Beta Function

A separate article treats the beta-function (written with a hyphen) of physics.

$\backslash mathrm\{\backslash Beta\}(x,y)\; =\; \backslash int\_0^1t^\{x-1\}(1-t)^\{y-1\}\backslash ,dt$

$\backslash mathrm\{\backslash Beta\}(x,y)\; =\; \backslash mathrm\{\backslash Beta\}(y,x).$

  \mathrm{\Beta}(x,y)=\frac{\Gamma(x)\,\Gamma(y)}{\Gamma(x+y)} 

  \mathrm{\Beta}(x,y) =   2\int_0^{\pi/2}\sin^{2x-1}\theta\cos^{2y-1}\theta\,d\theta,   \qquad \Re(x)>0,\ \Re(y)>0   

  \mathrm{\Beta}(x,y) =   \int_0^\infty\frac{t^{x-1}}{(1+t)^{x+y}}\,dt,   \qquad \Re(x)>0,\ \Re(y)>0   

  \mathrm{\Beta}(x,y) =   \frac{1}{y}\sum_{n=0}^\infty(-1)^n\frac{(y)_{n+1}}{n!(x+n)}   

See also

• binomial coefficient
• Euler integral
• falling factorial
• gamma function
• incomplete beta function

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