03:21

Moment of Inertia: Thin Rod (+Parallel Axis Theorem) | Classical Mechanics

06:12

Strong CP Problem & Axions | Quantum Field Theory

04:15

Properties of the Time Reversal Operator | Quantum Mechanics

04:27

Time Reversal Symmetry Operator | Quantum Mechanics

03:08

Parity in Quantum Mechanics: Position Operator

06:09

How to Normalize a Wave Function (+3 Examples) | Quantum Mechanics

05:10

Hagen-Pouseuille's Law: Fluid Transport in a Tube | Fluid Mechanics

02:23

Torricelli's Law: How Quickly does a Fluid Leak? | Fluid Mechanics

04:12

Bernoulli's Equation: Energy Conservation for Fluids | Fluid Mechanics

02:30

Continuity Equation for Ideal Fluids | Fluid Mechanics

01:54

Pascal's Principle: Hydraulic Press | Fluid Mechanics

02:26

How Much of an Iceberg is Underwater? | Buoyancy & Fluid Mechanics

03:37

Buoyancy and Archimedes' Principle | Fluid Mechanics

03:38

Pressure in Nonmoving Fluids: Hydrostatic Equation | Fluid Mechanics

10:10

Climate and Complex Systems | Physics Nobel Prize 2021

04:20

What's an Inverse Lorentz Transformations in Index Notation? | Special Relativity

03:34

How to Integrate over Grassmann Numbers in Quantum Field Theory? (Berezin Integral)

03:49

Variational Methods | Quantum Mechanics

05:01

Normal Order in Quantum Field Theory | Wick Order | Fermions & Bosons

04:21

The GZK Limit & Cosmic Ray Paradox | Special Relativity

04:30

Rutherford-Bohr Model | Atomic Physics

03:53

Accuracy, Precision & Trueness | Experimental Physics

04:53

Energy in Special Relativity | Massless, Non-Relativistic & Ultra-Relativistic

03:51

Force in Special Relativity | Four-Force

03:06

Momentum in Special Relativity | Four-Momentum

02:11

Acceleration in Special Relativity | Four-Acceleration

04:11

Velocity in Special Relativity | Four-Velocity

03:04

Lorentz Covariance VS Lorentz Invariance: What's the Difference? | Special Relativity

02:49

Deriving the Barometric Formula for Pressure

04:52

Electric Field | Electrostatics & Electromagnetism

03:17

Why do Commuting Operators have a Shared Eigenbasis? | Quantum Mechanics

05:45

Bra-Ket Position Basis & Momentum Basis | Wave Functions in Quantum Mechanics

04:50

Harmonic Oscillator | Classical Mechanics Introduction

03:32

Schrödinger Equation in Momentum Space | Quantum Mechanics

03:07

Horizontal Flow of Ideal Fluids | Deriving the Bernoulli Equation

04:32

Coulomb's Law of Electrostatics | Electromagnetism

03:54

What’s the difference between Half-Life & Mean Lifetime? | Nuclear Physics & Particle Physics

05:09

Nucleon-Nucleon Interactions: The Paris Potential | Nuclear Physics

02:50

Decay Width and Lifetime of Unstable Particles | Quantum Mechanics

04:48

How to Freeze a Quantum State? | Quantum Zeno Effect

03:09

Why is Momentum a Hermitian Operator? | Quantum Mechanics

03:33

Hermitian Operators (Self-Adjoint Operators) | Quantum Mechanics

02:47

Heisenberg Equation of Motion for Operators | Quantum Mechanics

02:24

Time-Independent Schrödinger Equation | Quantum Mechanics

04:02

Adjoint / Daggered Operators in Quantum Mechanics

03:28

Expectation Values in Quantum Mechanics

03:58

What if Earth were a Black Body? | Planetary Equilibrium Temperature | Astrophysics

06:25

Ehrenfest's Theorem | Quantum Mechanics meets Classical Mechanics

05:08

Deriving Heisenberg's Uncertainty Principle from General Uncertainty Relations

03:42

Pure VS Mixed States | Quantum Information

03:40

Time Evolution Operator | Quantum Mechanics

02:24

Parseval-Plancherel Identity | Normalization in Quantum Mechanics

02:18

Why do Hermitian Operators have Real Eigenvalues? | Quantum Mechanics

05:05

Bloch Sphere | Visualizing Qubits and Spin | Quantum Information

07:23

Condon-Shortley Phase Convention | Clebsch-Gordan Gets Real

10:14

Black Holes | Physics Nobel Prize 2020

06:35

Deriving Clebsch–Gordan Coefficients | Angular Momentum in Quantum Mechanics

03:31

Compton Scattering & Compton Wavelength (Derivation)

04:57

Projection Theorem | Special Case of the Wigner–Eckart Theorem

07:51

2 Ways to Derive the Landé g-Factor | Easy → HARD