What is the radius of convergence for the series with $k$ as a positive integer?

Chris L T521 · Jun 10, 2013

Thanks again to those who participated in last week's POTW! Here's this week's problem!

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Problem: If $k$ is any positive integer, determine the radius of convergence for the series $\displaystyle\sum_{n=0}^{\infty}\frac{(n!)^k}{(kn)!}x^n$.

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Chris L T521 · Jun 17, 2013

This week's question was correctly answered by Sudharaka. You can find his solution below.

Let, $\displaystyle a_n=\frac{(n!)^k}{(kn )!}x^n$. By the Ratio test, the series converges if,

\[\lim_{n\rightarrow\infty}\left|\frac{a_{n+1}}{a_n}\right|<1\]

\[\Rightarrow |x|<\lim_{n\rightarrow\infty}\left|\frac{[k(n+1)]\times [k(n+1)-1]\times \cdots\times [kn+1]}{(n+1)^k}\right|=k^k\]

\[\therefore |x|<k^k\]

Hence the radius of convergence is, $k^k$.

What is the radius of convergence for the series with $k$ as a positive integer?

Related to What is the radius of convergence for the series with $k$ as a positive integer?

1. What is the definition of the radius of convergence for a series?

2. How is the radius of convergence affected by the value of $k$ in the series?

3. What is the significance of the radius of convergence in a series?

4. Can the radius of convergence be negative?

5. How can the radius of convergence be used to determine the convergence of a series?

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