A thank you is merely not enough - I absolutely love your videos, very concise yet detailed and to the point. I was also wondering if you'll ever make videos about aperture stops, field stops and exit/entrance pupils.
thank you but i don't understand why we substract when the wave moves to the +ve x-axis and add when it moves to the -ve x-axis. And what if we express the equation using cosine
It's frustrating that nobody seems to go into the mathematical representation of longitudinal waves. It seems nontrivial to describe the position and velocity of particles moving in a longitudinal wave.
A thank you is merely not enough - I absolutely love your videos, very concise yet detailed and to the point. I was also wondering if you'll ever make videos about aperture stops, field stops and exit/entrance pupils.
I am interesting on mathematical applications. I like very much your presentation. You are a excelent profesor. Thanks!
Ana Gherasim
Thank you! you're a great teacher!
Now I can understand what my teacher is explaining about.
Anne Kirsten You're welcome Anne :)
Sir... Is that ur lectures are... Useful for preparation of NEET.. Sir.... And ur the best teacher sir thank you so much sir
I am math major student who are interested in physics. Thank you for your succint and clear lecture. I appreciate for it.
Awesome to hear! You sound very much like me :-)
That was very helpful, thanks a lot!
thank u for your explaintion i realy understand it now .THANK YOU😇
thanks for your effort and good luck
Great job!
Thank you so much sir☺☺☺☺☺☺☺☺
thank you but i don't understand why we substract when the wave moves to the +ve x-axis and add when it moves to the -ve x-axis. And what if we express the equation using cosine
Thanks :D really helps me understanding it..
heavenlybeing95 you're welcome :)
Sir . When do you use Cos???
It's frustrating that nobody seems to go into the mathematical representation of longitudinal waves. It seems nontrivial to describe the position and velocity of particles moving in a longitudinal wave.
Sir is t equals to T !???? Always when we use y(x,t)!
Can somebody pls explain the 2pie/lambda part?
mashallah