Hi Professor Van Biezen, I just wanted to say thank you so much for all of your hard work in trying to help students in physics and other courses. You're an amazing professor and I really love all of your videos. They have been a great help to me for my Introductory Physics course this year and I am so grateful that I found you on youtube. I'm really excited to see your upcoming videos in your electrical engineering, advanced mechanics and advanced electricity&magnetism lecture series. I really hope that you continue to develop these lecture series. I appreciate all of the effort you've put in thus far into helping students and I can't wait to see your new videos. Thanks again, Professor Van Biezen.
I have been going through all the Lagrangian and Hamiltonian lectures and would advise anyone that Michel van Biezen's lectures or so clear that you can learn quickly and are never left wondering whether you have really understood. This is how education should be.
What a clear representation. I would have watched till the end in a single session if the rest of these valuable resources were available. Thank you so much.
Fantastic, these are really fun and interesting topics to learn about and your explanations make them easy to digest. I eagerly await the remainder of the series
sir; After knocking my head against the wall trying to figure out both Lagrangian and Hamiltonian Mechanics I believe I am finally beginning to understand it. Thank you for your time and your effort in the production of these great videos.
Greetings Dr. Biezen your videos are awesome, I learn a lot from them... thanks a million :) One advanced math concept which does not contain much resources is tensor calculus and analysis, I would greatly appreciate it if you started a series on this topic (and I'm sure many others would as well). The sources I've seen make it seem extremely complex and don't do any examples for practice, as appose to your teaching style which makes things much easier to understand.
Good day professor ,this is my first time on your page and I am so delighted I came across it . what has been an issue for me in my course of study, you made it so easy in few hours. Thank you for having a different way of teaching. Please I am unable to go further on the hamiltonian videos which stopped in the 6th lesson out of a possible 18 that was available....kindly help highlight the other hamiltonian videos from 7th lesson to the very last of it Once again thank you for your sweet ,easy and well detailed lectures A NEW STUDENT OF YOURS FROM NIGERIA
Hi and welcome to the channel! We have yet to complete the playlist, but will continue to do so when time permits. We have about 500 playlists on this channel with about 100 not yet completed and some additional topics not covered yet. We are systematically working on them.
Thank you so much , i needed to understand hamiltonian mechanics for my quantum mechanics 1 course, I have learnt both lagrangian and hamiltonian in one day. Thanks you so so much , your explanations are awesome looking forward to watch your qm videos as semester goes on
Hi Professor Van Biezen Once again i salute you thank you for these lectures and tuition video, they have been a really big help with the physics courses and hope for more.....be ready for more requests thanks a million once more Professor.
Simply beautiful. Please add more to the Lagrangian and Hamiltonian videos. Will you be doing them soon? They aren't explained this simply and crisply ANYWHERE. Kudos.
Well, if you don't mind may I ask for your suggestion on something ? I am sitting for the GRE Physics this year and the curriculum includes Lagrangian and Hamiltonian mechanics. Which text/material would you suggest that works just fine for basics, without getting too mired in the dirty details?
Typically, you will be asked to solve problems and it is sufficient to know how to apply the theorems. I would look for examples and work through them yourself until you feel comfortable.
+Prashant S Thanks Prashant :) I felt it to more of a "brush up" your knowledge kind of a book, rather than an introduction. What if you wanted a more basic approach, like Michel's?
I think you should prioritize this advanced series. Because the more 'trivial' stuff can be find all over the internet + it's easy, you can understand it without much help. But no read-able theroretical mechanics book exist!!
@@MichelvanBiezen Thank you for rading my comment :) + I am glad you agre! On the other hand you do a phenomenal job and only you know whats best for you.
Prof, can you tell me what`s the different between m d/dt(dH/dp)+dH/dx=0 and d/dt(dL/dx dot)-dL/dx=0 in Hamiltonian and Lagrangian ? why did you input m in Hamilton ? thank you Prof
Michel van Biezen thanks please you also made electrodynamic and quantum mechanics advance lessons, ı.e : dirac notation ...,spin...entanglemant please...
Why don't we have to consider that p is a function of dx/dt when we take the derivative of the Hamiltonian w. r. t. x? We would get d/dx(p^2/2m) =( 2*p/2m)*(dp/dx), where dp/dx is not equal to 1.
If you go the home page of this channel, you will see how they are organized. There are also a few videos showing the organization of the videos and how to find them. (There are 7,900 videos on this channel).
@@MichelvanBiezen sir plzzz that is my humble request to you make this series complete.... I m msc student and this topic is in my syllabus.. I m only understand by your teaching style.. If you don't complete this series... I don't think that I can understand ... What is Hamiltonian mechanics.. So plzzzzzzz complete this.... 🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏
We work multiple jobs and make these videos in our "spare" time and we are trying to cover many topics. We'll try to get back to these as time permits.
