MIT Open Course Physics

01- 8.01 Physics I : Classical Mechanics

01-a-Lectures (Chakrabarty & Dourmashkin)
>>https://www.youtube.com/playlist?list=PLUl4u3cNGP61qDex7XslwNJ-xxxEFzMNV

01-b-Lectures (Walter Lewin)
>>https://www.youtube.com/playlist?list=PLyQSN7X0ro203puVhQsmCj9qhlFQ-As8e
>>1-Introduction
2-Lect 1 - Powers of 10, Units, Dimensions, Uncertainties, Scaling Arguments
3-Lect 2 - 1D Kinematics - Speed, Velocity, Acceleration
4-Lect 3 - Vectors - Dot Products - Cross Products - 3D Kinematics
5-Lect 4 - 3D Kinematics, Free Falling Reference Frames
6-Lect 5 - Circular Motion, Centripetal Forces, Perceived Gravity
7-Lect 6 - Newton's Laws
8-Lect 7 - Weight, Weightlessness in Free Fall, Weight in Orbit
9-Lect 8 - Friction
10-Lect 9 - First Exam Review
11-Lect 10 - Hooke's Law, Springs, Pendulums, Simple Harmonic Motion
12-Lect 11 - Work, Kinetic & Potential Energy, Gravitation, Conservative Forces
13-Lect 12 - Air Drag, Resistive Forces, Conservative Forces, Terminal Velocity
14-Lect 13 - Potential Energy, Derive Simple Harmonic Motion using Energy
15-Lect 14 - Escape Velocities, Circular Orbits, Bound and Unbound Orbits, Power
16-Lect 15 - Momentum, Conservation of Momentum, Center of Mass
17-Lect 16 - Elastic & Inelastic Collisions, Center of Mass Frame of Reference
18-Lect 17 - Impulse, Rockets
19-Lect 18 - 2nd Exam Review
20-Lect 19 - Rotating Objects, Moment of Inertia, Rotational KE, Neutron Stars
21-Lect 20 - Angular Momentum, Torques, Conservation of Angular Momentum
22-Lect 21 - Torques, Oscillating Bodies, Physical Pendulums
23-Lect 22 - Kepler's Laws, Elliptical Orbits, Satellites, Orbital Changes
24-Lect 23 - Doppler Effect, Binary Stars, Neutron Stars & Black Holes
25-Lect 24 - Rolling Motion, Gyroscopes, VERY NON-INTUITIVE
26-Lect 25 - Static Equilibrium, Stability, Rope Warker
27-Lect 26 - Elasticity, Young's Modulus
28-Lect 27 - Fluid Mechanics, Hydrostatics, Pascal's Principle, Atmosph. Pressure
29-Lect 28 - Hydrostatics, Archimedes' Principle, Bernoulli's Equation
30-Lect 29 - Third Exam Review
31-Lect 30 - Simple Harmonic Motion, Energy Considerations, Torsional Pendulum
32-Lect 31 - Forced Oscillations, Normal Modes, Resonances, Musical Instruments
33-Lect 32 - Heat, Thermal Expansion
34-Lect 33 - Kinetic Gas Theory, Ideal Gas Law, Phase Transitions
35-Lect 34 - The Wonderful Quantum World, Breakdown of Classical Mechanics
36-Lect 35 - Farewell Special, My Early Days in Astrophysics, Huge Balloons


