The Continuous-Time Unit Impulse Function 4/4
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- Опубликовано: 11 янв 2025
- adampanagos.org
The previous video developed the sifting property of the continuous-time impulse function delta(t). In this video we use the sifting property of the impulse function to evaluate and simplify a variety of integrals involving products of continuous-time with impulse functions.
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Finally someone has simplified engineering.
Thanks for the kind words, I’m glad you enjoyed the video! Make sure to check out my website adampanagos.org for additional content (600+ videos) you might find helpful. Thanks much, Adam
I was desperately googling for the answer to integral of x * delta(x + a) and thank God you made this video and also wrote an accurate video description. Thanks a lot!
Thanks for the kind words, I’m glad you enjoyed the video! Make sure to check out my website adampanagos.org for additional content (600+ videos) you might find helpful. Thanks much, Adam
Studying for the FE exam now - your videos help with so many concepts I forgot! Thanks for keeping your videos short and sweet, you've been super helpful!
Thanks much, good luck on the exam!
this video helped to clarify some concepts. thanks a lot !
you are awesome...man .....you will get many blessings from engineering students out there!!!🤓
Thanks!
god speed bro i have a midterm tomorrow and you came in clutch
Glad I could help, thanks for watching. Make sure to check out my website adampanagos.org for additional content (600+ videos) you might find helpful. Hope the exam went well!
Adam
This series of videos was awesome.
Thanks!
Thanks a lot. This video really helped me and i couldnt find another video for that .
Glad I could help, thanks for watching. Make sure to check out my website adampanagos.org for additional content (600+ videos) you might find helpful. Thanks, Adam
Thank you Doctor! Very helpful!
You're very welcome, thanks for watching. Make sure to check out my website adampanagos.org for additional content (600+ videos) you might find helpful. Thanks, Adam.
Amazing video. Thanks for the help!
Glad I could help, thanks for watching. Make sure to check out my website adampanagos.org for additional content (600+ videos) you might find helpful. Thanks, Adam
Thank you for the video. What does the impulse signal's frequency spectrum look like?
A perfectly flat constant. An impulse in time is a constant in frequency.
this video is really helpful :D thank you very much!
You're welcome, thanks for watching.
I came across the same problem..but they did -d[exp(-at^2)/dt at t=-5 n the answer is different...what is happening..
What is the name of the book that yoy are taking these examples from?
These are all my own examples.
could u plz tell me how to do, integral lim from -1 to 2 and the signal x(t) delta(t-0.5)
That's just an application of the "sifting property" of the delta function. Since the delta function is located at t = 0.5, this integral "sifts out" the value of the signal x(t) at time t = 0.5. So, the integral is equal to x(0.5).
You're the man
not every hero wears a cloak
Thank yoy