- Видео 57
- Просмотров 9 286
Noah Charles
Добавлен 8 сен 2021
Classical Mechanics Fall 2024 Lecture 10: Orbital Mechanics
In this lecture we cover two body central force problems, leading us to explore orbital mechanics and Kepler's Laws
Просмотров: 254
Видео
Classical Mechanics Fall 2024 Lecture 9: Lagrangian Mechanics Part II
Просмотров 75День назад
In this video we continue our study of Lagrangian mechanics, dealing with generalized coordinates, ignorable coordinates, and Lagrange multipliers.
Classical Mechanics Fall 2024 Lecture 8: Lagrangian Mechanics Part I
Просмотров 232Месяц назад
In this video, we introduce the Lagrangian formulation of classical mechanics, building on the machinery we learned in the last video on calculus of variations. We treat a bunch of examples.
Classical Mechanics Fall 2024 Lecture 7: Calculus of Variations
Просмотров 546Месяц назад
In this lecture, we discuss the basic principles of functionals and calculus of variations; we then go over several examples.
Classical Mechanics Fall 2024 Lecture 6: Spherical Coordinates and Central Forces
Просмотров 217Месяц назад
In this video, we derive the spherical unit vectors and the kinematic quantities in spherical coordinates. We then apply the formalism to prove a result about central forces.
Classical Mechanics Fall 2024 Lecture 5: Energy
Просмотров 438Месяц назад
In this lecture, we discuss kinetic and potential energy and consider using energy to find trajectories in one variable systems.
Classical Mechanics Fall 2024 Lecture 4.2: Angular Momentum
Просмотров 391Месяц назад
In this lecture we cover angular momentum and examine Kepler's Second Law of orbital motion. Reuploaded to correct editing error in previous version.
Classical Mechanics Fall 2024 Lecture 4.1: Momentum
Просмотров 2,2 тыс.Месяц назад
In this lecture we cover momentum, restate Newton's Laws, and use conservation of momentum to derive the rocket equation.
Classical Mechanics Fall 2024 Lecture 3: Example Systems
Просмотров 1232 месяца назад
In this lecture we continue to practice solving Newton's Second Law in some example systems using the mathematical tools we've been developing. The examples we cover are projectile systems with air resistance and charges moving in uniform magnetic fields.
Classical Mechanics Fall 2024 Lecture 2.2: Non-dimensionalization
Просмотров 1692 месяца назад
In the second part of Lecture 2, we discuss non-dimensionalization and dimensional analysis.
Classical Mechanics Fall 2024 Lecture 2.1: Polar Coordinates
Просмотров 1,3 тыс.2 месяца назад
Lecture 2.1 of this series covers polar coordinates and unit vectors.
Classical Mechanics Fall 2024 Lecture 1: Newton's Laws
Просмотров 6472 месяца назад
In this lecture, we cover Newton's laws of motion and the concept of reference frames. Sources on Newton and the Principia: [1] De Gandt, F. (2014). Force and geometry in Newton's Principia (Vol. 312). Princeton University Press. [2] Cohen, I. B., & Whitman, A. (1999). The Principia. Newton. A New translation. [3] Buchwald, J. Z., & Fox, R. (Eds.). (2013). The Oxford handbook of the history of ...
Thermal Physics Fall 2022: Lecture 21.1 (Corrected)
Просмотров 522 года назад
Introduction to the Microcanonical Ensemble. Reuploaded to correct editing error.
