Evaluation of definite integrals with exponential integrand in Fourier sine transform [on hold]Real-Analysis Methods to Evaluate $int_0^infty fracx^a1+x^2,dx$, $|a|<1$.How much makes $sumlimits_i=-infty^infty frac1i2pi+x$?Fourier transform of the form subtraction of two exponential functions by addition of two exponential functionsFourier Transform Motivation/DerivationBasic Fourier TransformFourier transform with trigonometric and exponential functionsFourier Transform evaluation problemSine Fourier TransformFourier transform of an exponential functionDerivation of a Fourier Sine TransformFourier transform of $e^-tcos(t)$Using the Fourier Sine/Cosine Transform to evaluate an integralIntegral equation with Fourier sine-cosine transform
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Evaluation of definite integrals with exponential integrand in Fourier sine transform [on hold]
Real-Analysis Methods to Evaluate $int_0^infty fracx^a1+x^2,dx$, $|a|<1$.How much makes $sumlimits_i=-infty^infty frac1i2pi+x$?Fourier transform of the form subtraction of two exponential functions by addition of two exponential functionsFourier Transform Motivation/DerivationBasic Fourier TransformFourier transform with trigonometric and exponential functionsFourier Transform evaluation problemSine Fourier TransformFourier transform of an exponential functionDerivation of a Fourier Sine TransformFourier transform of $e^-tcos(t)$Using the Fourier Sine/Cosine Transform to evaluate an integralIntegral equation with Fourier sine-cosine transform
$begingroup$
I was going through a question on finding the Fourier sine transform of:
$$frace^ax+e^-axe^pi x-e^-pi x$$
So I got stuck with this integral:
$$int_0^infty frace^(a+ip)x-e^-(a+ip)xdxe^pi x-e^-pi x$$
$$= frac12 tan fraca+ip2$$
The second one which i guess must be quite similar to the former that I encountered in another similar question is:
$$int_0^infty frace^(a+ip)x+e^-(a+ip)xdxe^pi x-e^-pi x$$
$$= frac12 sec fraca+ip2$$
I am not able to understand how to proceed with these two. Any help would be appreciated.
definite-integrals exponential-function improper-integrals problem-solving fourier-transform
asked Mar 28 at 15:46
Shatabdi SinhaShatabdi Sinha
19113
$endgroup$
put on hold as off-topic by GNUSupporter 8964民主女神 地下教會, Adrian Keister, Thomas Shelby, Eevee Trainer, Cesareo Mar 29 at 5:31
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please provide additional context, which ideally explains why the question is relevant to you and our community. Some forms of context include: background and motivation, relevant definitions, source, possible strategies, your current progress, why the question is interesting or important, etc." – GNUSupporter 8964民主女神 地下教會, Thomas Shelby, Eevee Trainer, Cesareo
add a comment |
$begingroup$
I was going through a question on finding the Fourier sine transform of:
$$frace^ax+e^-axe^pi x-e^-pi x$$
So I got stuck with this integral:
$$int_0^infty frace^(a+ip)x-e^-(a+ip)xdxe^pi x-e^-pi x$$
$$= frac12 tan fraca+ip2$$
The second one which i guess must be quite similar to the former that I encountered in another similar question is:
$$int_0^infty frace^(a+ip)x+e^-(a+ip)xdxe^pi x-e^-pi x$$
$$= frac12 sec fraca+ip2$$
I am not able to understand how to proceed with these two. Any help would be appreciated.
definite-integrals exponential-function improper-integrals problem-solving fourier-transform
asked Mar 28 at 15:46
Shatabdi SinhaShatabdi Sinha
19113
$endgroup$
put on hold as off-topic by GNUSupporter 8964民主女神 地下教會, Adrian Keister, Thomas Shelby, Eevee Trainer, Cesareo Mar 29 at 5:31
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please provide additional context, which ideally explains why the question is relevant to you and our community. Some forms of context include: background and motivation, relevant definitions, source, possible strategies, your current progress, why the question is interesting or important, etc." – GNUSupporter 8964民主女神 地下教會, Thomas Shelby, Eevee Trainer, Cesareo
$begingroup$
Regarding the Fourier transform, see here.
