext-real complex V40() V41() set
('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) * ('not' ((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n)))) is ext-real complex V40() V41() set
F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(BOOLEAN,F) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,F) is set
{.F,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(n,1,BOOLEAN,z1,(BOOLEAN,F)) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V45() V52(n + 1) V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
n + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(BOOLEAN,z1) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,z1) is set
{.z1,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(n,1,BOOLEAN,z2,(BOOLEAN,z1)) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V45() V52(n + 1) V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. (n + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
Seg n is non empty V45() V52(n) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n ) } is set
(n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(n,1,BOOLEAN,z1,(BOOLEAN,F)) /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
n is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
n + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1,z2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) '&' (z2 /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) * (z2 /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(n,z1,z2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1,z2) /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) '&' ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) * ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((z1 /. n) '&' (z2 /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. n) '&' (z2 /. n)) is ext-real complex V40() V41() set
'not' ((z1 /. n) '&' ((n,z1,z2) /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. n) '&' ((n,z1,z2) /. n)) is ext-real complex V40() V41() set
('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((z1 /. n) '&' (z2 /. n))) * ('not' ((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n)))) is ext-real complex V40() V41() set
(z2 /. n) '&' ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. n) * ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))),((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real complex V40() V41() set
'not' ((z2 /. n) '&' ((n,z1,z2) /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z2 /. n) '&' ((n,z1,z2) /. n)) is ext-real complex V40() V41() set
('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) * ('not' ((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n)))) is ext-real complex V40() V41() set
F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(BOOLEAN,F) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,F) is set
{.F,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(n,1,BOOLEAN,z1,(BOOLEAN,F)) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V45() V52(n + 1) V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
n + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(BOOLEAN,z1) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,z1) is set
{.z1,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(n,1,BOOLEAN,z2,(BOOLEAN,z1)) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V45() V52(n + 1) V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(F,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
F <=> z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
F => z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - F is ext-real complex V40() V41() set
('not' F) 'or' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' F) is ext-real complex V40() V41() set
'not' z1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - z1 is ext-real complex V40() V41() set
('not' ('not' F)) '&' ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' F)) * ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' F)) '&' ('not' z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' F)) '&' ('not' z1)) is ext-real complex V40() V41() set
z1 => F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' z1) 'or' F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' z1) is ext-real complex V40() V41() set
('not' ('not' z1)) '&' ('not' F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' z1)) * ('not' F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' z1)) '&' ('not' F)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' z1)) '&' ('not' F)) is ext-real complex V40() V41() set
(F => z1) '&' (z1 => F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(F => z1) * (z1 => F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (F <=> z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (F <=> z1) is ext-real complex V40() V41() set
((F,z1),(n,z1,z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(F,z1) <=> (n,z1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(F,z1) => (n,z1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (F,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (F,z1) is ext-real complex V40() V41() set
('not' (F,z1)) 'or' (n,z1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (F,z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (F,z1)) is ext-real complex V40() V41() set
'not' (n,z1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (n,z1,z2) is ext-real complex V40() V41() set
('not' ('not' (F,z1))) '&' ('not' (n,z1,z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (F,z1))) * ('not' (n,z1,z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (F,z1))) '&' ('not' (n,z1,z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (F,z1))) '&' ('not' (n,z1,z2))) is ext-real complex V40() V41() set
(n,z1,z2) => (F,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (n,z1,z2)) 'or' (F,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (n,z1,z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (n,z1,z2)) is ext-real complex V40() V41() set
('not' ('not' (n,z1,z2))) '&' ('not' (F,z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (n,z1,z2))) * ('not' (F,z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (n,z1,z2))) '&' ('not' (F,z1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (n,z1,z2))) '&' ('not' (F,z1))) is ext-real complex V40() V41() set
((F,z1) => (n,z1,z2)) '&' ((n,z1,z2) => (F,z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((F,z1) => (n,z1,z2)) * ((n,z1,z2) => (F,z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((F,z1) <=> (n,z1,z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((F,z1) <=> (n,z1,z2)) is ext-real complex V40() V41() set
(BOOLEAN,((F,z1),(n,z1,z2))) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,((F,z1),(n,z1,z2))) is set
{.((F,z1),(n,z1,z2)),.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(n,1,BOOLEAN,(n,z1,z2),(BOOLEAN,((F,z1),(n,z1,z2)))) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V45() V52(n + 1) V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
Seg (n + 1) is non empty V45() V52(n + 1) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n + 1 ) } is set
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
Seg n is non empty V45() V52(n) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n ) } is set
{.(n + 1).} is non empty V12() V52(1) Element of K101(NAT)
(Seg n) \/ {.(n + 1).} is non empty set
z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(n,1,BOOLEAN,(n,z1,z2),(BOOLEAN,((F,z1),(n,z1,z2)))) /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) <=> ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) => ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) is ext-real complex V40() V41() set
('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) 'or' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) is ext-real complex V40() V41() set
'not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) is ext-real complex V40() V41() set
('not' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) '&' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) * ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) '&' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) '&' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real complex V40() V41() set
((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) => ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) 'or' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real complex V40() V41() set
('not' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) '&' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) * ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) '&' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) '&' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) is ext-real complex V40() V41() set
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) => ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) '&' (((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) => ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) => ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) * (((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) => ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) <=> ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) <=> ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real complex V40() V41() set
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)),(((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) <=> (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) => (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real complex V40() V41() set
('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) 'or' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real complex V40() V41() set
'not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) is ext-real complex V40() V41() set
('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) '&' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) * ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) '&' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) '&' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) is ext-real complex V40() V41() set
(((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) => (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) 'or' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real complex V40() V41() set
('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) '&' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) * ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) '&' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) '&' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) is ext-real complex V40() V41() set
((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) => (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) '&' ((((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) => (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) => (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) * ((((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) => (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) <=> (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) <=> (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real complex V40() V41() set
(n,z1,z2) /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. z2) <=> (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. z2) => (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 /. z2) is ext-real complex V40() V41() set
('not' (z1 /. z2)) 'or' (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z1 /. z2)) is ext-real complex V40() V41() set
'not' (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2 /. z2) is ext-real complex V40() V41() set
('not' ('not' (z1 /. z2))) '&' ('not' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. z2))) * ('not' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. z2))) '&' ('not' (z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. z2))) '&' ('not' (z2 /. z2))) is ext-real complex V40() V41() set
(z2 /. z2) => (z1 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. z2)) 'or' (z1 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2 /. z2)) is ext-real complex V40() V41() set
('not' ('not' (z2 /. z2))) '&' ('not' (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. z2))) * ('not' (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. z2))) '&' ('not' (z1 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. z2))) '&' ('not' (z1 /. z2))) is ext-real complex V40() V41() set
((z1 /. z2) => (z2 /. z2)) '&' ((z2 /. z2) => (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. z2) => (z2 /. z2)) * ((z2 /. z2) => (z1 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. z2) <=> (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. z2) <=> (z2 /. z2)) is ext-real complex V40() V41() set
(n,z1,z2) /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(((z1 /. z2),(z2 /. z2)),((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. z2),(z2 /. z2)) is ext-real complex V40() V41() set
('not' ((z1 /. z2),(z2 /. z2))) 'or' ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. z2),(z2 /. z2))) is ext-real complex V40() V41() set