02-8.02 Physics II: Electricity and Magnetism

02-a-Lectures(Walter Lewin)
>>https://www.youtube.com/playlist?list=PLyQSN7X0ro2314mKyUiOILaOC2hk6Pc3j
>>1-Introduction
2-Lect 1 - Electric Charges and Forces - Coulomb's Law - Polarization
3-Lect 2 - Electric Field Lines, Superposition, Inductive Charging, Induced Dipoles
4-Lect 3 - Electric Flux, Gauss' Law, Examples
5-Lect 4 - Electrostatic Potential, Electric Energy, Equipotential Surfaces
6-Lect 5 - E= - grad V, Conductors, Electrostatic Shielding (Faraday Cage)
7-Lect 6 - High-voltage Breakdown, Lightning, Sparks, St-Elmo's Fire
8-Lect 7 - Capacitance, Electric Field Energy
9-Lect 8 - Polarization, Dielectrics, Van de Graaff Generator, Capacitors
10-Lect 9 - Electric Currents, Resistivity, Conductivity, Ohm's Law
11-Lect 10 - Batteries, Power, Kirchhoff's Rules, Circuits, Kelvin Water Dropper
12-Lect 11 - Magnetic Fields, Lorentz Force, Torques, Electric Motors (DC)
13-Lect 12 - First Exam Review
14-Lect 13 - Moving charges in B-fields, Cyclotrons, Mass Spectrometers, LHC
15-Lect 14 - Biot-Savart, div B = 0, High-voltage Power Lines, Leyden Jar revisited
16-Lect 15 - Ampere's Law, Solenoids, Kelvin Water Dropper (revisited)
17-Lect 16 - Electromagnetic Induction, Faraday's Law, Lenz Law, SUPER DEMO
18-Lect 17 - Motional EMF, Dynamos, Eddy Currents, Magnetic Braking
19-Lect 18 - Displacement Current, Synchronous Motors, Explanation Secret Top
20-Lect 19 - Magnetic Levitation, Human ❤, Superconductivity, Aurora Borealis
21-Lect 20 - Inductance, RL Circuits, Magnetic Field Energy
22-Lect 21 - Magnetic Materials, Dia- Para- & Ferromagnetism
23-Lect 22 - Maxwell's Equations - 600 Daffodil Ceremony
24-Lect 23 - Second Exam Review
25-Lect 24 - Transformers, Car Coils, RC Circuits
26-Lect 25 - Driven LRC Circuits, Metal Detectors
27-Lect 26 Traveling Waves, Standing Waves, Musical Instruments
28-Lect 27 - Destructive Resonance, Electromagnetic Waves, Speed of Light
29-Lect 28 - Poynting Vector, Oscillating Charges, Polarization, Radiation Pressure
30-Lect 29 - Snell's Law, Index of Refraction, Huygen's Principle, Illusion of Color
31-Lect 30 - Polarizers, Malus' Law, Light Scattering, Blue Skies, Red Sunsets
32-Lect 31 - Rainbows, Fog Bows, Haloes, Glories, Sun Dogs
33-Lect 32 - Third Exam Review
34-Lect 33 - Double-slit Interference, Interferometers
35-Lect 34 - Diffraction, Gratings, Resolving Power, Angular Resolution
36-Lect 35 - Doppler Effect, Big Bang, Cosmology
37-Lect 36 - Farewell Special, My Early Days in Astrophysics, Huge Balloons
38-Kirchhoff's Loop Rule Is For The Birds
39-Is Kirchhoff's Loop Rule for the Birds?
40-Believing and Science are Very Different


03-8.03 Physics III: Vibrations and Waves

03-a-Textbook: Georgi, Howard. The Physics of Waves. Benjamin Cummings, 1992. >> https://ocw.mit.edu/courses/physics/8-03sc-physics-iii-vibrations-and-waves-fall-2016/syllabus/MIT8_03SCF16_Textbook.pdf

03-b-Problem Solving Videos(Wit Busza)
>> https://www.youtube.com/playlist?list=PLyQSN7X0ro23AZkDaZF8EoTb6toYYkp6W
>> https://archive.org/details/MIT8.03SCF12
>> 1. Simple Harmonic Motion & Problem Solving Introduction
2. Harmonic Oscillators with Damping
3. Driven Harmonic Oscillators
4. Coupled Oscillators without Damping
5. Traveling Waves without Damping
6. Standing Waves Part I
7. Standing Waves Part II
8. Electromagnetic Waves in a Vacuum
9. Accelerated Charges Radiating Electromagnetic Waves
10. Interference of Electromagnetic Waves

03-c-8.03 Lectures (Walter Lewin)
>> https://archive.org/details/MIT8.03F04
>> https://www.youtube.com/playlist?list=PLyQSN7X0ro22WeXM2QCKJm2NP_xHpGV89
>> 1-8.03 Introduction - Walter Lewin
2-Periodic Phenomena, SHO, Complex Notation, Physical Pendulum
3-Beats, Damped Free Oscillations, Quality Q
4-Damped Forced Oscillations, Destructive Resonance
5-Forced Oscillations, Power, Resonance, Transient Solutions
6-Coupled Oscillators, Resonance Frequencies, Superposition of Modes
7-Coupled Oscillators, Steady State & Transient Solutions, Intial Conditions
8-Many Coupled Oscillators, Wave Equation, Transverse Traveling Waves
9-Traveling Waves, Standing Waves, Longitudinal Waves, Energy in Waves
10-Sound Cavities, Resonance Frequencies, Musical Instruments
11-First Exam Review, Breaking Wine Glass with Sound
12-Fourier Analysis, Time Evolution of Pulses on Strings
13-Dispersion, Phase Velocity, Group Velocity
14-Electromagnetic Waves, Solutions to Maxwell's Equations, Polarization
15-Accelerated Charges, Poynting Vector, Power, Rayleigh Scattering
16-Doppler Effect, Big Bang Cosmology, Neutron Stars & Black Holes
17-Standing EM Waves, Reflection, Transmission Lines, Rad. Pressure
18-Wave Guides, Resonance Cavities, Great Sound Demo in Closed Box
19-Index of Refraction, Reflection, Fresnel Equations, Brewster Angle
20-Second Exam Review
21-Interference, Huygen's Principle, Thin Films, Double Slit Demo
22-Diffraction, Gratings, Spectral & Angular Resolution, Human Eye
23-Rainbows, Coronae, Glories, Glass Bow, Great Demos
24-Farewell Special, My Early Years at MIT, Balloon Astrophysics

