some people might find it annoying, but I think his very repetative style of explaining where he repeats things over and over again slowly in different ways is extremely helpful in solidifying the concepts. thank you so much andrey k
astonishingly clear explanation. this concept is beyond my highschool course and this is the only thing out of countless videos, websites and textbook chapters that actually helped me understand the topic and what the formulas actually mean (i cannot even explain how helplessly confused i was before i watched this). I don't even think it's a matter of teaching style, it's a matter of objective quality.
The most straight forward explanation of the subject material I've seen! Thanks for the upload man :) My buddy and I are trying to place your accent though?
Amazing!!! Thanks a lot sir... you just made me understand a topic which used to make me anxious. Please keep making such videos to make physics a bit more simpler.
Sir, Accoding to Hooks law, Force is directly perorational to displacement. in otherworld's, F α x , F= - Kx What about F α V velocity for damping property. please explain why damping force related to velocity
sir i have a question, what would the gamma equation be for phyisical pendulum oscillation? would the gamma equal damping ratio times natural frequency of the physicial pendulum? thank you in advance.
thank you for the video! But i have a question! hope you'll see this! For a lightly damped oscillation system, does the frequency of the oscillation decrease over time (i.e. period increase over time) as the oscillation proceeds? or does the frequency of the lightly damped oscillation just remain smaller than the undamped system throughout the oscillation?
hello there, idk if u still need it but I think I have some ideas about ur question and tbh it isn't 100% true , but the frequency, especially in damped, depends on the damp ratio which means if this ratio increases the frequency decrease from the undamped frequency. ofc the slightly damped osc has a frequency that is less than undamped still it will descend at a small rate. I hope I benefit u and if there were any mistakes I wish u enlighten me .
you said the same thing for over and under damping i don't understand also anyone who understands it can reply to this comment really awesome style of teaching tho
Does the thermal energy transform back and forth or increase or change with every induced movement of the mass on the spring and there fore movement on molecules around the mass and movement on spring itself?
Sir, So I cannot use the position formula of my oscillator/spring system starts at displacement zero (equilibrium position). Since at t=0, the x wouldn’t not equal A. If not, is there an equation for which I can?
some people might find it annoying, but I think his very repetative style of explaining where he repeats things over and over again slowly in different ways is extremely helpful in solidifying the concepts. thank you so much andrey k
10 years later and this video is still helping people - Bless you Andrey!
After what felt like hours of searching, you finally cleared up everything i needed to know. Absolute Hero
Brilliant, just brilliant. Your teaching style is just right for me.
I understood that speed of teaching does have significant impact on learning after watching your videos....you hit the right chord....thank you.
astonishingly clear explanation. this concept is beyond my highschool course and this is the only thing out of countless videos, websites and textbook chapters that actually helped me understand the topic and what the formulas actually mean (i cannot even explain how helplessly confused i was before i watched this). I don't even think it's a matter of teaching style, it's a matter of objective quality.
"So let's skip all the calculus."
Me: NICE 👌
:)))
Tbh, I dont understand when teachers dont explain de analitical (calculus or math) part, because all those ecuations seem arbitrary to me
This video is ten times better at twice the speed.
Not for all those are not native speakers
Thanks really
ththx
wow your video is really really high quality, I get to understand what damped HM right away. So helpful! Thank you so so much!!
Any INDIAN here?? 😊
THANK YOU SIR
this video has been for over 12 years and it really helped me to understand the Waves and Vibrations course
thanks man...4 years later still the best lesson ever
Watching this comment after 6 year
@@Nakul_G and I am still alive hahaha
The most straight forward explanation of the subject material I've seen! Thanks for the upload man :) My buddy and I are trying to place your accent though?
Joshua Franck thats awesome, glad to hear that :-) any guesses?
@@AKLECTURES italian?
@@AKLECTURES venzula for sure
That's a great summary for damped oscillations but the derivations and proofs are left as homework for us
Thank you!
You have just explained everything so clearly.. Thank's man
اوه شكراً لك كثيراً استاذ اندريه ❤❤❤
لقد استفدت كثيراً من الشرح شكراً لك 🌻🌻
This is a really clear explanation and it sounds good even at 2x :)
Thank you, sir.. You've cleared the concept as a crystal.
Thank you! The dilivery is so perfect!
perfect rhythm with thinking and understanding time. love to watch over and over again.
don't get frustrated, just watch AK Lectures!
lol! :-)
Goosebumps!!!! Thank you so much.
Thank you very much....a month of classes just to say this, God......
hi sir your teaching is great.
love from india
thank you so much sir for your valuable lecture. May god bless you.
