binomial theorem

Other Definitions
binomial theorem (dict)

In mathematics, the binomial theorem is an important formula giving the expansion of powers of sums. Its simplest version reads

(x+y)^n=\sum_{k=0}^n{n \choose k}x^ky^{n-k}\quad\quad\quad(1)

whenever n is any non-negative integer and the numbers

{n \choose k}=\frac{n!}{k!(n-k)!}

are the binomial coefficients. This formula, and the triangular arrangement of the binomial coefficients, are often attributed to Blaise Pascal who described them in the 17th century. It was however known long before to Chinese mathematician Yang Hui. For example, here are the cases n = 2, n = 3 and n = 4:

(x + y)^2 = x^2 + 2xy + y^2\,

(x + y)^3 = x^3 + 3x^2y + 3xy^2 + y^3\,

(x + y)^4 = x^4 + 4x^3y + 6x^2y^2 + 4xy^3 + y^4.\,

Formula (1) is valid for all real or complex numbers x and y, and more generally for any elements x and y of a semiring as long as xy = yx.

Newton's generalized binomial theorem

Isaac Newton generalized the formula to other exponents by considering an infinite series:

{(x+y)^r=\sum_{k=0}^\infty {r \choose k} x^k y^{r-k}\quad\quad\quad(2)}

where r can be any complex number (in particular r can be any real number, not necessarily positive and not necessarily an integer), and the coefficients are given by

{r \choose k}={1 \over k!}\prod_{n=0}^{k-1}(r-n)=\frac{r(r-1)(r-2)\cdots(r-k+1)}{k!}

(which in case k = 0 is a product of no numbers at all and therefore equal to 1, and in case k = 1 is equal to r, as the additional factors (r − 1), etc., do not appear in that case). A particularly handy but non-obvious form holds for the reciprocal power:

\frac{1}{(1-x)^r}=\sum_{k=0}^\infty {r+k-1 \choose r-1} x^k.

For a more extensive account of Newton's generalized binomial theorem, see binomial series. The sum in (2) converges and the equality is true whenever the real or complex numbers x and y are "close together" in the sense that the absolute value | x/y | is less than one. The geometric series is a special case of (2) where we choose y = 1 and r = −1. Formula (2) is also valid for elements x and y of a Banach algebra as long as xy = yx, y is invertible and ||x/y|| < 1.

"Binomial type"

The binomial theorem can be stated by saying that the polynomial sequence

\left\{\,x^k:k=0,1,2,\dots\,\right\}\,

is of binomial type.

Binomial Theorem

Newton's generalized binomial theorem

"Binomial type"

See also