03-d-Lectures (Yen Jie Lee)
>> https://www.youtube.com/playlist?list=PLUl4u3cNGP61R5sPDPKVfcFlu95wSs2Kx
>> 1-8.03SC Physics III: Vibrations and Waves Introduction
2-1. Periodic Oscillations, Harmonic Oscillators
3-2. Damped Free Oscillators
4-3. Driven Oscillators, Transient Phenomena, Resonance
5-4. Coupled Oscillators, Normal Modes
6-5. Beat Phenomena
7-6. Driven Oscillators, Resonance
8-7. Symmetry, Infinite Number of Coupled Oscillators
9-8. Translation Symmetry
10-9. Wave Equation, Standing Waves, Fourier Series
11-10. Traveling Waves
12-11. Sound Waves
13-12. Maxwell's Equation, Electromagnetic Waves
14-13. Dispersive Medium, Phase Velocity, Group Velocity
15-14. Fourier Transform, AM Radio
16-15. Uncertainty Principle, 2D Waves
17-16. 2D and 3D waves, Snell's Law
18-17. Polarization, Polarizer
19-18. Wave Plates, Radiation
20-19. Waves in Medium
21-20. Interference, Soap Bubble
22-21. Phased Radar, Single Electron Interference
23-22. Diffraction, Resolution
24-23. Quantum Waves and Gravitational Waves
25-Exam Review
26-Students' Common Misconceptions
27-Making Time for Individual Questions in a Large Lecture
28-Using Humor to Enhance Learning
29-Using Demonstrations in Class
30-Behind-the-Scenes Demo Prep
31-Taking a Vote to Engage Learners
32-Combining Chalk Talks and Slides in a Complementary Way
33-Using Questionnaires to Customize Course Content
34-The Role of Recitations
35-Course Iteration: Incorporating Theoretical Content and Demonstrations
36-Tips for Physics Educators

03-e-Lecture Notes&Problem Sets
-- Part I: Mechanical Vibrations and Waves
----Lecture 1: Periodic Oscillations, Harmonic Oscillators
>>https://www.youtube.com/watch?v=4ysFC9vd3GE
--Lecture Notes
>>Typed Notes for Lecture 1 (PDF) https://ocw.mit.edu/courses/physics/8-03sc-physics-iii-vibrations-and-waves-fall-2016/part-i-mechanical-vibrations-and-waves/lecture-1/MIT8_03SCF16_Lec1.pdf
>>Handwritten Notes for Lecture 1 (PDF - 2.2MB) https://ocw.mit.edu/courses/physics/8-03sc-physics-iii-vibrations-and-waves-fall-2016/part-i-mechanical-vibrations-and-waves/lecture-1/MIT8_03SCF16_hw_Lec1.pdf
--Textbook Reading
>>Chapter 1: Harmonic Oscillation (PDF - 1.4MB) https://ocw.mit.edu/courses/physics/8-03sc-physics-iii-vibrations-and-waves-fall-2016/syllabus/MIT8_03SCF16_Text_Ch1.pdf
--Problem Set
>>Problem Set 1 (PDF) https://ocw.mit.edu/courses/physics/8-03sc-physics-iii-vibrations-and-waves-fall-2016/part-i-mechanical-vibrations-and-waves/lecture-1/MIT8_03SCF16_ProblemSet1.pdf
--Problem Solving Help Video*
>>Simple Harmonic Motion and Introduction to Problem Solving https://www.youtube.com/watch?v=YbFgNsM6r44
--Video Caption Text https://ocw.mit.edu/resources/res-8-005-vibrations-and-waves-problem-solving-fall-2012/problem-solving-videos/simple-harmonic-motion-and-introduction-to-problem-solving-1/simple-harmonic-motion-and-introduction-to-problem-solving/YbFgNsM6r44.pdf
----Lecture 2: Damped Free Oscillators
----Lecture 3: Driven Oscillators, Transient Phenomena, Resonance
----Lecture 4: Coupled Oscillators, Normal Modes
----Lecture 5: Beat Phenomena
----Lecture 6: Driven Oscillators, Resonance
----Lecture 7: Symmetry, Infinite Number of Coupled Oscillators
----Lecture 8: Translation Symmetry
----Lecture 9: Wave Equation, Standing Waves, Fourier Series
----Exam 1
----Lecture 10: Traveling Waves
----Lecture 11: Sound Waves
--Part II: Electromagnetic Waves
----Lecture 12: Maxwell's Equation, Electromagnetic Waves
----Lecture 13: Dispersive Medium, Phase Velocity, Group Velocity
----Lecture 14: Fourier Transform, AM Radio
----Lecture 15: Uncertainty Principle, 2D Waves
----Lecture 16: 2D and 3D Waves, Snell's Law
--Part III: Optics
----Lecture 17: Polarization, Polarizer
----Exam 2
----Lecture 18: Wave Plates, Radiation
----Lecture 19: Waves in Medium
----Lecture 20: Interference, Soap Bubble
----Lecture 21: Phased Radar, Single Electron Interference
----Lecture 22: Diffraction, Resolution
----Lecture 23: Quantum Waves and Gravitational Waves
----Lecture 24: Review for Final Exam

04-Quantum Physics I
05-Quantum Physics II
06-Quantum Physics III
07-Electromagnetism II
08-Classical Mechanics II
09-Classical Mechanics III
10-Electromagnetic Theory