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Line 20: for integer ''k'' ≥ 1, and is sometimes called '''Gauss's multiplication formula''', in honour of [[Carl Friedrich Gauss]]. The multiplication theorem for the gamma functions can be understood to be a special case, for the [[trivial character]], of the [[Chowla–Selberg formula]]. ~~This~~By sending <math>k\to\infty</math> and using Riemann sums, this implies a variation of [[Stirling's approximation]] that is exact --- a '''Stirling identity''' --- :<math> \exp\left(\int_z^{z+1}\log\Gamma(x)\,dx\right) = \sqrt{2\pi} z^ze^{-z}.

Multiplication theorem: Difference between revisions