## The Ratio and Root Tests

Now I want to bring out with two tests that will tell us about absolute convergence or (unconditional) divergence of an infinite series . As such they’ll tell us nothing about conditionally convergent series.

First is the ratio test. We take the ratio of one term in the series to the previous one and define the limits superior and inferior

Now if then the series converges absolutely. If then the series diverges. But if the test fails and we get no result.

In the first case, pick to be a number so that . Then there is some so that is an upper bound for the sequence of ratios past . For large enough , this means

and so

Now if we set , this tells us that . Then the comparison test with the geometric series tells us that converges.

On the other hand, if then eventually , so the terms of the series are getting bigger and bigger and bigger. But this would throw a monkey wrench into Cauchy’s condition for convergence of the series.

As for the root test, we will consider the sequence and define

If then the series converges absolutely. If then the series diverges. And if the test is inconclusive.

In the first case, as we did for the ratio test, pick so that . Then above some we have and the comparison test works straight away. On the other hand, if then infinitely often, and Cauchy’s criterion falls apart again.

[...] ratio and root tests are basically proven by comparing series of norms with geometric series. Since once we take the [...]

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this is an good websit because it can heilp students who dont konw how to do ratios

Comment by lilroy | December 11, 2008 |