The flow was exeptional. Very helpful, a tone of thanks for that!
Your energy is amazing. Thanks Sir. God bless You.
Wonderful Sir,
I am Daniel J Sadananda from India.
😍
Thank you for this video and your effort ........ from the Faculty of Science, Helwan University
Just in 10 minutes you don't know sir how much you help me
Amazing !!! It was very understandable Thank you
Thank you sir , very good explanation ❤
Nice explanation thanks
From 🇳🇵 Nepal
like your way of teaching :) hope so my all concepts will be clear by your lectures. thank you
Your explanation is awesome, Sir. Thanks!!!
i like your teaching style. i have gotten the point. thank you :)
The explanation is very clear and you are really cute. Thank you.
Extreamely awesome.
You're a hero sir.
NAILED IT 💥 love from pakistan
Great. I really like this style of teaching... wonderful
Excellent work
Thank you sir 🙂
Thank u so much for this lecture ❤❤
Very nice video iunderstand all the things
Amazing!!! Thanks a lot sir... you just made me understand a topic which used to make me anxious. Please keep making such videos to make physics a bit more simpler.
awesome style of teaching!
Thanks for the lesson very understandable
brilliant stuff great job
Sir you're vd is very helpfull for us
Sir there were no frictional losses of energy in your teaching method 😂
You're the goat Andrey
awesome explaination
Wonderful lecture!! Very helpful!
Its tooooo good sir thanx from a student
Thanks a lot sir for wonderful presentation... ❤️
Very nice, thank you for your work.
Sir, Accoding to Hooks law, Force is directly perorational to displacement. in otherworld's, F α x , F= - Kx
What about F α V velocity for damping property.
please explain why damping force related to velocity
Asslamoalaikum dear sir ... Sir Please make a vidio of torsional oscillator .. 💖
awesome class Sir.
watching this video after 10 years ... from india 🫡
U are a hero man really
Thank u for this lecture
Absolutely great
Many thanks
Thank you very much! 😉
You're the best
🙏🙏🙏🙏 Thanks a lot sir
Thanks so much
Thanks a lot .
Thank u so much sir
sir i have a question, what would the gamma equation be for phyisical pendulum oscillation? would the gamma equal damping ratio times natural frequency of the physicial pendulum? thank you in advance.
Awesome is small word for this!
very much thank u AK Lectures
soundariya raja you're very welcome! :)
AK LECTURES :-)
Love from #india sir
I think it's the underdamped (not overdamped) condition in which oscillations take time to stop????
thank you for the video! But i have a question! hope you'll see this! For a lightly damped oscillation system, does the frequency of the oscillation decrease over time (i.e. period increase over time) as the oscillation proceeds? or does the frequency of the lightly damped oscillation just remain smaller than the undamped system throughout the oscillation?
hello there, idk if u still need it but I think I have some ideas about ur question and tbh it isn't 100% true , but the frequency, especially in damped, depends on the damp ratio which means if this ratio increases the frequency decrease from the undamped frequency. ofc the slightly damped osc has a frequency that is less than undamped still it will descend at a small rate. I hope I benefit u and if there were any mistakes I wish u enlighten me .
Thanks. Very helpful.
Nice video :) very detail
you the man
Cool
you said the same thing for over and under damping i don't understand
also anyone who understands it can reply to this comment
really awesome style of teaching tho
I have understood well
Than in my class
when b^2 = 4mk the frequency will be zero. doesnt it mean that the object wont move at all?
Thanks man.you are awesome...
***** you're welcome! :-)
Total lifesaver. But still confused what's the difference between overdamped and underdamped 😢
Thank you sir
Salute sir 🙏🙏🙏
Being an Indian my edu system doesn't allow me formulae sheet so I have to learn all those mate .
yes buddy, ur right. Shitty Indian Education System
Osm ❤❤🤗🤗
Thank you so much!
Does the thermal energy transform back and forth or increase or change with every induced movement of the mass on the spring and there fore movement on molecules around the mass and movement on spring itself?
just great!!!!!!!!
what is ( b^2/4m^2) in the explanation of solution of equation of motion of damped harmonic motion.
Sir, So I cannot use the position formula of my oscillator/spring system starts at displacement zero (equilibrium position). Since at t=0, the x wouldn’t not equal A. If not, is there an equation for which I can?
Nice explanation ...but why didn't you showed calculation to solve the equation to solve the eqation of damped HM??
Isha Shree, The mathematics is too high for a normal student, Just take it for granted
Thank you so much
Who is here in 2024?Thank you sir
There is no video on velocity in damped HO, Quality Factor etc
Thank u sir
Sir could you explain forced oscillation