A318635 -id:A318635 - cp's OEIS frontend

A280790 E.g.f. A(x) satisfies: A( sin( A( sinh(x) ) ) ) = x.

1, 4, 2320, 9857600, 159122080000, 7098806416000000, 686863244097538560000, 143579312211740504320000000, 27634174819420517051458560000000, 103635121107833144489335056076800000000, -624322694794393812097710416148436992000000000, 9870191061692402402605200350045038131191808000000000, -258786046753018245774392957793266127246933652766720000000000, 11248188901093330352571154620038385487188031846809616384000000000000

Offset: 1

Paul D. Hanna, Jan 08 2017

sign

The series reversion of the e.g.f. is defined by A280792.

			E.g.f.: A(x) = x + 4*x^5/5! + 2320*x^9/9! + 9857600*x^13/13! + 159122080000*x^17/17! + 7098806416000000*x^21/21! + 686863244097538560000*x^25/25! + 143579312211740504320000000*x^29/29! + 27634174819420517051458560000000*x^33/33! + 103635121107833144489335056076800000000*x^37/37! - 624322694794393812097710416148436992000000000*x^41/41! +...
such that A( sin( A( sinh(x) ) ) ) = x.
Note that A( A( sin( sinh(x) ) ) ) is NOT equal to x; the composition of these functions is not commutative.
The e.g.f. as a series with reduced fractional coefficients begins:
A(x) = x + 1/30*x^5 + 29/4536*x^9 + 6161/3891888*x^13 + 382505/855017856*x^17 + 50189525/361219896576*x^21 + 134894899309/3046287794457600*x^25 + 195216389950265/12021626449023916032*x^29 + ...
RELATED SERIES.
A( sinh(x) ) = x + x^3/3! + 5*x^5/5! + 141*x^7/7! + 6185*x^9/9! + 482681*x^11/11! + 55181165*x^13/13! + 8650849221*x^15/15! + 1806577140945*x^17/17! + 482615036315761*x^19/19! + 160833575943581525*x^21/21! + 65507016886932658301*x^23/23! + 32006289578900322278905*x^25/25! + ...
The series reversion of A( sinh(x) ) equals A( sin(x) ), which begins:
A( sin(x) ) = x - x^3/3! + 5*x^5/5! - 141*x^7/7! + 6185*x^9/9! - 482681*x^11/11! + 55181165*x^13/13! + ...
sinh( A(x) ) = x + x^3/3! + 5*x^5/5! + 85*x^7/7! + 2825*x^9/9! + 151625*x^11/11! + 12098125*x^13/13! + 1339476125*x^15/15! + 196410020625*x^17/17! + 37062144900625*x^19/19! + 8772471210303125*x^21/21! + 2519410212081953125*x^23/23! + 854580849916226265625*x^25/25! + ... + A318635(n)*x^(2*n-1)/(2*n-1)! + ...
The series reversion of sinh( A(x) ) equals sin( A(x) ), which begins:
sin( A(x) ) = x - x^3/3! + 5*x^5/5! - 85*x^7/7! + 2825*x^9/9! - 151625*x^11/11! + 12098125*x^13/13! + ...
The series reversion of A(x) = sin(A(sinh(x))) = sinh(A(sin(x))), and begins:
Series_Reversion( A(x) ) = x - 4*x^5/5! - 304*x^9/9! + 648896*x^13/13! + 2650020096*x^17/17! - 142483330376704*x^21/21! + 24311838501965418496*x^25/25! +...+ A280792(n)*x^(4*n-3)/(4*n-3)! + ...

Paul D. Hanna, Table of n, a(n) for n = 1..50

Cf. A280791, A280792, A280793, A318635.

{a(n) = my(A=x +x*O(x^(4*n+1))); for(i=1,2*n, A = A + (x - subst( sin(A) ,x, sinh(A) ) )/2; H=A ); (4*n-3)!*polcoeff(A,4*n-3)}
for(n=1,20,print1(a(n),", "))

E.g.f. A(x) = Sum_{n>=1} a(n) * x^(4*n-3)/(4*n-3)! satisfies:
(1) A( sin( A( sinh(x) ) ) ) = x.
(2) A( sinh( A( sin(x) ) ) ) = x.
(3) sin( A( sinh( A(x) ) ) ) = x.
(4) sinh( A( sin( A(x) ) ) ) = x.
(5) A( sinh(A(x)) ) = asin(x).
(6) A( sin(A(x)) ) = asinh(x).
(7) Series_Reversion( A(x) ) = sin( A(sinh(x)) ) = sinh( A(sin(x)) ).

A280792 E.g.f. A(x) satisfies: A( arcsin( A( arcsinh(x) ) ) ) = x.