Thermal Physics Fall 2022: Lecture 22.3
Просмотров 1172 года назад
Many-Particle Systems in the Canonical Ensemble
Thermal Physics Fall 2022: Lecture 22.2
Просмотров 912 года назад
One Particle Systems in the Canonical Ensemble
Thermal Physics Fall 2022: Lecture 22.1
Просмотров 712 года назад
Thermal Physics Fall 2022: Lecture 22.1
Thermal Physics Fall 2022: Lecture 21.3
Просмотров 372 года назад
Thermal Physics Fall 2022: Lecture 21.3
Thermal Physics Fall 2022: Lecture 21.2
Просмотров 1102 года назад
Thermal Physics Fall 2022: Lecture 21.2
Thermal Physics Fall 2022: Lecture 21.1
Просмотров 522 года назад
Thermal Physics Fall 2022: Lecture 21.1
Thermal Physics Fall 2022: Lecture 15.2
Просмотров 202 года назад
Thermal Physics Fall 2022: Lecture 15.2
Thermal Physics Fall 2022: Lecture 15.1
Просмотров 572 года назад
Thermal Physics Fall 2022: Lecture 15.1
Thermal Physics Fall 2022: Lecture 14.3
Просмотров 402 года назад
Thermal Physics Fall 2022: Lecture 14.3
Thermal Physics Fall 2022: Lecture 14.2
Просмотров 1262 года назад
Thermal Physics Fall 2022: Lecture 14.2
Thermal Physics Fall 2022: Lecture 14.1
Просмотров 492 года назад
Thermal Physics Fall 2022: Lecture 14.1
Thermal Physics Fall 2022: Lecture 12.3
Просмотров 282 года назад
Thermal Physics Fall 2022: Lecture 12.3
Thermal Physics Fall 2022: Lecture 12.2
Просмотров 582 года назад
Thermal Physics Fall 2022: Lecture 12.2
Thermal Physics Fall 2022: Lecture 12.1
Просмотров 412 года назад
Thermal Physics Fall 2022: Lecture 12.1
Thermal Physics Fall 2022: Supplemental 11.4
Просмотров 202 года назад
Thermal Physics Fall 2022: Supplemental 11.4
Thermal Physics Fall 2022: Lecture 11.3
Просмотров 342 года назад
Thermal Physics Fall 2022: Lecture 11.3
Thermal Physics Fall 2022: Lecture 11.2
Просмотров 592 года назад
Thermal Physics Fall 2022: Lecture 11.2
Thank you for making such great lectures accessible to all!
I wish this video was available last year when I struggled with classical mechanics, the explanation is clear and the video is well made, thank you very much.
Hy I'm from India
I'm glad to have found you! Great material sir. How many lectures do you estimate you'll have overall for this mechanics playlist?
The plan is 15 "lectures" with some split into two videos. Not sure the exact number.
@@noahcharles7368 Nice. I'm asking because I want to structure some time (a couple of weeks) around properly working through the lectures, but that's when they're more or less complete. Right now I'm just watching them as they come out.
a response video: ruclips.net/video/jMn_jm5Zp5Y/видео.html
They're cooking me over on anti-kinetic energy RUclips
@@noahcharles7368 I guess it's no surprise but I don't even understand your comment. Can you answer a simple question... Did momentum or kinetic energy land human beings on the moon? I'm talking about the forces used to get them there and gracefully merge with the surface.
@@inmendham iirc it was rockets
@@noahcharles7368 More silly evasion... Ask a physicist a simple question get nonsense as an answer. One more try, if a 5 mass going 10 velocity is moving to the right, and a 10 mass going 5 velocity is moving to the left and they are tied together by a non-stretchable rope, which one wins the tug of war?
@@inmendhamThe only coward here, is you! It's a well documented and evidenced FACT!👍😊
It's surprisingly easy to write backwards like that.
Thanks for the amazing lecture👌👌♥️ Pls countinue
I cant believe how youtube has given everyone in the world an opportunity to attend these fantastic lectures Lots of respect and appreciation❤
Your writing made me surprised 😮
Hi Noah. I've only looked at the first 2 lessons of this thermal course, and I'm impressed. The detail, clarity, history... its seems to be all there, taught in a straight forward way! Fantastic. Thank you.
Thank you! I hope you enjoy the course.
@@noahcharles7368 Yes... I do enjoy learning and reviewing stuff I've learnt when I was a student. Are you a lecturer or teacher?
@@edwardhunia6315 My title is "Scholar in Residence" which is somewhat analogous to a visiting assistant professor position.
@@archilochusvitruve5952 awesome! What was your major? And are you cuurently working on any papers?
@@archilochusvitruve5952 Look, I was only asking because I was wondering if you've got time to look at an obviated driver of climate change. Let me pose this question: does the following problem interest or rais questions for you? The atmosphere and troposphere is in hydrostatic equilibrium. It can be shown using the US Standard Atmosphere 1976 assumptions, its given density equation (42), and an average mean temperature that also accounts for the diurnal and nocturnal variance, that all emissions that escape tropospheric capture must be displaced into outer space (Archimedes principle). Taking the orbit of the Earth around the sun, and applying energy conservation to the Lagrangian of two body orbital solution of the sun and Earth, we discover the radius must decrease to conserve energy.
Loved it! Here's my reaction: ruclips.net/video/ULhZbCtNcGw/видео.html Physics Teachers Are Awesome!
Thanks so much for the review! Gotta go recheck the focus...