... A very good day to you Sir Newton, Wow ... after watching your excellent introduction presentation on the always tricky subject of convergence/divergence, I can only say at this point what a wonderfully clever piece of teaching art you have displayed! Every aspect you covered was crystal clear from A to Z ... I first have to think a little bit more Newton to find more words ... again wow ... for now, many thanks to you, Jan-W
Nice one. The only remark I have is that the two p integrals on the left whose we are comparing to only apply if they are from 1 to infinity, if they are lets say from 0 to 1, the opposite will be true for divergence and convergence.
Smart students always converge on these videos! 🎉😊
... Even the less smart ones like me, because personally wanting to get smarter (lol) ...
🤣🤣🤣
... A very good day to you Sir Newton, Wow ... after watching your excellent introduction presentation on the always tricky subject of convergence/divergence, I can only say at this point what a wonderfully clever piece of teaching art you have displayed! Every aspect you covered was crystal clear from A to Z ... I first have to think a little bit more Newton to find more words ... again wow ... for now, many thanks to you, Jan-W
Thank you!
Thank you sir for super simple and good explanation!
Fantastic video
Very greatful sir Newton
You teach very well, you are really wonderful
Thank you! 😃
Nice one. The only remark I have is that the two p integrals on the left whose we are comparing to only apply if they are from 1 to infinity, if they are lets say from 0 to 1, the opposite will be true for divergence and convergence.
Woo KEEP IT up
Thank you. Such a memorable explanation
Glad it was helpful!
1:34 from Zero to Hero
And at 24:50 you square both sides but x^(2*5) becomes x^5 instead of x^(2*5*2)
Didnt know kamaru usman taught calculus :)
🎉🎉🎉