Proving p-adic Convergence: Find Series' Limit

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The discussion centers on proving the convergence of the series ∑_{n=0}^{∞} p^n in the p-adic metric by analyzing the sequence of partial sums, s_m. It is established that the difference between consecutive partial sums, |s_{n+1} - s_n|_p, equals |p^{n+1}|_p, which approaches 0 as n increases. Consequently, the sequence of partial sums converges, indicating that the series converges to 0. Additionally, the sequence is identified as Cauchy since the limit of |p^{n+1}|_p also approaches 0. The conversation includes a query about the correctness of the solution and reflects on the forum's expectation for users to attempt problems independently before seeking assistance.
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Prove that the series \sum_{n=0}^{\infty} p^n converges in the p-adic metric by showing that the sequence of partial sums converge. What does the series converge to?
 
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Solution

Let s_m = \sum_{n=0}^m p^n be the sequence of partial sums. Then

|s_{n+1} - s_n|_p = |p^{n+1}|_p

Now

|p^{n+1}|_p = \frac{1}{p^{n+1}} \rightarrow 0 as m,n \rightarrow \infty independently in \mathbb{R}_p.

Hence the sequence of partial sums s_m converges and the series converges to 0.
 
Does this solution look correct to anyone?

Also, I think that the sequence is Cauchy since

\lim_{n\rightarrow \infty}^p |p^{n+1}|_p = 0
 
why do'nt you just work out the partial sums? it is a geometric series.
 
This is the third post in which you've immediately answered your own question. What is your purpose in posting them?
 
Hey Halls,

I have no idea that my solutions are correct! If they are...that's great!

The sticky on this forums says not to expect any help unless you have a go at the problem first yourself...so I do. If there is nothing wrong with them, please by all means, tell me so I know.
 
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