'not' ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((n,z1,z2) /. z2) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. z2),(z2 /. z2)))) * ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2))) is ext-real complex V40() V41() set
((n,z1,z2) /. z2) => ((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((n,z1,z2) /. z2)) 'or' ((z1 /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((n,z1,z2) /. z2)) is ext-real complex V40() V41() set
('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,z1,z2) /. z2))) * ('not' ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' ((z1 /. z2),(z2 /. z2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' ((z1 /. z2),(z2 /. z2)))) is ext-real complex V40() V41() set
(((z1 /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2)) '&' (((n,z1,z2) /. z2) => ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2)) * (((n,z1,z2) /. z2) => ((z1 /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2)) is ext-real complex V40() V41() set
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) <=> (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) => (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) 'or' (z2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) '&' ('not' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) * ('not' (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) '&' ('not' (z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) '&' ('not' (z2 /. z2))) is ext-real complex V40() V41() set
(z2 /. z2) => ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. z2)) 'or' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. z2))) '&' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. z2))) * ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. z2))) '&' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. z2))) '&' ('not' ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2))) is ext-real complex V40() V41() set
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) => (z2 /. z2)) '&' ((z2 /. z2) => ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) => (z2 /. z2)) * ((z2 /. z2) => ((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) <=> (z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2) <=> (z2 /. z2)) is ext-real complex V40() V41() set
((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)),((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)) is ext-real complex V40() V41() set
('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2))) 'or' ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2))) is ext-real complex V40() V41() set
('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)))) * ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)))) '&' ('not' ((n,z1,z2) /. z2))) is ext-real complex V40() V41() set
((n,z1,z2) /. z2) => (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((n,z1,z2) /. z2)) 'or' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,z1,z2) /. z2))) * ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)))) is ext-real complex V40() V41() set
((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2)) '&' (((n,z1,z2) /. z2) => (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)) => ((n,z1,z2) /. z2)) * (((n,z1,z2) /. z2) => (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),(z2 /. z2)) <=> ((n,z1,z2) /. z2)) is ext-real complex V40() V41() set
((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)),((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) <=> ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) => ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) 'or' ((n,z1,z2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) '&' ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) * ('not' ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) '&' ('not' ((n,z1,z2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) '&' ('not' ((n,z1,z2) /. z2))) is ext-real complex V40() V41() set
((n,z1,z2) /. z2) => (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((n,z1,z2) /. z2)) 'or' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,z1,z2) /. z2))) * ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((n,z1,z2) /. z2))) '&' ('not' (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) is ext-real complex V40() V41() set
((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) => ((n,z1,z2) /. z2)) '&' (((n,z1,z2) /. z2) => (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) => ((n,z1,z2) /. z2)) * (((n,z1,z2) /. z2) => (((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) <=> ((n,z1,z2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((((n,1,BOOLEAN,z1,(BOOLEAN,F)) /. z2),((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) <=> ((n,z1,z2) /. z2)) is ext-real complex V40() V41() set
((F,z1),(((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(F,z1) <=> (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(F,z1) => (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (F,z1)) 'or' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (F,z1))) '&' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (F,z1))) * ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (F,z1))) '&' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (F,z1))) '&' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) is ext-real complex V40() V41() set
(((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) => (F,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) 'or' (F,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) '&' ('not' (F,z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) * ('not' (F,z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) '&' ('not' (F,z1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) '&' ('not' (F,z1))) is ext-real complex V40() V41() set
((F,z1) => (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) '&' ((((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) => (F,z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((F,z1) => (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) * ((((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) => (F,z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((F,z1) <=> (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((F,z1) <=> (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real complex V40() V41() set
(F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
F <=> ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
F => ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' F) 'or' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' F)) '&' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' F)) * ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' F)) '&' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' F)) '&' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real complex V40() V41() set
((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) => F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) 'or' F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) '&' ('not' F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) * ('not' F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) '&' ('not' F)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) '&' ('not' F)) is ext-real complex V40() V41() set
(F => ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) '&' (((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) => F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(F => ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) * (((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2) => F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (F <=> ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (F <=> ((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real complex V40() V41() set
((F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)),(((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) <=> (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) => (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real complex V40() V41() set
('not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) 'or' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real complex V40() V41() set
('not' ('not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) '&' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) * ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) '&' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) '&' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) is ext-real complex V40() V41() set
(((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) => (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) 'or' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) '&' ('not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) * ('not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) '&' ('not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2))) '&' ('not' (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)))) is ext-real complex V40() V41() set
((F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) => (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) '&' ((((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) => (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) => (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) * ((((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2) => (F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) <=> (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((F,((n,1,BOOLEAN,z2,(BOOLEAN,z1)) /. z2)) <=> (((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,F)),(n,1,BOOLEAN,z2,(BOOLEAN,z1))) /. z2)) is ext-real complex V40() V41() set
n is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
n + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 to_power n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,z1) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (n,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(BOOLEAN,z2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,z2) is set
{.z2,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(n,1,BOOLEAN,z1,(BOOLEAN,z2)) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V45() V52(n + 1) V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
n + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,z2))) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ ((n + 1),(n,1,BOOLEAN,z1,(BOOLEAN,z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
IFEQ (z2,FALSE,0,(2 to_power n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,z1) + (IFEQ (z2,FALSE,0,(2 to_power n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
Seg (n + 1) is non empty V45() V52(n + 1) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n + 1 ) } is set
(NAT,(IFEQ (z2,FALSE,0,(2 to_power n)))) is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
K96(1,(IFEQ (z2,FALSE,0,(2 to_power n)))) is set
{.(IFEQ (z2,FALSE,0,(2 to_power n))),.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(n,1,NAT,(n,z1),(NAT,(IFEQ (z2,FALSE,0,(2 to_power n))))) is V1() V4( NAT ) V5( NAT ) Function-like non empty V45() V52(n + 1) V52(n + 1) FinSequence-like FinSubsequence-like FinSequence of NAT
Seg n is non empty V45() V52(n) Element of K19(NAT)
{ b₁ where b₁ is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT : ( 1 <= b₁ & b₁ <= n ) } is set
{.(n + 1).} is non empty V12() V52(1) Element of K101(NAT)
(Seg n) \/ {.(n + 1).} is non empty set
F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(n,1,NAT,(n,z1),(NAT,(IFEQ (z2,FALSE,0,(2 to_power n))))) /. F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,1,BOOLEAN,z1,(BOOLEAN,z2)) /. F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
F -' 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 to_power (F -' 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
IFEQ (((n,1,BOOLEAN,z1,(BOOLEAN,z2)) /. F),FALSE,0,(2 to_power (F -' 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,z1) /. F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z1 /. F is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
IFEQ ((z1 /. F),FALSE,0,(2 to_power (F -' 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
IFEQ (((n,1,BOOLEAN,z1,(BOOLEAN,z2)) /. F),FALSE,0,(2 to_power n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
addnat $$ (n,1,NAT,(n,z1),(NAT,(IFEQ (z2,FALSE,0,(2 to_power n))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
addnat . ((addnat $$ (n,z1)),(IFEQ (z2,FALSE,0,(2 to_power n)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z2 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
2 to_power z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z2 + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 to_power (z2 + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
F is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
((z2 + 1),F,z1) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
((z2 + 1),((z2 + 1),F,z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),((z2 + 1),F,z1)) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ ((z2 + 1),((z2 + 1),F,z1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),F,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
F /. (z2 + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. (z2 + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(F /. (z2 + 1)) '&' (z1 /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(F /. (z2 + 1)) * (z1 /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((z2 + 1),F,z1) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
