Difference between revisions of "Beta"

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=References=
 
=References=
* {{BookReference|Higher Transcendental Functions Volume I|1953|Harry Bateman|prev=findme|next=Beta as improper integral}}: $\S 1.5 (1)$
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* {{BookReference|Higher Transcendental Functions Volume I|1953|Arthur Erdélyi|author2=Wilhelm Magnus|author3=Fritz Oberhettinger|author4=Francesco G. Tricomi|prev=findme|next=Beta as improper integral}}: $\S 1.5 (1)$
 
* {{BookReference|Special Functions of Mathematical Physics and Chemistry|1956|Ian N. Sneddon|prev=Gamma|next=findme}}: $\S 5 (5.2)$
 
* {{BookReference|Special Functions of Mathematical Physics and Chemistry|1956|Ian N. Sneddon|prev=Gamma|next=findme}}: $\S 5 (5.2)$
 
* {{BookReference|Handbook of mathematical functions|1964|Milton Abramowitz|author2=Irene A. Stegun|prev=findme|next=Beta in terms of power of t over power of (1+t)}}: $6.2.1$
 
* {{BookReference|Handbook of mathematical functions|1964|Milton Abramowitz|author2=Irene A. Stegun|prev=findme|next=Beta in terms of power of t over power of (1+t)}}: $6.2.1$
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* {{BookReference|Special Functions for Scientists and Engineers|1968|W.W. Bell|prev=Gamma|next=Gamma(1)=1}}: $(2.2)$
  
 
[[Category:SpecialFunction]]
 
[[Category:SpecialFunction]]

Latest revision as of 19:49, 15 March 2018

The beta function $B$ (note: $B$ is capital $\beta$ in Greek) is defined by the following formula for $\mathrm{Re}(x)>0$ and $\mathrm{Re}(y)>0$: $$B(x,y)=\displaystyle\int_0^1 t^{x-1}(1-t)^{y-1} \mathrm{d}t.$$

Properties

Partial derivative of beta function
Beta in terms of gamma
Beta in terms of sine and cosine
Beta as improper integral
Beta is symmetric
B(x,y)=integral (t^(x-1)+t^(y-1))(1+t)^(-x-y) dt
B(x,y+1)=(y/x)B(x+1,y)
B(x,y+1)=(y/(x+y))B(x,y)
B(x,y)B(x+y,z)=B(y,z)B(y+z,x)
B(x,y)B(x+y,z)=B(z,x)B(x+z,y)
B(x,y)B(x+y,z)B(x+y+z,u)=Gamma(x)Gamma(y)Gamma(z)Gamma(u)/Gamma(x+y+z+u)
1/B(n,m)=m((n+m-1) choose (n-1))
1/B(n,m)=n((n+m-1) choose (m-1))
B(x,y)=2^(1-x-y)integral (1+t)^(x-1)(1-t)^(y-1)+(1+t)^(y-1)(1-t)^(x-1) dt
Integral t^(x-1)(1-t)^(y-1)(1+bt)^(-x-y)dt = (1+b)^(-x)B(x,y)
Integral t^(x-1)(1+bt)^(-x-y) dt = b^(-x) B(x,y)
Integral (t-b)^(x-1)(a-t)^(y-1)dt=(a-b)^(x+y-1)B(x,y)
Integral of (t-b)^(x-1)(a-t)^(y-1)/(t-x)^(x+y) dt=(a-b)^(x+y-1)/((a-c)^x(b-c)^y) B(x,y)
Integral of (t-b)^(x-1)(a-t)^(y-1)/(c-t)^(x+y) dt = (a-b)^(x+y-1)/((c-a)^x (c-b)^y) B(x,y)
Integral of (1+bt^z)^(-y)t^x dt = (1/z)*b^(-(x+1)/z) B((x+1)/z,y-(x+1)/z)
Integral of t^(x-1)(1-t^z)^(y-1) dt=(1/z)B(x/z,y)
Integral of (1+t)^(2x-1)(1-t)^(2y-1)(1+t^2)^(-x-y)dt=2^(x+y-2)B(x,y)

Videos

Beta integral function - basic identity (5 December 2011)
Beta Function - Gamma Function Relation Part 1 (5 December 2011)
Beta Function - Gamma Function Relation Part 2 (5 December 2011)
Beta function - Part 1 (14 February 2012)
Mod-04 Lec-09 Analytic continuation and the gamma function (Part I) (3 June 2014)
Gamma function - Part 10 - Beta function (31 July 2012)
Beta function (19 September 2012)
Gamma Function, Transformation of Gamma Function, Beta Function, Transformation of Beta Function (30 October 2012)
Beta Integral: Even Powers Of Sine Function (26 December 2012)

References