Yes, we need to complete many playlists, including this one. We are working them as fast as we can. We hope to get back to this one as soon as possible.
Hi Professor Van Biezen,
I just wanted to say thank you so much for all of your hard work in trying to help students in physics and other courses. You're an amazing professor and I really love all of your videos. They have been a great help to me for my Introductory Physics course this year and I am so grateful that I found you on youtube. I'm really excited to see your upcoming videos in your electrical engineering, advanced mechanics and advanced electricity&magnetism lecture series. I really hope that you continue to develop these lecture series. I appreciate all of the effort you've put in thus far into helping students and I can't wait to see your new videos. Thanks again, Professor Van Biezen.
+Dhanushka Konara Thank you for your feedback. It is very much appreciated.
@@MichelvanBiezen please sir upload next videos of this series
What a wonderful series! Students everywhere will benefit from these lectures.
Where is lecture 4???
I have been going through all the Lagrangian and Hamiltonian lectures and would advise anyone that Michel van Biezen's lectures or so clear that you can learn quickly and are never left wondering whether you have really understood. This is how education should be.
What a clear representation. I would have watched till the end in a single session if the rest of these valuable resources were available. Thank you so much.
We still have to make them.
Man it hurts that you stopped these. These videos are GANGSTER
We plan to continue when we can find the time.
Please finish this series.
Fantastic, these are really fun and interesting topics to learn about and your explanations make them easy to digest. I eagerly await the remainder of the series
sir;
After knocking my head against the wall trying to figure out both Lagrangian and Hamiltonian Mechanics I believe I am finally beginning to understand it. Thank you for your time and your effort in the production of these great videos.
I really hope you continue this series. Your lectures turned Langrangian and Hamiltonian mechanics into a very fun and enjoyable topic for me.
Yes, you are not the only one suggesting it. Thanks for the reminder.
Yes please continue the series sir
the way you explained Hamiltonian was just amazing.....thank you prof.
Greetings Dr. Biezen your videos are awesome, I learn a lot from them... thanks a million :) One advanced math concept which does not contain much resources is tensor calculus and analysis, I would greatly appreciate it if you started a series on this topic (and I'm sure many others would as well). The sources I've seen make it seem extremely complex and don't do any examples for practice, as appose to your teaching style which makes things much easier to understand.
best explanations I've ever heard
Fantastic, I eagerly await another episode in the series
These videos were so helpful.I was starting to see the hope of this difficult subject but now there isn´t more videos
We still need to make more of them. We are currently covering other topics and we'll get back to those as time permits.
Good day professor ,this is my first time on your page and I am so delighted I came across it . what has been an issue for me in my course of study, you made it so easy in few hours.
Thank you for having a different way of teaching. Please
I am unable to go further on the hamiltonian videos which stopped in the 6th lesson out of a possible 18 that was available....kindly help highlight the other hamiltonian videos from 7th lesson to the very last of it
Once again thank you for your sweet ,easy and well detailed lectures
A NEW STUDENT OF YOURS FROM NIGERIA
Hi and welcome to the channel! We have yet to complete the playlist, but will continue to do so when time permits. We have about 500 playlists on this channel with about 100 not yet completed and some additional topics not covered yet. We are systematically working on them.
Please finish this series :) . I realize it takes a lot of time and effort, but it would be really awesome if you finished this project..
Thanks for the reminder. We'll do our best.
I also still wating for this series
Thank you so much , i needed to understand hamiltonian mechanics for my quantum mechanics 1 course, I have learnt both lagrangian and hamiltonian in one day. Thanks you so so much , your explanations are awesome looking forward to watch your qm videos as semester goes on
Glad it helped!
Plzzzzz upload all videos of Hamiltonian Lecture u r very good and it's very kind of u
Very helpful series of videos. Thank you for your contribution!
Hi Professor Van Biezen
Once again i salute you thank you for these lectures and tuition video, they have been a really big help with the physics courses and hope for more.....be ready for more requests
thanks a million once more Professor.
The accent makes studying much more fun!
Thank you so much professor..... It will be very helpful if you please make some videos on canonical transformation....
Simply beautiful. Please add more to the Lagrangian and Hamiltonian videos. Will you be doing them soon? They aren't explained this simply and crisply ANYWHERE. Kudos.
That is the plan for this summer.
Well, if you don't mind may I ask for your suggestion on something ? I am sitting for the GRE Physics this year and the curriculum includes Lagrangian and Hamiltonian mechanics. Which text/material would you suggest that works just fine for basics, without getting too mired in the dirty details?
Typically, you will be asked to solve problems and it is sufficient to know how to apply the theorems. I would look for examples and work through them yourself until you feel comfortable.