((z2 + 1),F,z1) /. (z2 + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(F /. (z2 + 1)) * (((z2 + 1),F,z1) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((F /. (z2 + 1)) '&' (z1 /. (z2 + 1))),((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((F /. (z2 + 1)) '&' (z1 /. (z2 + 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((F /. (z2 + 1)) '&' (z1 /. (z2 + 1))) is ext-real complex V40() V41() set
'not' ((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))) is ext-real complex V40() V41() set
('not' ((F /. (z2 + 1)) '&' (z1 /. (z2 + 1)))) '&' ('not' ((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((F /. (z2 + 1)) '&' (z1 /. (z2 + 1)))) * ('not' ((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((F /. (z2 + 1)) '&' (z1 /. (z2 + 1)))) '&' ('not' ((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((F /. (z2 + 1)) '&' (z1 /. (z2 + 1)))) '&' ('not' ((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))))) is ext-real complex V40() V41() set
(z1 /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. (z2 + 1)) * (((z2 + 1),F,z1) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((((F /. (z2 + 1)) '&' (z1 /. (z2 + 1))),((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1)))),((z1 /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (((F /. (z2 + 1)) '&' (z1 /. (z2 + 1))),((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((F /. (z2 + 1)) '&' (z1 /. (z2 + 1))),((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1)))) is ext-real complex V40() V41() set
'not' ((z1 /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))) is ext-real complex V40() V41() set
('not' (((F /. (z2 + 1)) '&' (z1 /. (z2 + 1))),((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))))) '&' ('not' ((z1 /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((F /. (z2 + 1)) '&' (z1 /. (z2 + 1))),((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))))) * ('not' ((z1 /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (((F /. (z2 + 1)) '&' (z1 /. (z2 + 1))),((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))))) '&' ('not' ((z1 /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (((F /. (z2 + 1)) '&' (z1 /. (z2 + 1))),((F /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))))) '&' ('not' ((z1 /. (z2 + 1)) '&' (((z2 + 1),F,z1) /. (z2 + 1))))) is ext-real complex V40() V41() set
IFEQ (((z2 + 1),F,z1),FALSE,0,(2 to_power (z2 + 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),((z2 + 1),F,z1)) + (IFEQ (((z2 + 1),F,z1),FALSE,0,(2 to_power (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),F) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ ((z2 + 1),F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),z1) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ ((z2 + 1),z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),F) + ((z2 + 1),z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z2 -tuples_on BOOLEAN is functional non empty FinSequence-membered FinSequenceSet of BOOLEAN
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(z2) FinSequence-like FinSubsequence-like Element of z2 -tuples_on BOOLEAN
i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(BOOLEAN,i) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,i) is set
{.i,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(z2,1,BOOLEAN,z2,(BOOLEAN,i)) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V45() V52(z2 + 1) V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 + 1 is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
t2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(z2) FinSequence-like FinSubsequence-like Element of z2 -tuples_on BOOLEAN
d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(BOOLEAN,d2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,d2) is set
{.d2,.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(z2,1,BOOLEAN,t2,(BOOLEAN,d2)) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V45() V52(z2 + 1) V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
t2 /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. z2) '&' (t2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. z2) * (t2 /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(z2,z2,t2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(z2) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(z2,z2,t2) /. z2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. z2) '&' ((z2,z2,t2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. z2) * ((z2,z2,t2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((z2 /. z2) '&' (t2 /. z2)),((z2 /. z2) '&' ((z2,z2,t2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((z2 /. z2) '&' (t2 /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z2 /. z2) '&' (t2 /. z2)) is ext-real complex V40() V41() set
'not' ((z2 /. z2) '&' ((z2,z2,t2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z2 /. z2) '&' ((z2,z2,t2) /. z2)) is ext-real complex V40() V41() set
('not' ((z2 /. z2) '&' (t2 /. z2))) '&' ('not' ((z2 /. z2) '&' ((z2,z2,t2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((z2 /. z2) '&' (t2 /. z2))) * ('not' ((z2 /. z2) '&' ((z2,z2,t2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((z2 /. z2) '&' (t2 /. z2))) '&' ('not' ((z2 /. z2) '&' ((z2,z2,t2) /. z2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((z2 /. z2) '&' (t2 /. z2))) '&' ('not' ((z2 /. z2) '&' ((z2,z2,t2) /. z2)))) is ext-real complex V40() V41() set
(t2 /. z2) '&' ((z2,z2,t2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(t2 /. z2) * ((z2,z2,t2) /. z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((((z2 /. z2) '&' (t2 /. z2)),((z2 /. z2) '&' ((z2,z2,t2) /. z2))),((t2 /. z2) '&' ((z2,z2,t2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (((z2 /. z2) '&' (t2 /. z2)),((z2 /. z2) '&' ((z2,z2,t2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z2 /. z2) '&' (t2 /. z2)),((z2 /. z2) '&' ((z2,z2,t2) /. z2))) is ext-real complex V40() V41() set
'not' ((t2 /. z2) '&' ((z2,z2,t2) /. z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((t2 /. z2) '&' ((z2,z2,t2) /. z2)) is ext-real complex V40() V41() set
('not' (((z2 /. z2) '&' (t2 /. z2)),((z2 /. z2) '&' ((z2,z2,t2) /. z2)))) '&' ('not' ((t2 /. z2) '&' ((z2,z2,t2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((z2 /. z2) '&' (t2 /. z2)),((z2 /. z2) '&' ((z2,z2,t2) /. z2)))) * ('not' ((t2 /. z2) '&' ((z2,z2,t2) /. z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (((z2 /. z2) '&' (t2 /. z2)),((z2 /. z2) '&' ((z2,z2,t2) /. z2)))) '&' ('not' ((t2 /. z2) '&' ((z2,z2,t2) /. z2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (((z2 /. z2) '&' (t2 /. z2)),((z2 /. z2) '&' ((z2,z2,t2) /. z2)))) '&' ('not' ((t2 /. z2) '&' ((z2,z2,t2) /. z2)))) is ext-real complex V40() V41() set
IFEQ ((z2,z2,t2),FALSE,0,(2 to_power z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
IFEQ (i,FALSE,0,(2 to_power z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
IFEQ (d2,FALSE,0,(2 to_power z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(i,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
i <=> d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
i => d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - i is ext-real complex V40() V41() set
('not' i) 'or' d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' i) is ext-real complex V40() V41() set
'not' d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - d2 is ext-real complex V40() V41() set
('not' ('not' i)) '&' ('not' d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' i)) * ('not' d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' i)) '&' ('not' d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' i)) '&' ('not' d2)) is ext-real complex V40() V41() set
d2 => i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' d2) 'or' i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' d2) is ext-real complex V40() V41() set
('not' ('not' d2)) '&' ('not' i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' d2)) * ('not' i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' d2)) '&' ('not' i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' d2)) '&' ('not' i)) is ext-real complex V40() V41() set
(i => d2) '&' (d2 => i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(i => d2) * (d2 => i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (i <=> d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (i <=> d2) is ext-real complex V40() V41() set
((i,d2),(z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(i,d2) <=> (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(i,d2) => (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (i,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (i,d2) is ext-real complex V40() V41() set
('not' (i,d2)) 'or' (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (i,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (i,d2)) is ext-real complex V40() V41() set
'not' (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2,z2,t2) is ext-real complex V40() V41() set
('not' ('not' (i,d2))) '&' ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (i,d2))) * ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (i,d2))) '&' ('not' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (i,d2))) '&' ('not' (z2,z2,t2))) is ext-real complex V40() V41() set
(z2,z2,t2) => (i,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2,z2,t2)) 'or' (i,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2,z2,t2)) is ext-real complex V40() V41() set
('not' ('not' (z2,z2,t2))) '&' ('not' (i,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2,z2,t2))) * ('not' (i,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2,z2,t2))) '&' ('not' (i,d2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2,z2,t2))) '&' ('not' (i,d2))) is ext-real complex V40() V41() set
((i,d2) => (z2,z2,t2)) '&' ((z2,z2,t2) => (i,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((i,d2) => (z2,z2,t2)) * ((z2,z2,t2) => (i,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((i,d2) <=> (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((i,d2) <=> (z2,z2,t2)) is ext-real complex V40() V41() set
IFEQ (((i,d2),(z2,z2,t2)),FALSE,0,(2 to_power z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
i * ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) * (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1))),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1))) is ext-real complex V40() V41() set
'not' (((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))) is ext-real complex V40() V41() set
('not' (i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)))) '&' ('not' (((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)))) * ('not' (((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)))) '&' ('not' (((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)))) '&' ('not' (((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real complex V40() V41() set
((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) * (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1))),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))),(((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1))),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1))),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real complex V40() V41() set
'not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))) is ext-real complex V40() V41() set
('not' ((i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1))),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1))),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) * ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1))),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((i '&' ((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1))),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real complex V40() V41() set
i '&' d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
i * d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((i '&' d2),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (i '&' d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (i '&' d2) is ext-real complex V40() V41() set
('not' (i '&' d2)) '&' ('not' (((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (i '&' d2)) * ('not' (((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (i '&' d2)) '&' ('not' (((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (i '&' d2)) '&' ('not' (((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real complex V40() V41() set
(((i '&' d2),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))),(((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((i '&' d2),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((i '&' d2),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real complex V40() V41() set
('not' ((i '&' d2),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((i '&' d2),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) * ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((i '&' d2),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((i '&' d2),(((z2,1,BOOLEAN,z2,(BOOLEAN,i)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real complex V40() V41() set
