FT and Amplitude Phase plot in matlab

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swlinas
swlinas el 11 de Jun. de 2022
Editada: swlinas el 17 de Jun. de 2022

The function I need to find the fourier transform of is: x = (t-5)^2/e^8t , t>5
and I want to plot the amplitude spectrum.
This is the code I've written so far but it doesn't seem to work properly.
%%%%
x2 = ((t-5)^2)/exp(8*t);
x2_FT = fourier(x2);
w_values=-100:100;
X_values=double(subs(x2_FT,w,w_values));
subplot(2,1,1)
fplot(t,x2,'-b'); hold on; title('Signal'); grid on;
subplot(2,1,2)
plot(w_values, abs(X_values),'*'); title('Amplitude Plot'); grid on;
%%%%

Also any help on how to actually solve the fourier transform of the above mentioned function will be greatly appreciated.
Thanks in advance!

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swlinas
swlinas el 12 de Jun. de 2022
Thanks, i'll check it out!
Paul
Paul el 12 de Jun. de 2022
@dpb
Even assuming that the OP wants the DFT and not the CTFT, how would the DFT be applicable here, insofar as x(t) is of inifinite duration? Just pick some value of t above which x(t) is assumed to be zero?

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Star Strider
Star Strider el 11 de Jun. de 2022
Ran in:
Try this —
syms t w
x2 = ((t-5)^2)/exp(8*t)
x2 = 
x2_FT = int(x2*exp(-1j*w*t), t, -1, 1)
x2_FT = 
figure
fplot(real(x2_FT), [-100 100])
hold on
fplot(imag(x2_FT), [-100 100])
fplot(abs(x2_FT), [-100 100], '-g', 'LineWidth',2)
hold off
grid
legend('Re(x2\_FT)','Im(x2\_FT)','|x2\_FT|', 'Location','best')
% x2_FT = fourier(x2)
w_values=-100:100;
X_values=double(subs(x2_FT,w,w_values));
figure
subplot(2,1,1)
fplot(t,x2,'-b'); hold on; title('Signal'); grid on;
subplot(2,1,2)
plot(w_values, abs(X_values),'*'); title('Amplitude Plot'); grid on;
I find that is occasionally necessary to do the specific integration to get the desired Fourier transform rather than using the fourier function.
.
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Paul
Paul el 12 de Jun. de 2022
How are the results essentially the same? In the first case, with the integration taken over [-1,1], the amplitude plot peaks at ~12000, but with the integration over [0,5] it peaks at 3. And the plots of the Re and Im parts don't seem to be essentially the same either, with lots of osciallations in the former and none in the latter.
But the bigger question is, what is the justification for these seemingly arbitrary limits of integration, neither of which seem to comport with the definition of the Fourier transform integral as it would apply to this function?
Using the limits of [-1,1] implies that x2(t) is zero outside that interval, and using [0,5] implies x2(t) is zero outside of that interval. But neither of those implications is true for x2(t).
Star Strider
Star Strider el 12 de Jun. de 2022
I have written everything I intend to about this.

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Paul
Paul el 11 de Jun. de 2022
Ran in:
The code as shown has at least two issues. When using symbolic math, need to declare variables appropriately
syms t w real
Because x2 is zero for t < 5 (not stated explicilty, but implied by the question), need to multiply by heaviside
x2(t) = ((t-5)^2)/exp(8*t)*heaviside(t-5);
figure
fplot(x2,[0 10])
xlabel('t');ylabel('x2')
Perhaps the solution can be obtained starting from here ....

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