Table of Newtonian series

In mathematics, a Newtonian series, named after Isaac Newton, is a sum over a sequence written in the form

where

is the binomial coefficient and is the falling factorial. Newtonian series often appear in relations of the form seen in umbral calculus.

List

edit

The generalized binomial theorem gives

 

A proof for this identity can be obtained by showing that it satisfies the differential equation

 

The digamma function:

 

The Stirling numbers of the second kind are given by the finite sum

 

This formula is a special case of the kth forward difference of the monomial xn evaluated at x = 0:

 

A related identity forms the basis of the Nörlund–Rice integral:

 

where   is the Gamma function and   is the Beta function.

The trigonometric functions have umbral identities:

 

and

 

The umbral nature of these identities is a bit more clear by writing them in terms of the falling factorial  . The first few terms of the sin series are

 

which can be recognized as resembling the Taylor series for sin x, with (s)n standing in the place of xn.

In analytic number theory it is of interest to sum

 

where B are the Bernoulli numbers. Employing the generating function its Borel sum can be evaluated as

 

The general relation gives the Newton series

 [citation needed]

where   is the Hurwitz zeta function and   the Bernoulli polynomial. The series does not converge, the identity holds formally.

Another identity is   which converges for  . This follows from the general form of a Newton series for equidistant nodes (when it exists, i.e. is convergent)

 

See also

edit

References

edit