i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
i * (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))) is ext-real complex V40() V41() set
('not' (i '&' d2)) '&' ('not' (i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (i '&' d2)) * ('not' (i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (i '&' d2)) '&' ('not' (i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (i '&' d2)) '&' ('not' (i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real complex V40() V41() set
(((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))),(((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real complex V40() V41() set
('not' ((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) * ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (((z2,1,BOOLEAN,t2,(BOOLEAN,d2)) /. (z2 + 1)) '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real complex V40() V41() set
d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
d2 * (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))),(d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))) is ext-real complex V40() V41() set
('not' ((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) * ('not' (d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((i '&' d2),(i '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) '&' ('not' (d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real complex V40() V41() set
i '&' (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
i * (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((i '&' d2),(i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (i '&' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (i '&' (z2,z2,t2)) is ext-real complex V40() V41() set
('not' (i '&' d2)) '&' ('not' (i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (i '&' d2)) * ('not' (i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (i '&' d2)) '&' ('not' (i '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (i '&' d2)) '&' ('not' (i '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
(((i '&' d2),(i '&' (z2,z2,t2))),(d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((i '&' d2),(i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((i '&' d2),(i '&' (z2,z2,t2))) is ext-real complex V40() V41() set
('not' ((i '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((i '&' d2),(i '&' (z2,z2,t2)))) * ('not' (d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((i '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((i '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (((z2 + 1),(z2,1,BOOLEAN,z2,(BOOLEAN,i)),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) /. (z2 + 1))))) is ext-real complex V40() V41() set
d2 '&' (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
d2 * (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((i '&' d2),(i '&' (z2,z2,t2))),(d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (d2 '&' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (d2 '&' (z2,z2,t2)) is ext-real complex V40() V41() set
('not' ((i '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((i '&' d2),(i '&' (z2,z2,t2)))) * ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((i '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((i '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
C2 is ext-real complex V40() Element of REAL
C1 is ext-real complex V40() Element of REAL
C2 + C1 is ext-real complex V40() Element of REAL
C5 is ext-real complex V40() Element of REAL
C3 is ext-real complex V40() Element of REAL
C5 + C3 is ext-real complex V40() Element of REAL
C4 is ext-real complex V40() Element of REAL
(C5 + C3) + C4 is ext-real complex V40() Element of REAL
(TRUE,(z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE <=> (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
TRUE => (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' TRUE) 'or' (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) '&' ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) * ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' TRUE)) '&' ('not' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' TRUE)) '&' ('not' (z2,z2,t2))) is ext-real complex V40() V41() set
(z2,z2,t2) => TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2,z2,t2)) 'or' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2,z2,t2))) '&' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2,z2,t2))) * ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2,z2,t2))) '&' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2,z2,t2))) '&' ('not' TRUE)) is ext-real complex V40() V41() set
(TRUE => (z2,z2,t2)) '&' ((z2,z2,t2) => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(TRUE => (z2,z2,t2)) * ((z2,z2,t2) => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (TRUE <=> (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE <=> (z2,z2,t2)) is ext-real complex V40() V41() set
(FALSE,FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
('not' FALSE) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' FALSE) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' FALSE) '&' ('not' FALSE)) is ext-real complex V40() V41() set
TRUE '&' (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE * (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((FALSE,FALSE),(TRUE '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (FALSE,FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (FALSE,FALSE) is ext-real complex V40() V41() set
'not' (TRUE '&' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE '&' (z2,z2,t2)) is ext-real complex V40() V41() set
('not' (FALSE,FALSE)) '&' ('not' (TRUE '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (FALSE,FALSE)) * ('not' (TRUE '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (FALSE,FALSE)) '&' ('not' (TRUE '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (FALSE,FALSE)) '&' ('not' (TRUE '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
2 to_power 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(2 to_power z2) * (2 to_power 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 * (2 to_power z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(TRUE,(z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE <=> (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
TRUE => (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' TRUE) 'or' (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) '&' ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) * ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' TRUE)) '&' ('not' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' TRUE)) '&' ('not' (z2,z2,t2))) is ext-real complex V40() V41() set
(z2,z2,t2) => TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2,z2,t2)) 'or' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2,z2,t2))) '&' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2,z2,t2))) * ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2,z2,t2))) '&' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2,z2,t2))) '&' ('not' TRUE)) is ext-real complex V40() V41() set
(TRUE => (z2,z2,t2)) '&' ((z2,z2,t2) => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(TRUE => (z2,z2,t2)) * ((z2,z2,t2) => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (TRUE <=> (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE <=> (z2,z2,t2)) is ext-real complex V40() V41() set
TRUE '&' (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE * (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(FALSE,(TRUE '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (TRUE '&' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE '&' (z2,z2,t2)) is ext-real complex V40() V41() set
('not' FALSE) '&' ('not' (TRUE '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) * ('not' (TRUE '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' FALSE) '&' ('not' (TRUE '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' FALSE) '&' ('not' (TRUE '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
((FALSE,(TRUE '&' (z2,z2,t2))),(d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (FALSE,(TRUE '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (FALSE,(TRUE '&' (z2,z2,t2))) is ext-real complex V40() V41() set
('not' (FALSE,(TRUE '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (FALSE,(TRUE '&' (z2,z2,t2)))) * ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (FALSE,(TRUE '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (FALSE,(TRUE '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
TRUE '&' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE * TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(FALSE,(TRUE '&' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (TRUE '&' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE '&' TRUE) is ext-real complex V40() V41() set
('not' FALSE) '&' ('not' (TRUE '&' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) * ('not' (TRUE '&' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' FALSE) '&' ('not' (TRUE '&' TRUE))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' FALSE) '&' ('not' (TRUE '&' TRUE))) is ext-real complex V40() V41() set
((FALSE,(TRUE '&' TRUE)),(d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (FALSE,(TRUE '&' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (FALSE,(TRUE '&' TRUE)) is ext-real complex V40() V41() set
('not' (FALSE,(TRUE '&' TRUE))) '&' ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (FALSE,(TRUE '&' TRUE))) * ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (FALSE,(TRUE '&' TRUE))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (FALSE,(TRUE '&' TRUE))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
2 to_power 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(2 to_power z2) * (2 to_power 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 * (2 to_power z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(TRUE,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE <=> d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
TRUE => d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' TRUE) 'or' d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) '&' ('not' d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) * ('not' d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' TRUE)) '&' ('not' d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' TRUE)) '&' ('not' d2)) is ext-real complex V40() V41() set
d2 => TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' d2) 'or' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' d2)) '&' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' d2)) * ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' d2)) '&' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' d2)) '&' ('not' TRUE)) is ext-real complex V40() V41() set
(TRUE => d2) '&' (d2 => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(TRUE => d2) * (d2 => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (TRUE <=> d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE <=> d2) is ext-real complex V40() V41() set
((TRUE,d2),(z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(TRUE,d2) <=> (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(TRUE,d2) => (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (TRUE,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE,d2) is ext-real complex V40() V41() set
('not' (TRUE,d2)) 'or' (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (TRUE,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (TRUE,d2)) is ext-real complex V40() V41() set
('not' ('not' (TRUE,d2))) '&' ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (TRUE,d2))) * ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (TRUE,d2))) '&' ('not' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (TRUE,d2))) '&' ('not' (z2,z2,t2))) is ext-real complex V40() V41() set
(z2,z2,t2) => (TRUE,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2,z2,t2)) 'or' (TRUE,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2,z2,t2))) '&' ('not' (TRUE,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2,z2,t2))) * ('not' (TRUE,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2,z2,t2))) '&' ('not' (TRUE,d2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2,z2,t2))) '&' ('not' (TRUE,d2))) is ext-real complex V40() V41() set
((TRUE,d2) => (z2,z2,t2)) '&' ((z2,z2,t2) => (TRUE,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((TRUE,d2) => (z2,z2,t2)) * ((z2,z2,t2) => (TRUE,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((TRUE,d2) <=> (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((TRUE,d2) <=> (z2,z2,t2)) is ext-real complex V40() V41() set
TRUE '&' d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE * d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((TRUE '&' d2),(i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (TRUE '&' d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE '&' d2) is ext-real complex V40() V41() set
('not' (TRUE '&' d2)) '&' ('not' (i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (TRUE '&' d2)) * ('not' (i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (TRUE '&' d2)) '&' ('not' (i '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (TRUE '&' d2)) '&' ('not' (i '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
