涉及二项式系数、第二类伯努利数和调和数的和

IF 0.4 Q4 MATHEMATICS Notes on Number Theory and Discrete Mathematics Pub Date : 2023-02-27 DOI:10.7546/nntdm.2023.29.1.78-97

Necdet Batır, A. Sofo

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引用次数: 0

摘要

我们提供了许多不同的有限和无穷和恒等式，包括二项式系数、第二类伯努利数和调和数。例如，在许多其他例子中，我们证明了\[\displaystyle\sum_｛k=0｝^｛n｝\frac｛（-1）^{k}h_{k} ｛4^｛k｝｝｛2k｝\schoose｛k}｝G_ a（3），\]其中h_k=h_{2k}-\dfrac｛1｝{2}H_{k} ，G_k是第二类伯努利数，ζ是黎曼ζ函数。我们还给出了Blagouchine和Coppo给出的常数\log（2\pi）和\gamma的级数表示的另一个证明。

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Sums involving the binomial coefficients, Bernoulli numbers of the second kind and harmonic numbers

We offer a number of various finite and infinite sum identities involving the binomial coefficients, Bernoulli numbers of the second kind and harmonic numbers. For example, among many others, we prove \[\displaystyle \sum_{k=0}^{n}\frac{(-1)^{k}h_{k}}{4^{k}} {{2k} \choose {k}}G_{n-k}=\frac{(-1)^{n-1}}{2^{2n-1}}{{2n-2} \choose {n-1}}\] and \[\displaystyle \sum_{k=1}^{\infty}\frac{h_{k}}{k^{2}(2k-1)4^{k}} {{2k} \choose {k}}=2\pi +3\zeta(2)\log 2-3\zeta(2)-\frac{7}{2}\zeta(3),\] where h_k=H_{2k}-\dfrac{1}{2}H_{k}, G_k are Bernoulli numbers of the second kind, and \zeta is the Riemann zeta function. We also give an alternate proof of the series representations for the constants \log (2 \pi) and \gamma given by Blagouchine and Coppo.

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Notes on Number Theory and Discrete Mathematics MATHEMATICS-

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33.30%

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