EDB โ€” 21C

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Theorem 20

[21C] Assume that \(a_ n\neq 0\). Let \(๐›ผ=\limsup _{nโ†’โˆž}\frac{|a_{n+1}|}{|a_{n}|}\) then

  • if \(๐›ผ{\lt}1\) the series \(โˆ‘_{n=1}^โˆž a_ n\) converges absolutely;

  • if \(๐›ผโ‰ฅ 1\) nothing can be concluded.

Proof โ–ผ
  • If \(๐›ผ{\lt}1\), taken \(Lโˆˆ(๐›ผ,1)\) you have eventually \(\frac{|a_{n+1}|}{|a_{n}|}{\lt}L\) so there is a \(N\) for which \(\frac{|a_{n+1}|}{|a_{n}|}{\lt}L\) for each \(nโ‰ฅ N\), by induction it is shown that \(|a_ n|โ‰ค L^{n-N} |a_ N|\) and ends by comparison with the geometric series.

  • Letโ€™s see some examples. For the two series \(1/n\) and \(1/n^ 2\) you have \(๐›ผ=1\).

    Defining

    \begin{equation} a_ n= \begin{cases} 2^{-n} & n~ \text{even}\\ 2^{2-n} & n~ \text{odd}\\ \end{cases} \label{eq:f3422p3sa} \end{equation}
    21

    we obtain a convergent series but for which \(๐›ผ=2\).

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