(((TRUE '&' d2),(i '&' (z2,z2,t2))),(d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((TRUE '&' d2),(i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((TRUE '&' d2),(i '&' (z2,z2,t2))) is ext-real complex V40() V41() set
('not' ((TRUE '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((TRUE '&' d2),(i '&' (z2,z2,t2)))) * ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((TRUE '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((TRUE '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
TRUE '&' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE * TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((TRUE '&' TRUE),(i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (TRUE '&' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE '&' TRUE) is ext-real complex V40() V41() set
('not' (TRUE '&' TRUE)) '&' ('not' (i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (TRUE '&' TRUE)) * ('not' (i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (TRUE '&' TRUE)) '&' ('not' (i '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (TRUE '&' TRUE)) '&' ('not' (i '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
(((TRUE '&' TRUE),(i '&' (z2,z2,t2))),(d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((TRUE '&' TRUE),(i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((TRUE '&' TRUE),(i '&' (z2,z2,t2))) is ext-real complex V40() V41() set
('not' ((TRUE '&' TRUE),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((TRUE '&' TRUE),(i '&' (z2,z2,t2)))) * ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((TRUE '&' TRUE),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((TRUE '&' TRUE),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
2 to_power 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(2 to_power z2) * (2 to_power 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 * (2 to_power z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(TRUE,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE <=> d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
TRUE => d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' TRUE) 'or' d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) '&' ('not' d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) * ('not' d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' TRUE)) '&' ('not' d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' TRUE)) '&' ('not' d2)) is ext-real complex V40() V41() set
d2 => TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' d2) 'or' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' d2)) '&' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' d2)) * ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' d2)) '&' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' d2)) '&' ('not' TRUE)) is ext-real complex V40() V41() set
(TRUE => d2) '&' (d2 => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(TRUE => d2) * (d2 => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (TRUE <=> d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE <=> d2) is ext-real complex V40() V41() set
((TRUE,d2),(z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(TRUE,d2) <=> (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(TRUE,d2) => (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (TRUE,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE,d2) is ext-real complex V40() V41() set
('not' (TRUE,d2)) 'or' (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (TRUE,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (TRUE,d2)) is ext-real complex V40() V41() set
('not' ('not' (TRUE,d2))) '&' ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (TRUE,d2))) * ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (TRUE,d2))) '&' ('not' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (TRUE,d2))) '&' ('not' (z2,z2,t2))) is ext-real complex V40() V41() set
(z2,z2,t2) => (TRUE,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2,z2,t2)) 'or' (TRUE,d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2,z2,t2))) '&' ('not' (TRUE,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2,z2,t2))) * ('not' (TRUE,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2,z2,t2))) '&' ('not' (TRUE,d2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2,z2,t2))) '&' ('not' (TRUE,d2))) is ext-real complex V40() V41() set
((TRUE,d2) => (z2,z2,t2)) '&' ((z2,z2,t2) => (TRUE,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((TRUE,d2) => (z2,z2,t2)) * ((z2,z2,t2) => (TRUE,d2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((TRUE,d2) <=> (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((TRUE,d2) <=> (z2,z2,t2)) is ext-real complex V40() V41() set
(FALSE,(z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
FALSE <=> (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
FALSE => (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' (z2,z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' (z2,z2,t2))) is ext-real complex V40() V41() set
(z2,z2,t2) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2,z2,t2)) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2,z2,t2))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2,z2,t2))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2,z2,t2))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2,z2,t2))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
(FALSE => (z2,z2,t2)) '&' ((z2,z2,t2) => FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(FALSE => (z2,z2,t2)) * ((z2,z2,t2) => FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (FALSE <=> (z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (FALSE <=> (z2,z2,t2)) is ext-real complex V40() V41() set
TRUE '&' d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE * d2 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((TRUE '&' d2),(i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (TRUE '&' d2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE '&' d2) is ext-real complex V40() V41() set
('not' (TRUE '&' d2)) '&' ('not' (i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (TRUE '&' d2)) * ('not' (i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (TRUE '&' d2)) '&' ('not' (i '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (TRUE '&' d2)) '&' ('not' (i '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
(((TRUE '&' d2),(i '&' (z2,z2,t2))),(d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((TRUE '&' d2),(i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((TRUE '&' d2),(i '&' (z2,z2,t2))) is ext-real complex V40() V41() set
('not' ((TRUE '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((TRUE '&' d2),(i '&' (z2,z2,t2)))) * ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((TRUE '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((TRUE '&' d2),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
TRUE '&' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE * TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((TRUE '&' TRUE),(i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (TRUE '&' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE '&' TRUE) is ext-real complex V40() V41() set
('not' (TRUE '&' TRUE)) '&' ('not' (i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (TRUE '&' TRUE)) * ('not' (i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (TRUE '&' TRUE)) '&' ('not' (i '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (TRUE '&' TRUE)) '&' ('not' (i '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
(((TRUE '&' TRUE),(i '&' (z2,z2,t2))),(d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((TRUE '&' TRUE),(i '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((TRUE '&' TRUE),(i '&' (z2,z2,t2))) is ext-real complex V40() V41() set
('not' ((TRUE '&' TRUE),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((TRUE '&' TRUE),(i '&' (z2,z2,t2)))) * ('not' (d2 '&' (z2,z2,t2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((TRUE '&' TRUE),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((TRUE '&' TRUE),(i '&' (z2,z2,t2)))) '&' ('not' (d2 '&' (z2,z2,t2)))) is ext-real complex V40() V41() set
2 to_power 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(2 to_power z2) * (2 to_power 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(2 to_power z2) + ((2 to_power z2) * (2 to_power 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 * (2 to_power z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(2 to_power z2) + (2 * (2 to_power z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(2 to_power z2) + (2 to_power z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((2 to_power z2) + (2 to_power z2)) + (2 to_power z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(z2,z2,t2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(z2) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(BOOLEAN,((i,d2),(z2,z2,t2))) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
K96(1,((i,d2),(z2,z2,t2))) is set
{.((i,d2),(z2,z2,t2)),.} is non empty set
{.{..},.} is non empty set
{..} is non empty V12() V52(1) set
(z2,1,BOOLEAN,(z2,z2,t2),(BOOLEAN,((i,d2),(z2,z2,t2)))) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V45() V52(z2 + 1) V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
((z2 + 1),(z2,1,BOOLEAN,(z2,z2,t2),(BOOLEAN,((i,d2),(z2,z2,t2))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),(z2,1,BOOLEAN,(z2,z2,t2),(BOOLEAN,((i,d2),(z2,z2,t2))))) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ ((z2 + 1),(z2,1,BOOLEAN,(z2,z2,t2),(BOOLEAN,((i,d2),(z2,z2,t2))))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),(z2,1,BOOLEAN,(z2,z2,t2),(BOOLEAN,((i,d2),(z2,z2,t2))))) + (IFEQ (((z2 + 1),F,z1),FALSE,0,(2 to_power (z2 + 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(z2,(z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(z2,(z2,z2,t2)) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(z2) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (z2,(z2,z2,t2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(z2,(z2,z2,t2)) + C2 is ext-real complex V40() Element of REAL
((z2,(z2,z2,t2)) + C2) + C1 is ext-real complex V40() Element of REAL
(z2,(z2,z2,t2)) + C5 is ext-real complex V40() Element of REAL
((z2,(z2,z2,t2)) + C5) + C3 is ext-real complex V40() Element of REAL
(((z2,(z2,z2,t2)) + C5) + C3) + C4 is ext-real complex V40() Element of REAL
(z2,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(z2,z2) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(z2) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (z2,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(z2,t2) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(z2) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(z2,z2) + (z2,t2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2,z2) + (z2,t2)) + C3 is ext-real complex V40() Element of REAL
(((z2,z2) + (z2,t2)) + C3) + C4 is ext-real complex V40() Element of REAL
(z2,z2) + C3 is ext-real complex V40() Element of REAL
(z2,t2) + C4 is ext-real complex V40() Element of REAL
((z2,z2) + C3) + ((z2,t2) + C4) is ext-real complex V40() Element of REAL
(z2,z2) + (IFEQ (i,FALSE,0,(2 to_power z2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2 + 1),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(z2 + 1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ ((z2 + 1),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
((z2,z2) + (IFEQ (i,FALSE,0,(2 to_power z2)))) + ((z2 + 1),(z2,1,BOOLEAN,t2,(BOOLEAN,d2))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
2 to_power 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(BOOLEAN,TRUE) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(BOOLEAN,FALSE) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(1,z1,z2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(1,(1,z1,z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,(1,z1,z2)) is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (1,(1,z1,z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,z1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) '&' (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) * (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(1,z1,z2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(1,z1,z2) /. 1 is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) '&' ((1,z1,z2) /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) * ((1,z1,z2) /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((z1 /. 1) '&' (z2 /. 1)),((z1 /. 1) '&' ((1,z1,z2) /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((z1 /. 1) '&' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1) '&' (z2 /. 1)) is ext-real complex V40() V41() set
'not' ((z1 /. 1) '&' ((1,z1,z2) /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1) '&' ((1,z1,z2) /. 1)) is ext-real complex V40() V41() set
('not' ((z1 /. 1) '&' (z2 /. 1))) '&' ('not' ((z1 /. 1) '&' ((1,z1,z2) /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((z1 /. 1) '&' (z2 /. 1))) * ('not' ((z1 /. 1) '&' ((1,z1,z2) /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((z1 /. 1) '&' (z2 /. 1))) '&' ('not' ((z1 /. 1) '&' ((1,z1,z2) /. 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((z1 /. 1) '&' (z2 /. 1))) '&' ('not' ((z1 /. 1) '&' ((1,z1,z2) /. 1)))) is ext-real complex V40() V41() set
