Fourier analysis

Trigonometric series {Fourier series} {Fourier integral} can represent function over interval: (1 / pi) * (integral from -a = infinity to a = +infinity of F(a) * da) * (integral from a = 0 to a = infinity of cos(q * (x - a)) * da). Complex waveforms over time or position can be finite or infinite series of harmonic sine and cosine waves {Fourier analysis}|: f(x) = (2 * pi)^-0.5 * (integral from -infinity to +infinity of g(p) * e^(i*x*p) * dp), where g(p) is density {Fourier transform, series}. Complex function can have g(p) = 0 for p >= 0 {positive frequency function}.

convergence

If Fourier series is single-valued, has a bound, is piecewise continuous, and has finite numbers of discontinuities, maxima, and minima {Dirichlet condition}, it converges.

domain

Domain can be circle whose circumference is period or wavelength.

range

Series can be on unit circle in complex plane.

theorem

Fourier-series coefficients can exist and have properties {Parseval's theorem}.

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Mathematical Sciences>Calculus>Series>Kinds>Trigonometric

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Date Modified: 2022.0224