$endgroup$
– Maxim
yesterday
add a comment |
$begingroup$
I was going through a question on finding the Fourier sine transform of:
$$frace^ax+e^-axe^pi x-e^-pi x$$
So I got stuck with this integral:
$$int_0^infty frace^(a+ip)x-e^-(a+ip)xdxe^pi x-e^-pi x$$
$$= frac12 tan fraca+ip2$$
The second one which i guess must be quite similar to the former that I encountered in another similar question is:
$$int_0^infty frace^(a+ip)x+e^-(a+ip)xdxe^pi x-e^-pi x$$
$$= frac12 sec fraca+ip2$$
I am not able to understand how to proceed with these two. Any help would be appreciated.
definite-integrals exponential-function improper-integrals problem-solving fourier-transform
asked Mar 28 at 15:46
Shatabdi SinhaShatabdi Sinha
19113
$endgroup$
I was going through a question on finding the Fourier sine transform of:
$$frace^ax+e^-axe^pi x-e^-pi x$$
So I got stuck with this integral:
$$int_0^infty frace^(a+ip)x-e^-(a+ip)xdxe^pi x-e^-pi x$$
$$= frac12 tan fraca+ip2$$
The second one which i guess must be quite similar to the former that I encountered in another similar question is:
$$int_0^infty frace^(a+ip)x+e^-(a+ip)xdxe^pi x-e^-pi x$$
$$= frac12 sec fraca+ip2$$
I am not able to understand how to proceed with these two. Any help would be appreciated.
definite-integrals exponential-function improper-integrals problem-solving fourier-transform
definite-integrals exponential-function improper-integrals problem-solving fourier-transform
asked Mar 28 at 15:46
Shatabdi SinhaShatabdi Sinha
19113
asked Mar 28 at 15:46
Shatabdi SinhaShatabdi Sinha
19113
edited Mar 29 at 8:59
Shatabdi Sinha
asked Mar 28 at 15:46
Shatabdi SinhaShatabdi Sinha
19113
asked Mar 28 at 15:46
Shatabdi SinhaShatabdi Sinha
19113
asked Mar 28 at 15:46
Shatabdi SinhaShatabdi Sinha
19113
19113
put on hold as off-topic by GNUSupporter 8964民主女神 地下教會, Adrian Keister, Thomas Shelby, Eevee Trainer, Cesareo Mar 29 at 5:31
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please provide additional context, which ideally explains why the question is relevant to you and our community. Some forms of context include: background and motivation, relevant definitions, source, possible strategies, your current progress, why the question is interesting or important, etc." – GNUSupporter 8964民主女神 地下教會, Thomas Shelby, Eevee Trainer, Cesareo
put on hold as off-topic by GNUSupporter 8964民主女神 地下教會, Adrian Keister, Thomas Shelby, Eevee Trainer, Cesareo Mar 29 at 5:31
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please provide additional context, which ideally explains why the question is relevant to you and our community. Some forms of context include: background and motivation, relevant definitions, source, possible strategies, your current progress, why the question is interesting or important, etc." – GNUSupporter 8964民主女神 地下教會, Thomas Shelby, Eevee Trainer, Cesareo
$begingroup$
Regarding the Fourier transform, see here.
$endgroup$
– Maxim
yesterday
add a comment |
$begingroup$
Regarding the Fourier transform, see here.
$endgroup$
– Maxim
yesterday
$begingroup$
Regarding the Fourier transform, see here.
$endgroup$
– Maxim
yesterday
$begingroup$
Regarding the Fourier transform, see here.
