Table of Special Functions

Some of these functions I have seen defined under both intervals (0 to x) and (x to inf). In that case, both variant definitions are listed.
gamma = Euler's

constant = 0.5772156649...

$[Gamma]$ (x) = $[integral]$ (0 to inf) t^x-1 e^-t dt (Gamma function)

B(x,y) = $[integral]$ (0 to 1) t^x-1 (1-t)^y-1dt (Beta function)

Ei(x) = $[integral]$ (x to inf) e^-t/t dt (exponential integral) or it's variant, NONEQUIVALENT form:

Ei(x) = + ln(x) + $[integral]$ (e^{^t} - 1)/t dt = gamma + ln(x) + (n=1..inf)x^{^n}/(n*n!)

li(x) = $[integral]$ (2 to x)

1/ln(t) dt (logarithmic integral)
Si(x) = $[integral]$ (x to inf)

sin(t)/t dt (sine integral) or it's variant, NONEQUIVALENT form:

Si(x) = $[integral]$ sin(t)/t dt = PI/2 - $[integral]$ sin(t)/t dt

Ci(x) = $[integral]$ (x to inf)

cos(t)/t dt (cosine integral) or it's variant, NONEQUIVALENT form:

Ci(x) = - $[integral]$ cos(t)/t dt = gamma + ln(x) + $[integral]$ (cos(t) - 1) / t dt (cosine integral)

Chi(x) = gamma + ln(x) + $[integral]$ (0 to x)

(cosh(t)-1)/t dt (hyperbolic cosine integral)
Shi(x) = $[integral]$ (0 to x)

sinh(t)/t dt (hyperbolic sine integral)

$Erf(x) = 2 \pi{2} \int_0^x exp(-t^2) \, dt$ $= 2 \pi{2} \sum_0^\infty (-1)^n x2n+1 n!-1 (2n+1)-1$ (error function)

$FresnelC(x) = \int_0^x \cos(\frac{1}{2}\pi t^2) \, dt$

$FresnelS(x) = \int_0^x \sin(\frac{1}{2}\pi t^2) \, dt$

dilog(x) = $[integral]$ (1 to x) ln(t) (1-t)^-1 dt

$Psi(x) = \frac{d}{dx} ln(\Gamma(x))$

Psi(n,x) = n^th derivative of Psi(x)

W(x) = inverse of x e^x

$L_n(x) = \frac{1}{n!} e^x (x^n e-x)(n)$ (laguerre polynomial degree n. (n) meaning n^th derivative)

$Zeta(s) = \sumn=1\infty n-s$

Dirichlet's beta function $B(x) = \sumn=0^\infty (-1)^n (2n+1)-x$

Theorems with hyperlinks have proofs, related theorems, discussions, and/or other info.

Math2.org Math Tables: Special Functions