Next Up - COUPLED OSCILLATORS (Spring mass systems) kzitem.info/news/bejne/lY2e2IKgoGV6kqQ
@press2701
11 ай бұрын
Amazing video. I am transfixed by the patient, clear, methodical process of solving such an elegant system. I am an engineer in process control theory, poles, zeros, PID, dead-time, stochastics and z-transforms. You have my respect, well done.
@ManojKumar-cj7oj
3 жыл бұрын
Very few things are perfect around us like your explanation 🎩❤️
@drvanhelsingz5133
2 жыл бұрын
You sir should have 2 million followers. This stuff is awesome.
@pravitrawat7213
3 жыл бұрын
This is amazing! The first normal frequency corresponds to just a normal pendulum. ie. √(g/l) The second one also includes the effect of a spring too, the natural frequency of a spring with two masses = k/(m/2) here m/2 is the reduced mass. And the second normal mode is just √(g/l +2k/m) . Kind of the sum of a spring and simple pendulum. Brilliant lecture sir! Love this channel!
@renjithaa9060
2 жыл бұрын
Thank you very much .i never got this excited in any of my Physics class .. superbly explained 💓💓💓
@speedbird7587
Жыл бұрын
I really enjoy how you explain in a very intuitive manner , Thanks for the video!
@p.kalyanachakravarty7530
Жыл бұрын
What a gem of a video and such an excellent presentation.....👌
@AmitKumar-wl7gg
3 жыл бұрын
Sir your explanation is great👍👏👏👏
@Stuk4s
3 жыл бұрын
Wow, great video, u are a great teacher
@argujjar835
3 жыл бұрын
Always waited for your videos...plz make a video series of Quantum mechanics
@anuragmajumdar6678
Жыл бұрын
Loved your explanation sir.....very useful for our ug program
@DeepakSharma-sr5bb
3 жыл бұрын
Sir, Great explanation. Please also tell about simulation software . Is this any simulation software ?
@Lime-rr6te
2 жыл бұрын
I look forward to your next video.
@nolanjohnston9500
2 жыл бұрын
Another amazing video. Thank you so much!
@saadhassan8813
11 ай бұрын
Nice lecture
@ayushthakur8836
3 жыл бұрын
Superrb as usual👍👍👍❤️❤️
@FredericoPiresdosSantos
3 ай бұрын
Very Good!!!!!!!
@زينالعابدينماجد-خ1خ
3 жыл бұрын
Thank you for your efforts
@maskarammaskaram3580
3 жыл бұрын
Sir...Small oscillations of connected pendulums is my project topic. Can u plz share the future work of this topic?
@joydeepguha4108
3 жыл бұрын
Explanation is great 👌👌👌
@peonyrose8694
Жыл бұрын
This is so neat.
@jaynehinson7522
11 ай бұрын
Fantastic :D
@saadhassan8813
11 ай бұрын
Dear Sir, when deriving the expression for potential energy, you only used extension of the spring in the x-axis only, why did you not include extension in y-axis?
@pauldirac6243
Жыл бұрын
Great presentation. Can you provide a screenshot of the entire Scilab program so we can play around with it a little? It cuts off pretty short..
@mamonahassan3962
3 жыл бұрын
Wonderful
@NRUSINGHAPRASADMAHAPATRA
3 жыл бұрын
Thanks sir 🙏🙏😊
@M.ZEE14
3 жыл бұрын
Sir kindly make a video for cross section of nuclear scattering please
@M.ZEE14
3 жыл бұрын
Love you sir from pakistan...
@sachinmishra4045
3 жыл бұрын
I wish I could study under you.. sir🔥
@ankitmishra2723
3 жыл бұрын
Thanks sir
@thetimesonseffect7289
Жыл бұрын
how did you consider determinant that's where I got struck .
@isro_iuac
Жыл бұрын
sir aap kaun sa simulation use kar rahe hai
@darwinvironomy3538
Жыл бұрын
for the extension of the spring, isn't there the extension from the y difference also? why are you applying only for x where the pendulum could be in different y? even so, i think your way still works since y in small oscillation almost never oscillate.
@asifbhutta3101
2 жыл бұрын
Sir Plz tell in eq 1 "K" is ppsitive butin eq 2 "K" is negative What is its physical meaning
@nthumara6288
Жыл бұрын
what is mean lagrangin
@cunningham.s_law
Жыл бұрын
what software are you using for this?
@hashensenevirathna1245
Жыл бұрын
what is the simulation software that used
@shashwatsrivastava253
3 жыл бұрын
Sir is coupled pendulum a part of jee syllabus
@FortheLoveofPhysics
3 жыл бұрын
No, it's usually studied in Classical Mechanics, while discussing normal modes etc
@shashwatsrivastava253
3 жыл бұрын
@@FortheLoveofPhysics ok thanks I guessed so..
@tusharkumar1268
3 жыл бұрын
@23:54 why didnt sir used +- after resolving roots?
@loganmitchell
2 жыл бұрын
can't have negative frequency
@catsyrup1289
2 жыл бұрын
How do you get the determinant equation???
@nolanjohnston9500
2 жыл бұрын
I know I am kind of late in replying but I believe it is because oscillatory motion is assumed with angular frequency omega.
@mayankwasnikiitkgp3430
2 жыл бұрын
👌👌
@Sandhaan108
3 жыл бұрын
Who are You? How do you perform these simulations?
@ManojKumar-cj7oj
3 жыл бұрын
🤣
@twinbabiesreaction5830
3 жыл бұрын
"Class apart"
@HEMANTKUMAR-gz4zt
3 жыл бұрын
👏👏👏👏👏👏❤❤❤❤❤❤❤❤❤
@PrivateSi
3 жыл бұрын
The first few minutes of the pendulum diagram animation is how positrons and electrons do NOT (always) annihilate in my growing Positronic Universe model.. Only an exactly opposite phase electron + positron annihilate (ie. those created as an entangled pair at exactly the same time, if they get close enough to each other)... Else a 'noton' forms.. -- A neutrino is an unquantised math fudge to balance erroneous charge energy equations, notons stabilise via the strong force as a tiny particle as it has no electrostatic charge field and the strong force bonds are as short as can be... Notons could be, and probably are less massive than electrons/positrons, even though they are made of one of each, as electrons and positrons have spin loops going in and out at the particle centre focal point, with radius stretching as far as the e-/p+ near electrostatic field... -- Protons are much more massive as the central electron (down quark) only half neutralises each Positron (up quark), so they repel each other, lengthening the strong force bonds (merged e- and p+ spin loops = magnetic field), increasing mass... This balances as well as QCD in a simpler manner.. my electrons and positrons have 6 ot 12 bond points, depending on the model version.. More is possible but ugly... 12 field cells surround 1 extra, free, mobile field cell (positron) or hole (electron)... It's a close packed Dirac Sea of +ve fuzzballs, with the bonus that field cells can break free, forming a vibrating positron + electron pair...
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