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!
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
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
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.
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
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).
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!
you are awesome...man .....you will get many blessings from engineering students out there!!!🤓
Thanks!
this video helped to clarify some concepts. thanks a lot !
This series of videos was awesome.
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
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.
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
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..
Thank yoy
What is the name of the book that yoy are taking these examples from?
These are all my own examples.
not every hero wears a cloak