(z2 /. 1) '&' ((1,z1,z2) /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. 1) * ((1,z1,z2) /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((((z1 /. 1) '&' (z2 /. 1)),((z1 /. 1) '&' ((1,z1,z2) /. 1))),((z2 /. 1) '&' ((1,z1,z2) /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (((z1 /. 1) '&' (z2 /. 1)),((z1 /. 1) '&' ((1,z1,z2) /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. 1) '&' (z2 /. 1)),((z1 /. 1) '&' ((1,z1,z2) /. 1))) is ext-real complex V40() V41() set
'not' ((z2 /. 1) '&' ((1,z1,z2) /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z2 /. 1) '&' ((1,z1,z2) /. 1)) is ext-real complex V40() V41() set
('not' (((z1 /. 1) '&' (z2 /. 1)),((z1 /. 1) '&' ((1,z1,z2) /. 1)))) '&' ('not' ((z2 /. 1) '&' ((1,z1,z2) /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((z1 /. 1) '&' (z2 /. 1)),((z1 /. 1) '&' ((1,z1,z2) /. 1)))) * ('not' ((z2 /. 1) '&' ((1,z1,z2) /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (((z1 /. 1) '&' (z2 /. 1)),((z1 /. 1) '&' ((1,z1,z2) /. 1)))) '&' ('not' ((z2 /. 1) '&' ((1,z1,z2) /. 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (((z1 /. 1) '&' (z2 /. 1)),((z1 /. 1) '&' ((1,z1,z2) /. 1)))) '&' ('not' ((z2 /. 1) '&' ((1,z1,z2) /. 1)))) is ext-real complex V40() V41() set
IFEQ ((1,z1,z2),FALSE,0,(2 to_power 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,(1,z1,z2)) + (IFEQ ((1,z1,z2),FALSE,0,(2 to_power 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,z1) is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (1,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,z2) is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,z1) + (1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,z2) is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
F is V1() V4( NAT ) V5( BOOLEAN ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(1,F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(1,F) is V1() V4( NAT ) V5( NAT ) Function-like non empty V12() V45() V52(1) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (1,F) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
F /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. 1),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. 1) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 /. 1) is ext-real complex V40() V41() set
('not' (z1 /. 1)) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z1 /. 1)) is ext-real complex V40() V41() set
('not' ('not' (z1 /. 1))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. 1))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. 1))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. 1))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' (z1 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' (z1 /. 1))) is ext-real complex V40() V41() set
((z1 /. 1) => FALSE) '&' (FALSE => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1) => FALSE) * (FALSE => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. 1) <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1) <=> FALSE) is ext-real complex V40() V41() set
(((z1 /. 1),FALSE),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. 1),FALSE) <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1),FALSE) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. 1),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1),FALSE) is ext-real complex V40() V41() set
('not' ((z1 /. 1),FALSE)) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. 1),FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. 1),FALSE)) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. 1),FALSE))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. 1),FALSE))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. 1),FALSE))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. 1),FALSE))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => ((z1 /. 1),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' ((z1 /. 1),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' ((z1 /. 1),FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),FALSE))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),FALSE))) is ext-real complex V40() V41() set
(((z1 /. 1),FALSE) => FALSE) '&' (FALSE => ((z1 /. 1),FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. 1),FALSE) => FALSE) * (FALSE => ((z1 /. 1),FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. 1),FALSE) <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. 1),FALSE) <=> FALSE) is ext-real complex V40() V41() set
((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) <=> (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. 1) => (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z1 /. 1)) 'or' (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2 /. 1) is ext-real complex V40() V41() set
('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. 1))) * ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1))) is ext-real complex V40() V41() set
(z2 /. 1) => (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. 1)) 'or' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2 /. 1)) is ext-real complex V40() V41() set
('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. 1))) * ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1))) is ext-real complex V40() V41() set
((z1 /. 1) => (z2 /. 1)) '&' ((z2 /. 1) => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1) => (z2 /. 1)) * ((z2 /. 1) => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. 1) <=> (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1) <=> (z2 /. 1)) is ext-real complex V40() V41() set
(((z1 /. 1),(z2 /. 1)),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. 1),(z2 /. 1)) <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1),(z2 /. 1)) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1),(z2 /. 1)) is ext-real complex V40() V41() set
('not' ((z1 /. 1),(z2 /. 1))) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. 1),(z2 /. 1))) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. 1),(z2 /. 1)))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1)))) is ext-real complex V40() V41() set
(((z1 /. 1),(z2 /. 1)) => FALSE) '&' (FALSE => ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. 1),(z2 /. 1)) => FALSE) * (FALSE => ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. 1),(z2 /. 1)) <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. 1),(z2 /. 1)) <=> FALSE) is ext-real complex V40() V41() set
z1 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. i) <=> (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. i) => (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 /. i) is ext-real complex V40() V41() set
('not' (z1 /. i)) 'or' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z1 /. i)) is ext-real complex V40() V41() set
'not' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2 /. i) is ext-real complex V40() V41() set
('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. i))) * ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i))) is ext-real complex V40() V41() set
(z2 /. i) => (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. i)) 'or' (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2 /. i)) is ext-real complex V40() V41() set
('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. i))) * ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i))) is ext-real complex V40() V41() set
((z1 /. i) => (z2 /. i)) '&' ((z2 /. i) => (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. i) => (z2 /. i)) * ((z2 /. i) => (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. i) <=> (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i) <=> (z2 /. i)) is ext-real complex V40() V41() set
(1,z1,z2) /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(((z1 /. i),(z2 /. i)),((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i),(z2 /. i)) is ext-real complex V40() V41() set
('not' ((z1 /. i),(z2 /. i))) 'or' ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. i),(z2 /. i))) is ext-real complex V40() V41() set
'not' ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((1,z1,z2) /. i) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. i),(z2 /. i)))) * ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i))) is ext-real complex V40() V41() set
((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((1,z1,z2) /. i)) 'or' ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((1,z1,z2) /. i)) is ext-real complex V40() V41() set
('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((1,z1,z2) /. i))) * ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i)))) is ext-real complex V40() V41() set
(((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i)) '&' (((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i)) * (((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i)) is ext-real complex V40() V41() set
i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
z2 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. 1),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. 1) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 /. 1) is ext-real complex V40() V41() set
('not' (z1 /. 1)) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z1 /. 1)) is ext-real complex V40() V41() set
('not' ('not' (z1 /. 1))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. 1))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. 1))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. 1))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' (z1 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' (z1 /. 1))) is ext-real complex V40() V41() set
((z1 /. 1) => FALSE) '&' (FALSE => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1) => FALSE) * (FALSE => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. 1) <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1) <=> FALSE) is ext-real complex V40() V41() set
(((z1 /. 1),FALSE),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. 1),FALSE) <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1),FALSE) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. 1),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1),FALSE) is ext-real complex V40() V41() set
('not' ((z1 /. 1),FALSE)) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. 1),FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. 1),FALSE)) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. 1),FALSE))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. 1),FALSE))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. 1),FALSE))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. 1),FALSE))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => ((z1 /. 1),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' ((z1 /. 1),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' ((z1 /. 1),FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),FALSE))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),FALSE))) is ext-real complex V40() V41() set
(((z1 /. 1),FALSE) => FALSE) '&' (FALSE => ((z1 /. 1),FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. 1),FALSE) => FALSE) * (FALSE => ((z1 /. 1),FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. 1),FALSE) <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. 1),FALSE) <=> FALSE) is ext-real complex V40() V41() set
((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) <=> (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. 1) => (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z1 /. 1)) 'or' (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2 /. 1) is ext-real complex V40() V41() set
('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. 1))) * ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1))) is ext-real complex V40() V41() set
(z2 /. 1) => (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. 1)) 'or' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2 /. 1)) is ext-real complex V40() V41() set
('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. 1))) * ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1))) is ext-real complex V40() V41() set
((z1 /. 1) => (z2 /. 1)) '&' ((z2 /. 1) => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1) => (z2 /. 1)) * ((z2 /. 1) => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. 1) <=> (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1) <=> (z2 /. 1)) is ext-real complex V40() V41() set
(((z1 /. 1),(z2 /. 1)),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. 1),(z2 /. 1)) <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1),(z2 /. 1)) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1),(z2 /. 1)) is ext-real complex V40() V41() set
('not' ((z1 /. 1),(z2 /. 1))) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. 1),(z2 /. 1))) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. 1),(z2 /. 1)))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1)))) is ext-real complex V40() V41() set
(((z1 /. 1),(z2 /. 1)) => FALSE) '&' (FALSE => ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. 1),(z2 /. 1)) => FALSE) * (FALSE => ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. 1),(z2 /. 1)) <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. 1),(z2 /. 1)) <=> FALSE) is ext-real complex V40() V41() set
z1 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. i) <=> (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. i) => (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 /. i) is ext-real complex V40() V41() set
