Physics Students Need to Know These 5 Methods for Differential Equations

I am extremely impressed with the high quality of your talks. It is apparent that you put much thought, and much work, into the script, the examples, the animations, and the presentations. Also, your voice is perfect for narrating videos like this -- expressive, clear, and pleasant to listen to. With this video on differential equations, you have packed a whole semester's worth of learning into a half hour. Your notes are equal to any physics book I've seen, and I appreciate that you provide them for free. I am going to increase my Patreon donation to your channel. Thank you, and best wishes. I'm so grateful for your work.

Hope you like the animations in this one! It's the first video I've made using "manim," the programming library for math animations created by @3blue1brown for making his incredible videos, and further developed by the community of developers who work on the open source project. A huge thank you to them for their hard work!

This channel is going to blow up in the future.

I had a bit of trouble following along at the end of the video, but just because the material was tough for me; the explanation was outstanding. Thank you so much for taking the time and effort to make these really high-quality videos and then sharing them for free!

I cannot express how grateful I am for these videos. Your content has single-handedly changed my outlook towards physics work, and my ability. Your easy to digest videos and worksheets talking about the mathematical rigour of such a broad range of physics is just breath-taking. And it's certainly done a lot for me. Thank you for what you do, Elliot, and I'm excited to see what's in store for the future.

Here before this channel gets millions and millions of subscribers. Keep doing these animations, they are invaluable when you show the concepts. It really helps visualising the physics and the math.

Going over an E&M course, and the boundary conditions cannot be undervalued. Good stuff! Glad to see this content on CZcams!

Very interesting! It was definitely instructive to see all 5 techniques applied to the same example.

Just came across your video. Holy, the best I have ever seen in explaining and summarizing in such concise and clear terms! Thanks!

Would love to see a similar video on partial differential equations :) Thank you for your content very well explained!

You're my favourite physics tutor! I can't tell you how much it was painful looking for information for months and being unable to find one that make you content. But with your videos you've answered to a lot of my questions so I can't tell you sir how grateful I am. Thank you for your clear explanation and representation, and for feeding my curiosity and growing my knowledge, I owe that to you.

I finished my degree about 4 years ago, and this reminded me of so much. What a great presentation! Such a clear delivery with great perspective to relatable concepts

Elliot, that was a beautiful, clear and concise presentation of these important core concepts. The time, effort and intelligence you put into your videos is very much appreciated; you are a natural born teacher.

Awesome work, I wish we had this around when I was studying physics and maths. This really accelerates learning and understanding. I’m envious of current students of physics having such great educational tools available!

I am just starting to learn classical mechanics and this was a great simplified bird’s eye view of all the techniques! Thank you sir 🙏🏼

Found this through CZcams recommended, and I have to say this video is a masterpiece. Instantly subscribed and looking forward to more videos from you

Excellent explanation of these 5 core concepts used to solve differential equations using the Manim animations. I like the whirl pool analogy and animation you used to convey a visual intuition of the Hamiltonian Flow. The matrix exponential construct is interesting. Thanks for sharing your work.

Thank you so much, especially to see the Laplace transform in use was an eye-opener

lovely intro about not only the physics but also for the math and general engineering. Great video!

Elliot, that was excellent and solving same problem different ways important for many different reasons from educational to checking a solution. Thanks. Have been looking at your videos on lagrangian. Again, very enjoyable and very informative. And thanks for access to "notes" .. Your students must really appreciate you.

You are a terrific educator, sir. Thank you. This was superbly constructed.

Bravo! One of the clearest and detailed lesson I have ever seen...

I have studied economics and maths was part of that. This explanation really brought home some concepts I always grappled with in an easy to understand way. Thank you.

I'm so grateful for this video. I've been trying to self-study Differential Equations and kept getting stuck early on. This really helped clarify not only what to do to solve Differential Equations but WHY the methods work. Thank you!

4th & 5th methods are mind blowing especially Hamilton's Flow. Thank you for sharing.

This is absolutely a fantastic explanation of this subject. Many thanks for this

I struggled mightily through this stuff in college. Not only was that before CZcams but it was before electronic calculators. This is so much easier to understand.

I'm glad to find a high quality content explanations about basic physics, it's harder to solve cubersome problems skipping the bacics, thank you from Brazil 🇧🇷

Method 0: use Mathematica

Appreciate your effort and pedagogical skills

Amazing video. I saw this topics before but this video really makes me enjoy what I couldnt while taking these classes...

Great stuff 🙂I know you already did a video on Hamiltonian mechanics, but a deeper explanation of the Legendre transform involved would be nice.

So high quality! Thank you!

I'm so glad that I found your channel I've been looking for such channel that explains physics in english. Tysm for your hard work!

Thank you very much! The video is gorgeous and very clear. For the first time i have connected better my knowldege about differential equations in a way i have never thought! Thank you a lot very much!!!

Hi from Argentina, I am preparing for a very hard physical chemistry final exam in March, and I found this tutorial very valuable. I know a 30 minute video won't replace hours and hours of differential equation solving, but I got to say the laplace transform and hamilton parts are brilliant, because your approach has an integral view, it is perfectly edited and explained, and it shows the beauty and simplicity underlying these concepts. Too often as students we lose track of this global view because we are alienated with calculations and exercises. I found your explanation beautiful. Beauty serves as a path to a deep understanding of anything, that's my opinion. I am subscribing right now!

Splendid! Nicely presented and generous in content for introducing the concepts. You have a new subscriber.

Man this is high quality, easy some of the best physics educational content on youtube. Do you still plan on uploading any problem sets for this video? Thanks a lot for the notes btw

Extremly good video, perfect refresher for some, superb intro to others. Very, very good content. Thank you very much.

Thank you for these wonderful videos ! Are you planning one CFTs?