Original entry on oeis.org

1, -4, -304, 648896, 2650020096, -142483330376704, 24311838501965418496, -17572131142184492046434304, 31550058162566932127305417424896, -123841868587916789535717370523560443904, 969729634851676570691527174556498457233719296, -14068736567241332813708145418894026558391075423125504, 356436464229966658550949874743523835716465340767523041181696, -15023108679681039882374036580197265042861509571919315150655773999104

Offset: 1

Paul D. Hanna, Jan 09 2017

sign

The series reversion of the e.g.f. is defined by A280790.

			E.g.f.: A(x) = x - 4*x^5/5! - 304*x^9/9! + 648896*x^13/13! + 2650020096*x^17/17! - 142483330376704*x^21/21! + 24311838501965418496*x^25/25! - 17572131142184492046434304*x^29/29! + 31550058162566932127305417424896*x^33/33! - 123841868587916789535717370523560443904*x^37/37! + 969729634851676570691527174556498457233719296*x^41/41! + ...
such that A( arcsin( A( arcsinh(x) ) ) ) = x.
Note that A( A( arcsin( arcsinh(x) ) ) ) is NOT equal to x; the composition of these functions is not commutative.
The e.g.f. as a series with reduced fractional coefficients begins:
A(x) = x - 1/30*x^5 - 19/22680*x^9 + 10139/97297200*x^13 + 3450547/463134672000*x^17 - 139143877321/49893498214560000*x^21 + 5935507446768901/3786916514485104000000*x^25 - 4413653374109964767/2220816151494708768000000*x^29 + ...
RELATED SERIES.
A( arcsinh(x) ) = x - x^3/3! + 5*x^5/5! - 85*x^7/7! + 2825*x^9/9! - 151625*x^11/11! + 12098125*x^13/13! - 1339476125*x^15/15! + 196410020625*x^17/17! - 37062144900625*x^19/19! + 8772471210303125*x^21/21! - 2519410212081953125*x^23/23! + 854580849916226265625*x^25/25! + ...
The series reversion of A( arcsinh(x) ) equals A( arcsin(x) ), which begins:
A( arcsin(x) ) = x + x^3/3! + 5*x^5/5! + 85*x^7/7! + 2825*x^9/9! + 151625*x^11/11! + 12098125*x^13/13! + 1339476125*x^15/15! + ... + A318635(n)*x^(2*n-1)/(2*n-1)! + ...
arcsinh( A(x) ) = x - x^3/3! + 5*x^5/5! - 141*x^7/7! + 6185*x^9/9! - 482681*x^11/11! + 55181165*x^13/13! - 8650849221*x^15/15! + 1806577140945*x^17/17! - 482615036315761*x^19/19! + 160833575943581525*x^21/21! - 65507016886932658301*x^23/23! + 32006289578900322278905*x^25/25! + ...
The series reversion of arcsinh( A(x) ) equals arcsin( A(x) ), which begins:
arcsin( A(x) ) = x + x^3/3! + 5*x^5/5! + 141*x^7/7! + 6185*x^9/9! + 482681*x^11/11! + 55181165*x^13/13! + 8650849221*x^15/15! + ...
The series reversion of A(x) begins:
Series_Reversion( A(x) ) = x + 4*x^5/5! + 2320*x^9/9! + 9857600*x^13/13! + 159122080000*x^17/17! + 7098806416000000*x^21/21! + 686863244097538560000*x^25/25! +...+ A280790(n)*x^(4*n-3)/(4*n-3)! +...

Paul D. Hanna, Table of n, a(n) for n = 1..50

Cf. A280790, A280791, A280793, A318635.

{a(n) = my(A=x +x*O(x^(4*n+1))); for(i=1,2*n, A = A + (x - subst( asin(A) ,x, asinh(A) ) )/2; H=A ); (4*n-3)!*polcoeff(A,4*n-3)}
for(n=1,20,print1(a(n),", "))

E.g.f. A(x) = Sum_{n>=1} a(n) * x^(4*n-3)/(4*n-3)! satisfies:
(1) A( arcsin( A( arcsinh(x) ) ) ) = x.
(2) A( arcsinh( A( arcsin(x) ) ) ) = x.
(3) arcsin( A( arcsinh( A(x) ) ) ) = x.
(4) arcsinh( A( arcsin( A(x) ) ) ) = x.
(5) A( arcsinh(A(x)) ) = sin(x).
(6) A( arcsin(A(x)) ) = sinh(x).
(7) Series_Reversion( A(x) ) = arcsin( A(arcsinh(x)) ) = arcsinh( A(arcsin(x)) ).

cp's OEIS Frontend

A280790 E.g.f. A(x) satisfies: A( sin( A( sinh(x) ) ) ) = x.

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