Great video and great simulation. If i had that simulation when i was studying the Nyquist-Shannon theorem during digital signal processing class it would have been so easy to get why it works like it works. Also your explanation on oversampling is very, very clear and easy to follow.
Slightly unrelated question but I figure this is the best way to get your attention. You made a series 'flat from scratch'. I have another question, do you know how to make a perfect sphere from scratch? Another question if one has a sphere already, how can one tie a rope exactly around the diameter?
Great video and great simulation. If i had that simulation when i was studying the Nyquist-Shannon theorem during digital signal processing class it would have been so easy to get why it works like it works. Also your explanation on oversampling is very, very clear and easy to follow.
@@Nik930714 thank you.
Very clear explanation, thank you.
Thank you.
Slightly unrelated question but I figure this is the best way to get your attention. You made a series 'flat from scratch'. I have another question, do you know how to make a perfect sphere from scratch? Another question if one has a sphere already, how can one tie a rope exactly around the diameter?
@@JayDee-b5u 1: no. 2: I don't know.
Very awesome explanation, thank you.
Thank you.
I got a faster mcu and for DC readings, low pass IIR was a no match (vs averaging). Only a tip for the next video.:-).
Very good video! Thanks for sharing ❤
This video is a great pass to Delta Sigma Converters
Great :)
Thanks for commenting.