'Conquering the Physics GRE' by Yoni Khan and Adam Anderson is the best book to prepare Physics GRE from.. Helped me loads.
+Prashant S Thanks Prashant :)
I felt it to more of a "brush up" your knowledge kind of a book, rather than an introduction. What if you wanted a more basic approach, like Michel's?
Excellent lecture Sir 🙏🙏🙏🙏
Thanks and welcome
I think you should prioritize this advanced series. Because the more 'trivial' stuff can be find all over the internet + it's easy, you can understand it without much help. But no read-able theroretical mechanics book exist!!
We try to balance it out, but you are correct that I should spend more time working on the more advanced material.
@@MichelvanBiezen Thank you for rading my comment :) + I am glad you agre! On the other hand you do a phenomenal job and only you know whats best for you.
Love the videos, be cool if you finished this section
Thank you so much sir.. you make the complicated things so easy to understand...
Thank you very much. If possible please add more examples
Plse upload more videos sir u are the best player in this game.....
Very good concept
Prof, can you tell me what`s the different between m d/dt(dH/dp)+dH/dx=0 and d/dt(dL/dx dot)-dL/dx=0 in Hamiltonian and Lagrangian ? why did you input m in Hamilton ? thank you Prof
Upload more plzzz we r waiting
We are hoping to resume this section this summer
+Michel van Biezen thx
Sir, I am eagerly waiting for you to resume this series. I wanted to do more problems on Hamiltonian.
@@MichelvanBiezen Please please continue this. Intriguing subject crushed by awesome professor.
hi
I dont find lesson 4 of 18 and another next
where are they ?
We haven't made those yet.
Michel van Biezen thanks
please you also made electrodynamic and quantum mechanics advance lessons, ı.e : dirac notation ...,spin...entanglemant please...
Again u rescued me.
Fire = firefighter
And
Your lectures = examfighter.
sir please upload a video on more complex problem in lagrangian and hamiltonian
We plan to do so, when we can find the time.
Thank You Sir......... By the way u r very Good.......
We are still waiting for the 4th video!
Why don't we have to consider that p is a function of dx/dt when we take the derivative of the Hamiltonian w. r. t. x? We would get d/dx(p^2/2m) =( 2*p/2m)*(dp/dx), where dp/dx is not equal to 1.
thank sir .also givelectures on mmp
Hi Sir, I would like to know about how we reach the form of possion bracket form of hamiltonian mechanics
best sir
Hello prof Biezen,
Can u please complete this series? I would really appreciate that help. I need this too much
It is on the list of things to do. Currently we are working on astronomy, algebra, statistics, and advanced E&M.
@@MichelvanBiezen thank u sir 😅 this help would really be appreciated
sir where are more video plz tell me
If you go the home page of this channel, you will see how they are organized. There are also a few videos showing the organization of the videos and how to find them. (There are 7,900 videos on this channel).
When will you continue this series, Mr. Biezen?
The plan is this summer.
Thats great news! I have an exam late august and these three videos have been really helpful.
Plzzz sir complete this series don't left on Halfway
As time permits, we'll continue with this series. (We are both very busy people working multiple jobs besides making these videos)
@@MichelvanBiezen I am seconding the above request. You are the best and you picked a great subject to attack. Good luck with all!
@@MichelvanBiezen sir plzzz that is my humble request to you make this series complete.... I m msc student and this topic is in my syllabus.. I m only understand by your teaching style.. If you don't complete this series... I don't think that I can understand
... What is Hamiltonian mechanics.. So plzzzzzzz complete this.... 🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏
sir, why have stopped this tutorial ?? please continue this tutorial again, please....
We work multiple jobs and make these videos in our "spare" time and we are trying to cover many topics. We'll try to get back to these as time permits.
🇰🇪 Student says thanks.
You are welcome.
Why g is negative? The object is falling towards the gravity then the value of g should be positive not negative.
In this example the vertical axis is defined as positive in the upward direction.
Thank u so much sir
where are the next problems ..post it pls
..
As time permits we'll cover the rest. Currently we are working on calculus videos.
I must sincerely thank you for helping me out with the remedy for this lesson🌸🤍.
Glad the videos were usesful..
Just one video with hamiltonian with frictional force will be good and complete it.
Yes, we need to complete many playlists, including this one. We are working them as fast as we can. We hope to get back to this one as soon as possible.
where is the part 4? is it there?
Not yet. We still need to complete these playlists.
oh no... tomorrow I have the exam :P Your Lectures are great :D Thank you....
cimer albert
I couldn't find next problem, 4/18 😐 can anyone help me?
We haven't completed all of the playlists yet, they are works in progress.
Sir please finish this playlist 😭😭😭😭😭😭 I beg u sir... My exams are coming next month