Best explanation on the beats. In a manner, I use expressions on Adobe After Effects, using the “wiggle expression” on AE to adjust the frequency and amplitude for given visual effects (47:45) Kudos!!
Regarding the first mass, you said " if x1 >x2" and for the second mass you said "if x2>x1" , could you please explain why did you assume these two contradicting assumptions for the same system? Thank you.
7:18 Regarding the first mass, you said " if x1 >x2" and for the second mass you said "if x2>x1" , could you please explain why did you assume these two contradicting assumptions for the same system? Thank you.
They are assumed to be different in both the cases just for the sake of simplicity. You can stick to a single assumption for both the masses and will end up getting the same pair of equations of motion.
For the first mass, you considered x1 to be greater than x2 (at 5:18) And here (at 7:13) as for the second mass you considered x2 to be greater than x1!!! Why???? How can this even be possible at the same time? (Like Schrodinger's cat) 🤔🇧🇩
All this talk about SHM. Let's add some DAMPING :)
th-cam.com/video/8AHQ6gBSxAU/w-d-xo.html
Your explanation is just mind blowing 🔥🔥
Sir, I am fan of your pronunciation♥️♥️
Best explanation on the beats. In a manner, I use expressions on Adobe After Effects, using the “wiggle expression” on AE to adjust the frequency and amplitude for given visual effects (47:45)
Kudos!!
God level explanation....far better than IIT professor....❤
Simple and crisp explanation. Thank you sir.
wow , your explanation is just mind blowing ! thank you very much🙏🙏🙏🙏🙏
Thank you sir for this simple explanation
Please make a play list putting the vedios in order.
Your way of teaching is great.
extremely well presented in the simplest manner.. hats off to the efforts
Regarding the first mass, you said " if x1 >x2" and for the second mass you said "if x2>x1" , could you please explain why did you assume these two contradicting assumptions for the same system? Thank you.
suppose x1>x2 while considering second mass, then the direction of force would be opposite (in this case rightwards). - k(x2 - x1)= + k (x1 - x2).
complete realization ho gya topic ka thank you sir
extremely helpful topic🙏
Amazing lecture❤
Masterpiece!
Thank you very much sir..keep up the good work
When considering the change in length of the second spring, why is it (x1-x2) for the first mass and (x2-x1) for the second mass?
Very informative! Thank you very much!
sir how you explained this confused topic is very nice
Best video on this topic
7:18 Regarding the first mass, you said " if x1 >x2" and for the second mass you said "if x2>x1" , could you please explain why did you assume these two contradicting assumptions for the same system? Thank you.
They are assumed to be different in both the cases just for the sake of simplicity. You can stick to a single assumption for both the masses and will end up getting the same pair of equations of motion.
Thank you very much
Sir just wow...watching b4 xm n8😅
thank you so much
Wonderful Explanation
I'm 3rd year hons students
Thank you sir
Great explanation Sir 😊🙏🙏
Amazing ❤🎉🎉
Well explained
sir, pls include lagranges eq for coupled oscillator
Sir pls put a video for linear tri-atomic molecule in classical mecanics
thanks very much!
Sir are this lecture is from book nk bajaj wave and oscillation.
Made us love Physics
Amazing
Ultimate sir
7:05 Force due to middlespring.. If we take it as x1-x2..is it right.. Like what u did in the case of fst mass
Maza ayae 👌
What if the entire system is being suspended vertically with both the ends being fixed and gravitational force also needs to be considered.
Which tools you used to teach!!
Please tell me!??
tq sir
For the first mass, you considered x1 to be greater than x2 (at 5:18)
And here (at 7:13) as for the second mass you considered x2 to be greater than x1!!! Why????
How can this even be possible at the same time? (Like Schrodinger's cat)
🤔🇧🇩
Watching From IIT Kharagpur,,Anyone Here?
Ha bhai DU waale Kitne h..? 😃
Tomorrow exam😂... anyone from NIT SILCHAR....
Bhai 😂😂 same
Aree Bhai main bhi😂
bhaisahab 🫡🫡
Bhai Bhai bhai😂
Bhai same😂😂
king
💖
Hindi mein nahi hai😭
Itna bekar kon pdata h 😢😢
T
Amazing ❤🎉🎉