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FORMULA
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E.g.f. A(x) satisfies:
(1) A(x - x*arcsin(x)) = x.
(2) A(x) = x/(1 - arcsin(A(x))).
(3) A(x) = x + Sum_{n>=1} d^(n-1)/dx^(n-1) x^n * arcsin(x)^n / n!.
(4) A(x) = x*exp( Sum_{n>=1} d^(n-1)/dx^(n-1) x^(n-1) * arcsin(x)^n / n! ).
a(n) ~ n^(n-1) * s*sqrt((1-s^2)/(2-s^2)) / (exp(n) * (s*(1-arcsin(s)))^n), where s = 0.46154056366132202860... is the root of the equation s/(sqrt(1-s^2)*(1-arcsin(s))) = 1. - Vaclav Kotesovec, Jan 13 2014
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PROG
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(PARI) {a(n)=n!*polcoeff(serreverse(x-x*asin(x +x*O(x^n))), n)}
for(n=1, 25, print1(a(n), ", "))
(PARI) {Dx(n, F)=local(D=F); for(i=1, n, D=deriv(D)); D}
{a(n)=local(A=x); A=x+sum(m=1, n, Dx(m-1, x^m*asin(x+x*O(x^n))^m/m!)); n!*polcoeff(A, n)}
for(n=1, 25, print1(a(n), ", "))
(PARI) {Dx(n, F)=local(D=F); for(i=1, n, D=deriv(D)); D}
{a(n)=local(A=x+x^2+x*O(x^n)); A=x*exp(sum(m=1, n, Dx(m-1, x^(m-1)*asin(x+x*O(x^n))^m/m!)+x*O(x^n))); n!*polcoeff(A, n)}
for(n=1, 25, print1(a(n), ", "))
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