('not' (z1 /. i)) 'or' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z1 /. i)) is ext-real complex V40() V41() set
'not' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2 /. i) is ext-real complex V40() V41() set
('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. i))) * ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i))) is ext-real complex V40() V41() set
(z2 /. i) => (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. i)) 'or' (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2 /. i)) is ext-real complex V40() V41() set
('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. i))) * ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i))) is ext-real complex V40() V41() set
((z1 /. i) => (z2 /. i)) '&' ((z2 /. i) => (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. i) => (z2 /. i)) * ((z2 /. i) => (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. i) <=> (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i) <=> (z2 /. i)) is ext-real complex V40() V41() set
(1,z1,z2) /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(((z1 /. i),(z2 /. i)),((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i),(z2 /. i)) is ext-real complex V40() V41() set
('not' ((z1 /. i),(z2 /. i))) 'or' ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. i),(z2 /. i))) is ext-real complex V40() V41() set
'not' ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((1,z1,z2) /. i) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. i),(z2 /. i)))) * ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i))) is ext-real complex V40() V41() set
((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((1,z1,z2) /. i)) 'or' ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((1,z1,z2) /. i)) is ext-real complex V40() V41() set
('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((1,z1,z2) /. i))) * ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i)))) is ext-real complex V40() V41() set
(((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i)) '&' (((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i)) * (((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i)) is ext-real complex V40() V41() set
i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
z2 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(('not' TRUE),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
('not' TRUE) <=> TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' TRUE) => TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' TRUE) is ext-real complex V40() V41() set
('not' ('not' TRUE)) 'or' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ('not' TRUE)) is ext-real complex V40() V41() set
('not' ('not' ('not' TRUE))) '&' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ('not' TRUE))) * ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ('not' TRUE))) '&' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ('not' TRUE))) '&' ('not' TRUE)) is ext-real complex V40() V41() set
TRUE => ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' TRUE) 'or' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) '&' ('not' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) * ('not' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' TRUE)) '&' ('not' ('not' TRUE))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' TRUE)) '&' ('not' ('not' TRUE))) is ext-real complex V40() V41() set
(('not' TRUE) => TRUE) '&' (TRUE => ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(('not' TRUE) => TRUE) * (TRUE => ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' TRUE) <=> TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' TRUE) <=> TRUE) is ext-real complex V40() V41() set
((('not' TRUE),TRUE),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(('not' TRUE),TRUE) <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(('not' TRUE),TRUE) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (('not' TRUE),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' TRUE),TRUE) is ext-real complex V40() V41() set
('not' (('not' TRUE),TRUE)) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (('not' TRUE),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (('not' TRUE),TRUE)) is ext-real complex V40() V41() set
('not' ('not' (('not' TRUE),TRUE))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (('not' TRUE),TRUE))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (('not' TRUE),TRUE))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (('not' TRUE),TRUE))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => (('not' TRUE),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' (('not' TRUE),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' (('not' TRUE),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' (('not' TRUE),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' (('not' TRUE),TRUE))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' (('not' TRUE),TRUE))) is ext-real complex V40() V41() set
((('not' TRUE),TRUE) => FALSE) '&' (FALSE => (('not' TRUE),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((('not' TRUE),TRUE) => FALSE) * (FALSE => (('not' TRUE),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((('not' TRUE),TRUE) <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((('not' TRUE),TRUE) <=> FALSE) is ext-real complex V40() V41() set
((z1 /. 1),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) <=> TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. 1) => TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 /. 1) is ext-real complex V40() V41() set
('not' (z1 /. 1)) 'or' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z1 /. 1)) is ext-real complex V40() V41() set
('not' ('not' (z1 /. 1))) '&' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. 1))) * ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. 1))) '&' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. 1))) '&' ('not' TRUE)) is ext-real complex V40() V41() set
TRUE => (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' TRUE) 'or' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) '&' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) * ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' TRUE)) '&' ('not' (z1 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' TRUE)) '&' ('not' (z1 /. 1))) is ext-real complex V40() V41() set
((z1 /. 1) => TRUE) '&' (TRUE => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1) => TRUE) * (TRUE => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. 1) <=> TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1) <=> TRUE) is ext-real complex V40() V41() set
(((z1 /. 1),TRUE),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. 1),TRUE) <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1),TRUE) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. 1),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1),TRUE) is ext-real complex V40() V41() set
('not' ((z1 /. 1),TRUE)) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. 1),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. 1),TRUE)) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. 1),TRUE))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. 1),TRUE))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. 1),TRUE))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. 1),TRUE))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => ((z1 /. 1),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' ((z1 /. 1),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' ((z1 /. 1),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),TRUE))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),TRUE))) is ext-real complex V40() V41() set
(((z1 /. 1),TRUE) => FALSE) '&' (FALSE => ((z1 /. 1),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. 1),TRUE) => FALSE) * (FALSE => ((z1 /. 1),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. 1),TRUE) <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. 1),TRUE) <=> FALSE) is ext-real complex V40() V41() set
((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) <=> (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. 1) => (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z1 /. 1)) 'or' (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2 /. 1) is ext-real complex V40() V41() set
('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. 1))) * ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1))) is ext-real complex V40() V41() set
(z2 /. 1) => (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. 1)) 'or' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2 /. 1)) is ext-real complex V40() V41() set
('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. 1))) * ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1))) is ext-real complex V40() V41() set
((z1 /. 1) => (z2 /. 1)) '&' ((z2 /. 1) => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1) => (z2 /. 1)) * ((z2 /. 1) => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. 1) <=> (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1) <=> (z2 /. 1)) is ext-real complex V40() V41() set
(((z1 /. 1),(z2 /. 1)),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. 1),(z2 /. 1)) <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1),(z2 /. 1)) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1),(z2 /. 1)) is ext-real complex V40() V41() set
('not' ((z1 /. 1),(z2 /. 1))) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. 1),(z2 /. 1))) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. 1),(z2 /. 1)))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1)))) is ext-real complex V40() V41() set
(((z1 /. 1),(z2 /. 1)) => FALSE) '&' (FALSE => ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. 1),(z2 /. 1)) => FALSE) * (FALSE => ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. 1),(z2 /. 1)) <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. 1),(z2 /. 1)) <=> FALSE) is ext-real complex V40() V41() set
z1 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. i) <=> (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. i) => (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 /. i) is ext-real complex V40() V41() set
('not' (z1 /. i)) 'or' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z1 /. i)) is ext-real complex V40() V41() set
'not' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2 /. i) is ext-real complex V40() V41() set
('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. i))) * ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i))) is ext-real complex V40() V41() set
(z2 /. i) => (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. i)) 'or' (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2 /. i)) is ext-real complex V40() V41() set
('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. i))) * ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i))) is ext-real complex V40() V41() set
((z1 /. i) => (z2 /. i)) '&' ((z2 /. i) => (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. i) => (z2 /. i)) * ((z2 /. i) => (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. i) <=> (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i) <=> (z2 /. i)) is ext-real complex V40() V41() set
(1,z1,z2) /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(((z1 /. i),(z2 /. i)),((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i),(z2 /. i)) is ext-real complex V40() V41() set
('not' ((z1 /. i),(z2 /. i))) 'or' ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. i),(z2 /. i))) is ext-real complex V40() V41() set
'not' ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((1,z1,z2) /. i) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. i),(z2 /. i)))) * ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i))) is ext-real complex V40() V41() set
((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((1,z1,z2) /. i)) 'or' ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((1,z1,z2) /. i)) is ext-real complex V40() V41() set
('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((1,z1,z2) /. i))) * ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i)))) is ext-real complex V40() V41() set
(((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i)) '&' (((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i)) * (((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i)) is ext-real complex V40() V41() set
i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
F /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(TRUE,TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
TRUE <=> TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
TRUE => TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' TRUE) 'or' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) '&' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) * ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' TRUE)) '&' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' TRUE)) '&' ('not' TRUE)) is ext-real complex V40() V41() set
(TRUE => TRUE) '&' (TRUE => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(TRUE => TRUE) * (TRUE => TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (TRUE <=> TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE <=> TRUE) is ext-real complex V40() V41() set
