Concept

Abel's test

In mathematics, Abel's test (also known as Abel's criterion) is a method of testing for the convergence of an infinite series. The test is named after mathematician Niels Henrik Abel. There are two slightly different versions of Abel's test – one is used with series of real numbers, and the other is used with power series in complex analysis. Abel's uniform convergence test is a criterion for the uniform convergence of a series of functions dependent on parameters. Suppose the following statements are true: is a convergent series, {bn} is a monotone sequence, and {bn} is bounded. Then is also convergent. It is important to understand that this test is mainly pertinent and useful in the context of non absolutely convergent series . For absolutely convergent series, this theorem, albeit true, is almost self evident. This theorem can be proved directly using summation by parts. A closely related convergence test, also known as Abel's test, can often be used to establish the convergence of a power series on the boundary of its circle of convergence. Specifically, Abel's test states that if a sequence of positive real numbers is decreasing monotonically (or at least that for all n greater than some natural number m, we have ) with then the power series converges everywhere on the closed unit circle, except when z = 1. Abel's test cannot be applied when z = 1, so convergence at that single point must be investigated separately. Notice that Abel's test implies in particular that the radius of convergence is at least 1. It can also be applied to a power series with radius of convergence R ≠ 1 by a simple change of variables ζ = z/R. Notice that Abel's test is a generalization of the Leibniz Criterion by taking z = −1. Proof of Abel's test: Suppose that z is a point on the unit circle, z ≠ 1. For each , we define By multiplying this function by (1 − z), we obtain The first summand is constant, the second converges uniformly to zero (since by assumption the sequence converges to zero). It only remains to show that the series converges.

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