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Abstract
We discuss a class of trigonometric functions whose corresponding Fourier series, on a conveniently choosen interval, can be used to calculate several numerical series. Particular cases are presented and two recent results involving numerical series are recovered.
1Dedicated to Prof. J.F.C.A. Meyer on his 60th birthday.
Acknowledgements
We are grateful to the anonymous referee, who made several important remarks on Fourier series. E.C.O is also grateful to Fapesp (06/52475-8) for a research grant and to Prof. J. Vaz Jr and Dr J. Emílio Maiorino for many useful discussions.
Notes
1Dedicated to Prof. J.F.C.A. Meyer on his 60th birthday.
Note
1. Suppose the trigonometric series to be convergent. The necessary and sufficient condition for this series to be a Fourier series is that
or, in this case,
be a convergent series. A trigonometric series as the one above is a Fourier series if it is term-by-term integrable. In this case, in particular, it converges uniformly on the interval
to a function f (x). We may then multiply it scalarly by
and we obtain
, which are the so-called Fourier coefficients of f (x).