Radius of convergence of power series

[Alcubierre]

Homework Statement

The coefficients of the power series \sum_{n=0}^{∞}a_{n}(x-2)^{n} satisfy a_{0} = 5 and a_{n} = (\frac{2n+1}{3n-1})a_{n-1} for all n ≥ 1. The radius of convergence of the series is:
(a) 0
(b) \frac{2}{3}
(c) \frac{3}{2}
(d) 2
(e) infinite

Homework Equations

The Attempt at a Solution

lim_{n\rightarrow ∞}|\frac{a_{n+1}(x-2)^{n}}{a_{n}(x-2)^{n}}|

|x-2|lim_{n\rightarrow ∞} |\frac{a_{n+1}}{a_{n}}|

To find the function inside the limit, I used the definition presented in the problem:

a_{n} = (\frac{2n+1}{3n-1})a_{n}

Added n + 1 and divided the a_{n} from the RHS which yields,

\frac{a_{n+1}}{a_{n}} = \frac{2n+3}{3n+2}

and substituted that into the limit, and took the limit:

\frac{2}{3}|x-2| < 1

2|x-2| < 3

2[-(x-2)] < 1\; and\; 2(x-2) < 2

And that gives the interval,

x > \frac{1}{2}\; and\; x < \frac{7}{2}

which means the radius is 2, but the correct answer is letter c, \frac{3}{2}.

What am I doing wrong? Was my approach in the right direction?
I solved this before and I used the rationale that the radius of convergence is the reciprocal of the limit of the interval, but my teacher said that wasn't correct and it was "one of those special cases that it works out that way."

 

[LCKurtz]

Homework Statement

The coefficients of the power series \sum_{n=0}^{∞}a_{n}(x-2)^{n} satisfy a_{0} for all n\geq 1.

They satisfy what?!

 

[Alcubierre]

My apologies.

It should say, it satisfies a_{0} = 5 and a_{n} = \frac{2n+1}{3n-1} for all n ≥ 1.

 

[LCKurtz]

Added n + 1 and divided the a_{n} from the RHS which yields,

\frac{a_{n+1}}{a_{n}} = \frac{2n+3}{3n+2}

and substituted that into the limit, and took the limit:

My apologies.

It should say, it satisfies a_{0} = 5 and a_{n} = \frac{2n+1}{3n-1} for all n ≥ 1.

That isn't what you used in your solution and it won't give the correct answer. I think you still have something typed wrong.

 

[Alcubierre]

The coefficients of the power series \sum_{n=0}^{∞}a_{n}(x-2)^{n} satisfy a_{0} = 5 and a_{n} = (\frac{2n+1}{3n-1})a_{n-1} for all n ≥ 1

Sigh, it's been a long day.

 

[LCKurtz]

The coefficients of the power series \sum_{n=0}^{∞}a_{n}(x-2)^{n} satisfy a_{0} = 5 and a_{n} = (\frac{2n+1}{3n-1})a_{n-1} for all n ≥ 1

Sigh, it's been a long day.

OK. Then your work is OK at $\frac 2 3 |x-2|<1$ or $|x-2|<\frac 3 2$. That says the distance from $x$ to $2$ is less than $\frac 3 2$. Since $x=2$ is the center of the expansion $r = \frac 3 2$.

 

[Alcubierre]

Oh wow I completely disregarded the fact that it's centered at x = 2! Thank you very much