First time I understand what a Laplace Transform a Hamiltonian are! Very clear explanation. Thank you.

I enjoyed this much more than i could, thank you a lot for your effort, this was very thoughtful, im an absolute fan

Great insight to see everything together... thanks!!!
As engineer I'll keep with Laplace but uncle Hamilton was incredible! Nice...

Great video, certainly some of the best math animations and exigesis I have seen.

Brilliant as usual! 👍 One fun thing about the Ansatz: English-speaking world tends to solve, for example, the harmonic oscillator differential equation as A cos(omega t) + B sin(omega t), which is very sensible in from a maths point of view (you find a basis of two independent vectors in 2D vector space of solutions of this linear second order ODE and you express any solution as its decomposition on this basis). French way - for example - would be lean towards a physicist strategy and write A cos(omega t + phi), since in physics, amplitude and phase are much clearer to interpret than A and B from previous sentence. 😊 You arrive on this second writing in a very natural way with the energy reasoning, though, which is very interesting.

Love the videos! What program do you use to make such videos?

What a nice simple explanation of Hamiltonian mechanics!

What a wealth of knowledge!... thanks for sharing this Doc, this was truly helpful.

Wow! No distractingly unnecessary music over your excellent narrative skills and important information??? I’m exponentially impressed!!!!👍😃

Beautiful and concise. Thanks Elliot.

Very good video! You've definitely won a subscriber here! I can't wait to see what's coming up next! Thank you!

Increadible explanation! I would like to recomended this video to my students later on. Thanks :)

Brilliant lecture! Thank you!

A very excellent presentation. Thanks a lot Elliot👍

This is an incredibly helpful video
Really helped me review some necessary content

What a masterpiece. Please continue with this excellent work

Thank you so much for this video, now it's really clear in my hand. I have just make tremendous progress with this video! Again thank you !

Bro, u are giving away this high level of knowledge FREE!
Man I'd pay the $$ to attend your courses, the content is simply awesome!!

Thanks for the explanation, would love to see the Poisson Equation on gravitational field on next video. It would be great!

Awesome Video. Thank you very much.
What I like to do in class is connecting the hamiltonian flow with the Eigenvalue Problem and find a solution in terms of Basis functions.
Btw: The oscillating Block is by far my favorite example as well 😊

Very clear explanation, bravo!

Amazing stunning mesmerising. Being an electrical and electronics Engineer from the most reputed university in my country I have been struggling to fathom the inner meaning of the differential equations and its solutions. Finally I have got to understand it. Thank you awfully

Thanks for doing this for free. I'm from India, and affording a tutor can be only possible if 10 to 15 kids combined all their savings. So mostly we just learn from one another. But with you, my peers and I could take the further step which only the rich kids had in our highschool.
We owe you forever. Again Thanks.

Thank you very much. Good content. Greatly appreciated. Keep up the good work🎉

You've just earned another subscriber. Brilliant and elegant.

Now I can finally say I am enjoying Physics. Hats off to you!!!

Thankyou so much for this precious knowledge and explanation 🙏🙏 I don't have words to express my gratitude for such an amazing lesson.

You gave me a different type of thinking...so thank you so much

You did a great job and I like how Manin library is used.

Great content👍👍...... wonderful explanation... thankyou very much...loved it

Super interesting video, as always! The quality of these videos is really great. I wonder, the Hamilton equations kind of reminds me of a cross product. Is there a relation there, or am I imagining things?

Keep doing this amazing work 👌👌 You are just different and unique👏👏

This is a great video. Thanks for your nice effort 🙂

Reading Hamiltonian mechanics recently and this video pop up great video

Hi Elliot, many thanks for the video. Kudos!

Thank you. Enjoyed the 30 minute wholeheartedly.

That was sick! Gonna try to master these methods now

Nice examples! It would be interesting to do the same with a more difficult DE, too.

I know little to nothing about Physics, but your narration and visuals were interesting enough to get me to sub
If I meet any Physics students, I'll be sure to recommend this channel

This is super interesting ! Never had such a bird eye view on the way to resolve such a canonical system whilst having studied the harmonic oscillator for 5 years at uni !

This was brilliant! You've gained a new subscriber!

Great work man! Got to learn a lot more today. Especially the Hamiltonian way, It was awesome

This is more than just math tools for the Harmonic oscillator. It's a lot about the way physics is done.
Thx for the video.

Simply genius. Very impressive teacher. God bless you.

Great explanation appreciate it

Brilliant animations and stunning video

Impressive video Elliott! I would add up that the usual solution in Matrix exponential, also in electrical circuits is using laplace transform of the matrix exponential (because it's not necessarily unitary hence Laplace and not Fourier) and then element--wise inverse laplace transform for each element. (With multiplication of b.c.s)

Incredible... This is "Quality Education". Great.... Thank you 🙏🙏🙏😊

Phenomenal! Thanks❤

I vaguely remember doing Laplace Transformation in equations relating to electrical circuits where the equation was in time domain and we have to convert it into frequency domain by applying Laplace Transform.

💓 thanks 🍻 especially for you acknowledging others' contributions

Stunning explanation .

Beautifully explained ❤️❤️❤️

Excellent video, man, thank you :)

Very well done. Thank you.

Absolutely love this.

Hey Elliot, I am so glad I found your channel today (subscribed!) and that you have the time and opportunity to release someone of the finest "math physics" videos on CZcams that are on the same superb level of quality like 3b1b's math videos! Please feel free to dive more into details, but easier said than done I guess as it must take quite a while to create such a high quality video and maybe I am not your main target-audience 🙂

Thanks for this great visualization of the equation. It really brings Physics to the imaginations of our lives.

This was such a brilliant video

Amazing video and very great explanations