'not' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((TRUE,TRUE),('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(TRUE,TRUE) <=> ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(TRUE,TRUE) => ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (TRUE,TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (TRUE,TRUE) is ext-real complex V40() V41() set
('not' (TRUE,TRUE)) 'or' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (TRUE,TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (TRUE,TRUE)) is ext-real complex V40() V41() set
'not' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' TRUE) is ext-real complex V40() V41() set
('not' ('not' (TRUE,TRUE))) '&' ('not' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (TRUE,TRUE))) * ('not' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (TRUE,TRUE))) '&' ('not' ('not' TRUE))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (TRUE,TRUE))) '&' ('not' ('not' TRUE))) is ext-real complex V40() V41() set
('not' TRUE) => (TRUE,TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) 'or' (TRUE,TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ('not' TRUE)) is ext-real complex V40() V41() set
('not' ('not' ('not' TRUE))) '&' ('not' (TRUE,TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ('not' TRUE))) * ('not' (TRUE,TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ('not' TRUE))) '&' ('not' (TRUE,TRUE))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ('not' TRUE))) '&' ('not' (TRUE,TRUE))) is ext-real complex V40() V41() set
((TRUE,TRUE) => ('not' TRUE)) '&' (('not' TRUE) => (TRUE,TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((TRUE,TRUE) => ('not' TRUE)) * (('not' TRUE) => (TRUE,TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((TRUE,TRUE) <=> ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((TRUE,TRUE) <=> ('not' TRUE)) is ext-real complex V40() V41() set
((z1 /. 1),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) <=> TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. 1) => TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 /. 1) is ext-real complex V40() V41() set
('not' (z1 /. 1)) 'or' TRUE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z1 /. 1)) is ext-real complex V40() V41() set
('not' ('not' (z1 /. 1))) '&' ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. 1))) * ('not' TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. 1))) '&' ('not' TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. 1))) '&' ('not' TRUE)) is ext-real complex V40() V41() set
TRUE => (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' TRUE) 'or' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) '&' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' TRUE)) * ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' TRUE)) '&' ('not' (z1 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' TRUE)) '&' ('not' (z1 /. 1))) is ext-real complex V40() V41() set
((z1 /. 1) => TRUE) '&' (TRUE => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1) => TRUE) * (TRUE => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. 1) <=> TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1) <=> TRUE) is ext-real complex V40() V41() set
(((z1 /. 1),TRUE),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. 1),TRUE) <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1),TRUE) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. 1),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1),TRUE) is ext-real complex V40() V41() set
('not' ((z1 /. 1),TRUE)) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. 1),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. 1),TRUE)) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. 1),TRUE))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. 1),TRUE))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. 1),TRUE))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. 1),TRUE))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => ((z1 /. 1),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' ((z1 /. 1),TRUE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' ((z1 /. 1),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),TRUE))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),TRUE))) is ext-real complex V40() V41() set
(((z1 /. 1),TRUE) => FALSE) '&' (FALSE => ((z1 /. 1),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. 1),TRUE) => FALSE) * (FALSE => ((z1 /. 1),TRUE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. 1),TRUE) <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. 1),TRUE) <=> FALSE) is ext-real complex V40() V41() set
((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. 1) <=> (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. 1) => (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z1 /. 1)) 'or' (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z2 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2 /. 1) is ext-real complex V40() V41() set
('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. 1))) * ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. 1))) '&' ('not' (z2 /. 1))) is ext-real complex V40() V41() set
(z2 /. 1) => (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. 1)) 'or' (z1 /. 1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2 /. 1)) is ext-real complex V40() V41() set
('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. 1))) * ('not' (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. 1))) '&' ('not' (z1 /. 1))) is ext-real complex V40() V41() set
((z1 /. 1) => (z2 /. 1)) '&' ((z2 /. 1) => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1) => (z2 /. 1)) * ((z2 /. 1) => (z1 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. 1) <=> (z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1) <=> (z2 /. 1)) is ext-real complex V40() V41() set
(((z1 /. 1),(z2 /. 1)),FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. 1),(z2 /. 1)) <=> FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. 1),(z2 /. 1)) => FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. 1),(z2 /. 1)) is ext-real complex V40() V41() set
('not' ((z1 /. 1),(z2 /. 1))) 'or' FALSE is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. 1),(z2 /. 1))) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. 1),(z2 /. 1)))) * ('not' FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. 1),(z2 /. 1)))) '&' ('not' FALSE)) is ext-real complex V40() V41() set
FALSE => ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' FALSE) 'or' ((z1 /. 1),(z2 /. 1)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' FALSE)) * ('not' ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' FALSE)) '&' ('not' ((z1 /. 1),(z2 /. 1)))) is ext-real complex V40() V41() set
(((z1 /. 1),(z2 /. 1)) => FALSE) '&' (FALSE => ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. 1),(z2 /. 1)) => FALSE) * (FALSE => ((z1 /. 1),(z2 /. 1))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. 1),(z2 /. 1)) <=> FALSE) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. 1),(z2 /. 1)) <=> FALSE) is ext-real complex V40() V41() set
z1 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. i) <=> (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(z1 /. i) => (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z1 /. i) is ext-real complex V40() V41() set
('not' (z1 /. i)) 'or' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z1 /. i)) is ext-real complex V40() V41() set
'not' (z2 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (z2 /. i) is ext-real complex V40() V41() set
('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z1 /. i))) * ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z1 /. i))) '&' ('not' (z2 /. i))) is ext-real complex V40() V41() set
(z2 /. i) => (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (z2 /. i)) 'or' (z1 /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' (z2 /. i)) is ext-real complex V40() V41() set
('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' (z2 /. i))) * ('not' (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' (z2 /. i))) '&' ('not' (z1 /. i))) is ext-real complex V40() V41() set
((z1 /. i) => (z2 /. i)) '&' ((z2 /. i) => (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. i) => (z2 /. i)) * ((z2 /. i) => (z1 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' ((z1 /. i) <=> (z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i) <=> (z2 /. i)) is ext-real complex V40() V41() set
(1,z1,z2) /. i is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(((z1 /. i),(z2 /. i)),((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. i),(z2 /. i)) is ext-real complex V40() V41() set
('not' ((z1 /. i),(z2 /. i))) 'or' ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((z1 /. i),(z2 /. i))) is ext-real complex V40() V41() set
'not' ((1,z1,z2) /. i) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((1,z1,z2) /. i) is ext-real complex V40() V41() set
('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((z1 /. i),(z2 /. i)))) * ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((z1 /. i),(z2 /. i)))) '&' ('not' ((1,z1,z2) /. i))) is ext-real complex V40() V41() set
((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((1,z1,z2) /. i)) 'or' ((z1 /. i),(z2 /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
'not' ('not' ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ('not' ((1,z1,z2) /. i)) is ext-real complex V40() V41() set
('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ('not' ((1,z1,z2) /. i))) * ('not' ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ('not' ((1,z1,z2) /. i))) '&' ('not' ((z1 /. i),(z2 /. i)))) is ext-real complex V40() V41() set
(((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i)) '&' (((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
(((z1 /. i),(z2 /. i)) => ((1,z1,z2) /. i)) * (((1,z1,z2) /. i) => ((z1 /. i),(z2 /. i))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. i),(z2 /. i)) <=> ((1,z1,z2) /. i)) is ext-real complex V40() V41() set
n is non empty ext-real positive non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
z1 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
z2 is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1,z2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,(n,z1,z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,(n,z1,z2)) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (n,(n,z1,z2)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,z1) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (n,z1) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,z2) is V1() V4( NAT ) V5( NAT ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of NAT
addnat $$ (n,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,z1) + (n,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,z1,z2) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z1 /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
z2 /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) '&' (z2 /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) * (z2 /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(n,z1,z2) is V1() V4( NAT ) V5( BOOLEAN ) Function-like V45() V52(n) FinSequence-like FinSubsequence-like FinSequence of BOOLEAN
(n,z1,z2) /. n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) '&' ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z1 /. n) * ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
(((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' ((z1 /. n) '&' (z2 /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. n) '&' (z2 /. n)) is ext-real complex V40() V41() set
'not' ((z1 /. n) '&' ((n,z1,z2) /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z1 /. n) '&' ((n,z1,z2) /. n)) is ext-real complex V40() V41() set
('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' ((z1 /. n) '&' (z2 /. n))) * ('not' ((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' ((z1 /. n) '&' (z2 /. n))) '&' ('not' ((z1 /. n) '&' ((n,z1,z2) /. n)))) is ext-real complex V40() V41() set
(z2 /. n) '&' ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
(z2 /. n) * ((n,z1,z2) /. n) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
((((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))),((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean Element of BOOLEAN
'not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n))) is ext-real complex V40() V41() set
'not' ((z2 /. n) '&' ((n,z1,z2) /. n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - ((z2 /. n) '&' ((n,z1,z2) /. n)) is ext-real complex V40() V41() set
('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) * ('not' ((z2 /. n) '&' ((n,z1,z2) /. n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() set
'not' (('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n)))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() boolean set
1 - (('not' (((z1 /. n) '&' (z2 /. n)),((z1 /. n) '&' ((n,z1,z2) /. n)))) '&' ('not' ((z2 /. n) '&' ((n,z1,z2) /. n)))) is ext-real complex V40() V41() set
2 to_power n is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
IFEQ ((n,z1,z2),FALSE,0,(2 to_power n)) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT
(n,(n,z1,z2)) + (IFEQ ((n,z1,z2),FALSE,0,(2 to_power n))) is ext-real non negative V32() V33() V34() V38() complex V40() V41() V45() V50() Element of NAT