Thank you for an excellent series. One question, though- at about 6:00 you say "you should always see the image if it's a real signal". Are you saying the image is a non-real signal (cannot be measured in the lab), or that there are some other non-real signals out there that do not have an image? If the latter, what would be an example? Thanks again
Hello Professor David S. Ricketts The olaylist Radio System Design - Virtual Course is excellent and I was able to take great advantage of it, however, I would like to congratulate you and ask you to give us the pleasure of studying with you with more videos on the subject of telecommunications.
If frequency increases in SHM, so does the acceleration. But does it make sense that high frequencies impose such a high acceleration? How do you account for this biased acceleration given by high frequencies. For instance, for SHM, a=( 2*pi*f)^2. How do you account for the fact that lower frequencies have more detrimental effects that high frequencies?
Im trying to learn this because I have really bad memory and no basics at all in understanding mri bandwidth i wish someone could be patient with me and teach me since i wanna learn out lf curiosity and no one has time for me
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Professor David: you're probably familiar with that
Me: currently learning an alien language
Thank you, Prof. Ricketts ! For all of this work.
Dr. Ricketts, your videos are a great service to aspiring electrical engineers!
Complete course is at rickettslab.org/radiosystemdesign/
Thank you for an excellent series. One question, though- at about 6:00 you say "you should always see the image if it's a real signal". Are you saying the image is a non-real signal (cannot be measured in the lab), or that there are some other non-real signals out there that do not have an image? If the latter, what would be an example? Thanks again
This is a good explanation in short term, of what is main bij Fourier who how investigate de fourier transform..
it should be sin(wt) on the last equation on the last slide. not cos(wt)
It looks like I stumbled right into an awesome channel. Thank you for what you do.
Sorry, but @ 6:30 you showed us three terms. I think the third term must be sin(wt) instead of cos(wt) ? With regards, Peter.
Third term is sin(wt).
Agreed
Professor David, Thank you for that great video
On the slide at 6:28, I think the 3rd line of text is incorrect. Isn't it supposed to be sin instead of cos ?
Yes
Hello Professor David S. Ricketts
The olaylist Radio System Design - Virtual Course is excellent and I was able to take great advantage of it, however, I would like to congratulate you and ask you to give us the pleasure of studying with you with more videos on the subject of telecommunications.
great explanation thank you professor
I wish I could watch this & all the other lectures in this series, but I'm very sensitive to audio & the mix here is intolerably wrong for my ears 😖
Professor David: but this should be review for you
Me: first time hearing about any of this
PLEASE do a video on how to build that PLASMA TAURUS thing plzzzz
Whoa this is all new to me. Still helpful stuff.
Thanks for all videos
such amazing video!!
If frequency increases in SHM, so does the acceleration. But does it make sense that high frequencies impose such a high acceleration? How do you account for this biased acceleration given by high frequencies. For instance, for SHM, a=( 2*pi*f)^2. How do you account for the fact that lower frequencies have more detrimental effects that high frequencies?
is there any books i should read in parallel to this course?
thank you
You are the man
Is the frequency domain synonymous with Laplace or Fourier?
You literally saved my exam grades and thus my degree
This is only crash course, where is complete course sir? Which books u have referred
?
Double dutch if you can match the Rhythm you can play
Im trying to learn this because I have really bad memory and no basics at all in understanding mri bandwidth i wish someone could be patient with me and teach me since i wanna learn out lf curiosity and no one has time for me
Great explanation Professor.
great lecture
What up all my fellow geeks?
I wish you were my lecturer ;-;
hallo sir can we talk?
Oh! inlast page. double cosin !・・・・・・ I like cosine rather than sin , you too?
Professor David, Thank you for that great video