$endgroup$
– Maxim
yesterday
add a comment |
1 Answer
1
active
oldest
votes
$begingroup$
Note that we can write for $|a|<pi$
$$beginalign
int_0^infty frace^(a+ip)x-e^-(a+ip)xleft(e^pi x-e^-pi xright),dx&=int_0^infty frace^-pi xleft(e^(a+ip)x-e^-(a+ip)xright)1-e^-2pi x,dx\\
&=sum_n=0^infty int_0^infty e^-(2n+1)pi xleft(e^(a+ip)x-e^-(a+ip)xright)\\
&=sum_n=0^inftyleft(frac1(2n+1)pi -(a+ip)-frac1(2n+1)pi +(a+ip)right)\\
&=-frac12sum_n=-infty^infty frac1fraca+ip2+fracpi2+npitag1\\
&=frac12tanleft(fraca+ip2right)tag2
endalign$$
where in going from $(1)$ to $(2)$ we noted that right-hand side of $(1)$ was the partial fraction representation of $-cotleft(fraca+ip2+fracpi2right)=tanleft(fraca+ip2right)$ (See THIS ANSWER and the Appendix of THIS ONE).
answered Mar 28 at 16:26
Mark ViolaMark Viola
134k1278176
$endgroup$
$begingroup$
Partial fraction expansion representation of the tangent function. Could you please elaborate on this. That would be really helpful.
$endgroup$
– Shatabdi Sinha
Mar 28 at 16:43
2
$begingroup$
Sure. See THIS and the Appendix of THIS answer.
$endgroup$
– Mark Viola
Mar 28 at 17:26
add a comment |
1 Answer
1
active
oldest
votes
1 Answer
1
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
Note that we can write for $|a|<pi$
$$beginalign
int_0^infty frace^(a+ip)x-e^-(a+ip)xleft(e^pi x-e^-pi xright),dx&=int_0^infty frace^-pi xleft(e^(a+ip)x-e^-(a+ip)xright)1-e^-2pi x,dx\\
&=sum_n=0^infty int_0^infty e^-(2n+1)pi xleft(e^(a+ip)x-e^-(a+ip)xright)\\
&=sum_n=0^inftyleft(frac1(2n+1)pi -(a+ip)-frac1(2n+1)pi +(a+ip)right)\\
&=-frac12sum_n=-infty^infty frac1fraca+ip2+fracpi2+npitag1\\
&=frac12tanleft(fraca+ip2right)tag2
endalign$$
where in going from $(1)$ to $(2)$ we noted that right-hand side of $(1)$ was the partial fraction representation of $-cotleft(fraca+ip2+fracpi2right)=tanleft(fraca+ip2right)$ (See THIS ANSWER and the Appendix of THIS ONE).
answered Mar 28 at 16:26
Mark ViolaMark Viola
134k1278176
$endgroup$
$begingroup$
Partial fraction expansion representation of the tangent function. Could you please elaborate on this. That would be really helpful.
$endgroup$
– Shatabdi Sinha
Mar 28 at 16:43
2
$begingroup$
Sure. See THIS and the Appendix of THIS answer.
$endgroup$
– Mark Viola
Mar 28 at 17:26
add a comment |
$begingroup$
Note that we can write for $|a|<pi$
$$beginalign
int_0^infty frace^(a+ip)x-e^-(a+ip)xleft(e^pi x-e^-pi xright),dx&=int_0^infty frace^-pi xleft(e^(a+ip)x-e^-(a+ip)xright)1-e^-2pi x,dx\\
&=sum_n=0^infty int_0^infty e^-(2n+1)pi xleft(e^(a+ip)x-e^-(a+ip)xright)\\
&=sum_n=0^inftyleft(frac1(2n+1)pi -(a+ip)-frac1(2n+1)pi +(a+ip)right)\\
&=-frac12sum_n=-infty^infty frac1fraca+ip2+fracpi2+npitag1\\
&=frac12tanleft(fraca+ip2right)tag2
endalign$$
where in going from $(1)$ to $(2)$ we noted that right-hand side of $(1)$ was the partial fraction representation of $-cotleft(fraca+ip2+fracpi2right)=tanleft(fraca+ip2right)$ (See THIS ANSWER and the Appendix of THIS ONE).
answered Mar 28 at 16:26
Mark ViolaMark Viola
134k1278176
$endgroup$
$begingroup$
Partial fraction expansion representation of the tangent function. Could you please elaborate on this. That would be really helpful.
$endgroup$
– Shatabdi Sinha
Mar 28 at 16:43
2
$begingroup$
Sure. See THIS and the Appendix of THIS answer.
