Sequences, Series, and Special Functions 631This function is a generalization of the usual factorial n! since(1 )n = 1 · 2 · 3 · · · n = n!
(a )n is also called a 8hifted factorial, and it is sometimes denoted by the
Appell symbol (a,n).
Theorem 8.50 The factorial function has the following properties:- (a)-n = (-l)n /(1 - a)n
- (a)m+n = (a)m(a + m)n
- (a)n = r(a + n)/I'(a), Rea=/:-0, -1, -2, ... ; n ~ 1
- (ahn = 22 n(J)n(~)n
- (a+ b)n = L;k=O (~)(a)k(b)n-k (Vandermonde's theorem)
Proofs Properties 1 and 2 follow easily from (8.21-1). Property 2 is also
valid when m or n, or both, are negative integers.
(3) From r(a + n) =(a+ n - 1) ... (a+ l)ar(a) = (a)nI'(a) it follows
that (a)n = r(a + n)/I'(a).
(4) We have
(a)2n = a(a + l)(a + 2) .. ·(a+ 2n -1)
= a(a + 2) ···(a+ 2n - 2) ·(a+ l)(a + 3) ···(a+ 2n -1)
= 2n ( ~) ( ~ + 1) ... ( ~ + n _ 1). 2n ( a ; l ) ( a ; l + 1) ...
. (a;l +n-1)
= 22n ( ~) ( ::.±_!_).
2 n 2 n
(5) We have
(a+ b)i =a+ b = (a) 1 + (b)iand assuming that the formula holds for n = m, we get
(a+b)m+i = (a+b)m(a+b+m)
m'
=(a+ m - k + b + k) ~ (7)(a)m-k(b)k= f (7) (a)m-k(a + m - k)(b)k + f (7)(a)m-k(b)k(b + k)
k=O. k=O= f (7)(a)m-k+i(b)k + t (7)(a)m-k(b)k+i
k=O k=O