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How do I evaluate $\displaystyle\lim_{k\to\infty} \prod_{i=1}^{k}(1-\alpha_i+\alpha_i^2)$?

Here, $\alpha_k\in (0,1)$ for every $k\in\mathbb{N}$ and $\displaystyle\lim_{k\to\infty}\alpha_k=0$.

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    The result will clearly depend in the sequence... (if you pick any sequence $(\beta_k)_{k\geq1}$ such that all its terms are in $(0,1]$ and such that the product $\prod_{k\geq1}\beta_k$ converges to $P$, there is a unique sequence $(\alpha_k)_{k\geq1}$ with $\alpha_k\in[0,1/2)$, $\beta_k=1-\alpha_l+\alpha_k^2$, $\lim\limits_{k\to\infty}\alpha_k=0$ and therefore $\prod_{k\geq1}(1-\alpha_l+\alpha_k^2)=P$.2012-02-06
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    Moreover, in order for the limit to be nonzero you need $\sum_{n=1}^\infty (\alpha_n - \alpha_n^2)$ to converge.2012-02-06
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    Thank you for all your interesting comments. Please help me to give a complete solution of this problem.2012-02-06
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    What Robert said is about all you can say without additional information on $a_i$.2012-02-06
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    Dear Robert. Thank you in advance for your comments. I want to know where we can find the fact you said.2012-03-17
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    Deat Robert. Can you give me a proof of your statement?2012-03-17

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The limit of the products $\prod\limits_{i\leqslant k}(1-\alpha_i+\alpha_i^2)$ when $k\to\infty$ is a nonnegative number in $[0,1)$, which is positive if and only if the sum of the series $\sum\limits_k\alpha_k$ is finite.

Edit: The WP page on infinite products might prove useful and, to begin with, the first section on convergence criteria.

Once this is ingested, one can come back to the question here. Consider $\beta_k=\alpha_k-\alpha_k^2$. For every $\alpha_k$ in $(0,\frac12)$, $\beta_k\leqslant\alpha_k\leqslant2\beta_k$. Since $\alpha_k\to0$ by hypothesis, this proves that the series $\sum\limits_k\alpha_k$ converges if and only if the series $\sum\limits_k\beta_k$ does.

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    How can we prove this fact?2012-03-17
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    I am confused: should I answer you here or [there](http://math.stackexchange.com/q/121348/6179)? *Cruel, terrible, insoutenable dilemne*...2012-03-17
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    Thank you in advance for your comments. I am waiting the reply from you. Could you give me some references related to your fact?2012-03-17
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    See Edit. (But to call any of this *my fact* is inappropriate.)2012-03-17