Highest Voted 'parsevals-identity' Questions

7

votes

1 answer

Sum of $\dfrac{1}{n^2+1}$ using Parseval's theorem

I know this question has been widely answered here, but without using Fourier analysis. Also there is a video referring to this trick but I want to use a different Fourier series. First of Parseval's Theorem states:…

sequences-and-series fourier-analysis parsevals-identity

asked Jul 25 '21 at 19:48

Leon

1,137

7

votes

1 answer

Compute $\sum_{n=1}^\infty{\frac{1}{n^8}}$ using Parseval's Theorem

I need to show that $$\sum_{n=1}^\infty{\frac{1}{n^8}} = \frac{\pi^8}{9450}$$ I have already shown that $$\sum_{n=1}^\infty{\frac{1}{n^4}} = \frac{\pi^4}{90}$$ by computing the Fourier series for the function $f(x)=x^2$ on the interval $(0,l)$ and…

fourier-analysis parsevals-identity

asked Sep 13 '18 at 16:45

mathqueen459

1,223

6

votes

2 answers

show this nice trigonometric identiy

I was working on a book, which was asking me to prove that some product is equal to nn. I had reduced the problem to proving a trigonometric identity, but I couldn't prove it although I spent much time on it. Then, I checked the solution, and it…

trigonometry parsevals-identity

asked Sep 11 '19 at 07:35

math110

94,932
17
148
519

4

votes

1 answer

Using Parseval's to Evaluate an Integral

I have done some exercises on the Parseval's identity and I think it's quite straight forward. However, I came across this exercise and it made me confused. I'll explain: The function is $f(x) = \pi x - x^2$ on the interval [0, ]. I shall find the…

fourier-series parsevals-identity

asked Nov 23 '23 at 15:44

Zeeko

117

4

votes

1 answer

Parseval-Plancherel type identity for probability generating function

Assume that $f,g \in L^2(\mathbb R)$ and define the Fourier transform of $f$ by $$\hat{f}(\xi) = \int_{\mathbb R} \mathrm{e}^{-i\,x\,\xi}\, f(x)\,\mathrm{d}\xi, \quad \xi \in \mathbb R.$$ The well-known Parseval-Plancherel identity links the…

probability generating-functions moment-generating-functions parsevals-identity

asked Jul 30 '23 at 15:45

Fei Cao

2,988

4

votes

5 answers

How to prove this identity nicely?

Show that$$\sum_{1\le i

algebra-precalculus parsevals-identity

asked Mar 20 '19 at 14:18

math110

94,932
17
148
519

4

votes

1 answer

Evaluating $\int_{\mathbb{R}}\left( \frac{\sin x}{x}\right )^3$ with Parseval's identity

If this were an even power it would be clear enough how to approach this, although I wouldn't be crazy about computing the Fourier transform. For reference: I was able to solve $$ \int_{\mathbb{R}}\left( \frac{\sin x}{x}\right )^2 $$ using that…

calculus integration fourier-analysis fourier-transform parsevals-identity

asked May 06 '17 at 23:06

operatorerror

29,881

3

votes

2 answers

Use parseval's identity to prove $\int_0^\infty {\sin^4t \over t^2} dt = {\pi \over 4}$

I know how to calculate $$\int_0^\infty {\sin^4t \over t^4} dt$$ by taking the function $f(x)=1-|x|$ and it will be $\pi \over 3$. But here the denominator is not raised to power $4$ but $2$. How should I approach it?

fourier-series fourier-transform parsevals-identity

asked Aug 06 '22 at 19:54

Anshul Bishnoi

33
5

3

votes

0 answers

Parseval's Identity Application

In this video, it is stated that Parseval's Identity "is how we go from discrete to continuous." However, I have not been able to find any material that expands on this use of Parseval's Identity. I have discovered that it is the inner product…

recurrence-relations fourier-series fourier-transform discrete-time parsevals-identity

asked Feb 28 '22 at 20:42

user10478

2,118

3

votes

3 answers

Show that $\int_{-\infty}^{\infty} \frac{\sin(2\pi(x-a))}{\pi(x-a)}\frac{\sin(2\pi(x-b))}{\pi(x-b)}dx = \frac{\sin2\pi(a-b)}{\pi(a-b)}$

I want to show that for any $a,b \in \mathbb{R}$ we get $\int_{-\infty}^{\infty} \frac{\sin(2\pi(x-a))}{\pi(x-a)}\frac{\sin(2\pi(x-b))}{\pi(x-b)}dx = \frac{\sin2\pi(a-b)}{\pi(a-b)}$. A hint for this exercise is to use Parseval's identity. Attempt:…

integration fourier-analysis fourier-transform parsevals-identity

asked Jan 20 '22 at 21:03

TOMILO87

540

3

votes

1 answer

Compute $\int_{-\infty}^{\infty} t \tan^{-1}(t) \exp (-t^2)\,dt$

I would like to obtain $$ \int_{-\infty}^{\infty} t \tan^{-1}(t) \exp (-t^2)\,dt $$ My idea is to use Fourier transform and go with generalized Parseval. I choose $x_{1}(t)=\tan^{-1}(t)$ and $x_{2}^{*}(t)=t \exp(-t^2)$. I don't know how to proceed…

calculus integration fourier-analysis fourier-transform parsevals-identity

asked Jan 29 '21 at 13:04

why_me

435
2
7

3

votes

1 answer

How to show $ \sum_{n=1}^{\infty}\left(\frac{\sin (n b)}{n}\right)^{2}=\frac{b \pi-b^{2}}{2} $ - Parseval's identity?

I have trouble solving a). How do I approach this problem? Let $-\pi\leq a

fourier-analysis fourier-series parsevals-identity

asked Aug 09 '20 at 21:48

mhj

177

3

votes

1 answer

$L^2$ convergence of Fourier series

Let $R_n(x)=f(x)-S_n(x)$ where $S_n(x)$ is the partial sum of Fourier series of $f(x)$ function. $\lim_{n \to \infty} $ $=0$ $\iff$ $\sum_{n=1}^{\infty}c_i^2 = \int_{-\pi}^{\pi}(f(x))^2dx$ (Parseval identity where $c_i$ s are…

functional-analysis fourier-analysis fourier-series inner-products parsevals-identity

asked Oct 29 '18 at 22:19

user519955

1,335

3

votes

2 answers

Confusion on Parseval's Theorem

Parseval's Theorem says that: $$\int_{-\infty}^{\infty}g(t)f(t)^\ast dt = \frac{1}{2\pi} \int_{-\infty}^{\infty}G(\omega)F(\omega)^\ast d\omega$$ Although I know how to prove it, it's difficult to imagine how the two integrals can be equal. If we…

fourier-analysis fourier-transform parsevals-identity

asked May 04 '17 at 13:42

Weigh

95
6

3

votes

2 answers

Parseval's theorem/Identity - Definition seems wrong

My book shows with some steps that $$\int_{-L}^L {f(x)}^2dx=\int_{-L}^L\left\{\frac{1}{2}a_0+\sum_{n=1}^\infty\left[a_n\cos{\left(\frac{n\pi x}{L}\right)}+b_n\sin{\left(\frac{n\pi…

integration fourier-analysis fourier-series parsevals-identity

asked Apr 19 '17 at 14:47

Euler_Salter

5,547

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Questions tagged [parsevals-identity]