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Questions tagged [fourier-series]

A Fourier series is a decomposition of a periodic function as a linear combination of sines and cosines, or complex exponentials.

If $f$ is a periodic function with period $2\pi$, a Fourier series for $f$ is an expansion of the form $$ f(x) = \frac{a_0} 2 + \sum_{n = 1}^\infty a_n \cos nx + \sum_{n = 1}^\infty b_n \sin nx .$$

This decomposition is useful for solving partial differential equations, and it has important applications in the study of waves.

If $f$ is continuously differentiable, a theorem of Dirichlet states that a Fourier expansion exists where the infinite sums converge uniformly to $f$. Under the weaker assumption that $f \in L^2[0,2\pi]$, there exists a Fourier expansion where the infinite sums converge to $f$ in the $L^2$ sense.

The sines and cosines appearing in the Fourier expansion form an orthogonal basis for $L^2[0,2\pi]$. Therefore, a simple way of evaluating the $a_n$ and $b_n$ coefficients is by orthogonal projection, $$ a_n = \frac 1 \pi \int_0^{2\pi} f(x) \cos nx\ \mathrm dx, \ \ \ \ \ \ \ \ \ b_n = \frac 1 \pi \int_0^{2\pi} f(x) \sin nx\ \mathrm dx.$$

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Proving that any well behaved function f(x) can be presented as Gauss-Hermite series.

I've successfully shown that Legendre polynomials are an orthonormal basis for functions. However, I'm wondering how to proof that all functions f(x) can be written in the form (Gauss-Hermite series): where $a$ are constants are $e$ are the…
The First StyleBender
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Differentiation of Fourier Series

The Series: $$\frac{\pi}{2}-\frac{4}{\pi}\sum_{n=1}^{\infty}\frac{\cos(2n-1)x}{(2n-1)^2}$$ is the Fourier cosine series for the function $f(x)=x$ on the interval $0
Vui Tinh
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Fourier Series. Relevance of the period of sine and cosine

What is the difference (if any) between using: $\cos \left( \frac{n\pi x}{L} \right)$ and $ \sin \left( \frac{n\pi x}{L} \right)$ or using: $\cos \left( \frac{2n\pi x}{L} \right)$ and $ \sin \left( \frac{2n\pi x}{L} \right)$ In a fourier series? My…
Daniel Duque
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Why does the scalar product defined as $(u,v)=\frac{1}{2\pi}\int_{0}^{2\pi} u(x)\overline{v(x)} dx$ work?

For two Riemann integrable, $2\pi$-periodic functions $u$ and $v$, we define $$(u,v)=\frac{1}{2\pi}\int_{0}^{2\pi} u(x)\overline{v(x)} dx$$ where the complex number $(u,v)$ is called the scalar product of the functions $u$ and $v$. Is is not at all…
Eiraus
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How can each and every periodic signal be represented as Fourier Series

So this seems to me quite surprising of when I see discontinuous although some continuous functions. As of how to represent them in Fourier Series. Can someone provide answers suggesting the examples
Keyur
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Using complex fourier series when calculating maximum square error.

when calculating the maximum square error I have this formula $$E^* = \int_{-\pi}^{\pi}f^2 dx - \pi \left[ 2a_0^2 + \sum_{n = 1}^N (a_n^2 + b_n^2) \right ]$$ But I was wondering, if I have a complex fourier series, can I just exchange $a_n$ & $b_n$…
Viktor
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Fourier Series of $1/(e^{2 + \cos(x)} - 1)$

Let $f$ be a function of a real variable such that $$f(x) = \frac{1}{e^{2 + \cos(x)} - 1}.$$ Find the (trigonometric) Fourier series of the function $f$ and check if it converges to that function in $R$. (I have tried a lot of stuff, from trying to…
Mertin Dougal
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Find the Fourier coefficients and Fourier series of the following function

Find the Fourier coefficients and Fourier series of the following function $$f(x)=\frac{\pi e^{-x}}{e^{\pi}-e^{-\pi}};\quad -\pi\le x\le\pi$$ Here is my work: Since $L=\pi$ we obtain…
user155971
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Question about Fourier series

A friend of mine told me that for fourier series If the function is odd or even and have its reflection on x-achse after half the period (u(t+T/2)=-u(t)) then one of the coefficient is zero (no problem with this) and the other one is the…
doumham
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Fourier Series of $f(x)$ involving $\cos$ and $\sin$ components

How do I find the real Fourier series of $f(x)=\cos(\frac{x}{2})+ 0.1\sin(5x)$, where the function is periodic defined between $-\pi$ and $\pi$?
P Loughneys
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$f \in L^2[-\pi,\pi]$ implies squares of Fourier coefficients are summable?

Suppose $f \in L^2[-\pi,\pi]$. I want to show that $\sum_{-\infty}^{\infty} a_n^2 < \infty$ where $a_n$ is the $n$-th Fourier coefficient of $f$. I saw Rudin's real and compleax book. I was unable to make out the proof. Any concrete solution will be…
TRUSKI
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Problems regarding Fourier series

Given that $f(x) = x^2$, I got that the Fourier series is $$ x^2 = \dfrac{\pi^2}{3} + \sum\limits_{n=1}^{\infty} (-1)^n \cdot 4 \cdot \dfrac{\cos(nx)}{n^2} $$ for $x \in [-\pi, \pi]$. From the above series, how can I find $\sum\limits_{n=1}^{\infty}…
user466721
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Simple Fourier Series

$$f(x)=\begin{cases}\tfrac{1}{2a},& 0<|x|
Alex
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Does the Fourier series converge pointwise?

My question is very simple. Suppose we have $S_n(x)$ the Fourier series of a function $F(x)$ from $\mathbb{R}\to \mathbb{R}$ and with period $T$. Does the series converge to $F(x)$ pointwise? Is the convergence uniform?
Hptunjy Prjkeizg
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How do I find the fourier series for the function f(t) = sin t?

How do I find a fourier series for the function of period $2\pi$ satisfying $$f(t)= \begin{cases}\sin t &0 \le t<\pi\\0 &\pi\le t<2\pi\end{cases} $$ Do I find $b_n$ as usual (because it's an odd function) and then give the Dirichlet conditions? I'm…
Ellise
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