$endgroup$
– Mark Viola
Mar 28 at 17:26
add a comment |
$begingroup$
Note that we can write for $|a|<pi$
$$beginalign
int_0^infty frace^(a+ip)x-e^-(a+ip)xleft(e^pi x-e^-pi xright),dx&=int_0^infty frace^-pi xleft(e^(a+ip)x-e^-(a+ip)xright)1-e^-2pi x,dx\\
&=sum_n=0^infty int_0^infty e^-(2n+1)pi xleft(e^(a+ip)x-e^-(a+ip)xright)\\
&=sum_n=0^inftyleft(frac1(2n+1)pi -(a+ip)-frac1(2n+1)pi +(a+ip)right)\\
&=-frac12sum_n=-infty^infty frac1fraca+ip2+fracpi2+npitag1\\
&=frac12tanleft(fraca+ip2right)tag2
endalign$$
where in going from $(1)$ to $(2)$ we noted that right-hand side of $(1)$ was the partial fraction representation of $-cotleft(fraca+ip2+fracpi2right)=tanleft(fraca+ip2right)$ (See THIS ANSWER and the Appendix of THIS ONE).
answered Mar 28 at 16:26
Mark ViolaMark Viola
134k1278176
$endgroup$
Note that we can write for $|a|<pi$
$$beginalign
int_0^infty frace^(a+ip)x-e^-(a+ip)xleft(e^pi x-e^-pi xright),dx&=int_0^infty frace^-pi xleft(e^(a+ip)x-e^-(a+ip)xright)1-e^-2pi x,dx\\
&=sum_n=0^infty int_0^infty e^-(2n+1)pi xleft(e^(a+ip)x-e^-(a+ip)xright)\\
&=sum_n=0^inftyleft(frac1(2n+1)pi -(a+ip)-frac1(2n+1)pi +(a+ip)right)\\
&=-frac12sum_n=-infty^infty frac1fraca+ip2+fracpi2+npitag1\\
&=frac12tanleft(fraca+ip2right)tag2
endalign$$
where in going from $(1)$ to $(2)$ we noted that right-hand side of $(1)$ was the partial fraction representation of $-cotleft(fraca+ip2+fracpi2right)=tanleft(fraca+ip2right)$ (See THIS ANSWER and the Appendix of THIS ONE).
answered Mar 28 at 16:26
Mark ViolaMark Viola
134k1278176
edited Mar 28 at 17:57
answered Mar 28 at 16:26
Mark ViolaMark Viola
134k1278176
answered Mar 28 at 16:26
Mark ViolaMark Viola
134k1278176
answered Mar 28 at 16:26
Mark ViolaMark Viola
134k1278176
134k1278176
$begingroup$
Partial fraction expansion representation of the tangent function. Could you please elaborate on this. That would be really helpful.
$endgroup$
– Shatabdi Sinha
Mar 28 at 16:43
2
$begingroup$
Sure. See THIS and the Appendix of THIS answer.
$endgroup$
– Mark Viola
Mar 28 at 17:26
add a comment |
$begingroup$
Partial fraction expansion representation of the tangent function. Could you please elaborate on this. That would be really helpful.
$endgroup$
– Shatabdi Sinha
Mar 28 at 16:43
2
$begingroup$
Sure. See THIS and the Appendix of THIS answer.
$endgroup$
– Mark Viola
Mar 28 at 17:26
$begingroup$
Partial fraction expansion representation of the tangent function. Could you please elaborate on this. That would be really helpful.
$endgroup$
– Shatabdi Sinha
Mar 28 at 16:43
$begingroup$
Partial fraction expansion representation of the tangent function. Could you please elaborate on this. That would be really helpful.
$endgroup$
– Shatabdi Sinha
Mar 28 at 16:43
2
2
$begingroup$
Sure. See THIS and the Appendix of THIS answer.
$endgroup$
– Mark Viola
Mar 28 at 17:26
$begingroup$
Sure. See THIS and the Appendix of THIS answer.
$endgroup$
– Mark Viola
Mar 28 at 17:26
add a comment |
$begingroup$
Regarding the Fourier transform, see here.
$endgroup$
– Maxim
yesterday