Embedded Files
19: Rotating Rigid Bodies - Moment of Inertia - Parallel Axis and Perpendicular Axis Theorem - Rotational Kinetic Energy - Fly Wheels - Neutron Stars - Pulsars — 19: Rotating Rigid Bodies - Moment of Inertia - Parallel Axis and Perpendicular Axis Theorem - Rotational Kinetic Energy - Fly Wheels - Neutron Stars - Pulsars
Lecture 1: Measurements, Dimensional Analysis — Lecture 1: Powers of Ten - Units - Dimensions - Measurements - Uncertainties - Dimensional Analysis - Scaling Arguments
Lecture 10: Hooke's Law - Springs - Simple Harmonic Motion - Pendulum - Small Angle Approximation — Lecture 10: Hooke's Law - Springs - Simple Harmonic Motion - Pendulum - Small Angle Approximation
Lecture 11: Magnetic field, Lorentz Force, Torques, Electric Motors (DC), Oscilloscope
Lecture 11: Work - Kinetic Energy - Potential Energy - Conservative Forces - Conservation of Mechanical Energy - Newton's Law of Universal Gravitation — Lecture 11: Work - Kinetic Energy - Potential Energy - Conservative Forces - Conservation of Mechanical Energy - Newton's Law of Universal Gravitation
Lecture 12: Non-Conservative Forces - Resistive Forces - Air Drag - Terminal Velocity — Lecture 12: Non-Conservative Forces - Resistive Forces - Air Drag - Terminal Velocity
Lecture 13: Moving Charges in B-fields, Cyclotron, Synchrotron, Mass Spectrometer, Cloud Chamber
Lecture 13: Potential Energy - Energy Considerations to Derive Simple Harmonic Motion — Lecture 13: Potential Energy - Energy Considerations to Derive Simple Harmonic Motion
Lecture 14: Escape Velocities - Bound and Unbound Orbits - Circular Orbits - Various Forms of Energy - Power — Lecture 14: Escape Velocities - Bound and Unbound Orbits - Circular Orbits - Various Forms of Energy - Power
Lecture 15: Ampere's Law, Solenoids, Revisit the Kelvin Water Dropper
Lecture 15: Momentum - Conservation of Momentum - Center of Mass — Lecture 15: Momentum - Conservation of Momentum - Center of Mass
Lecture 16: Collisions - Elastic and Inelastic - Center of Mass Frame of Reference — Lecture 16: Collisions - Elastic and Inelastic - Center of Mass Frame of Reference
Lecture 17: Impulse - Rockets — Lecture 17: Impulse - Rockets
Lecture 17: Motional EMF, Dynamos, Eddy Currents, Magnetic Braking
Lecture 2: 1D Kinematics - Speed - Velocity - Acceleration — Lecture 2: 1D Kinematics - Speed - Velocity - Acceleration
Lecture 2: Electric Field, Field Lines, Superposition, Inductive Charging, Dipoles, Induced Dipoles
Lecture 20: Angular Momentum - Torques - Conservation of Angular Momentum - Spinning Neutron Stars - Stellar Collapse — Lecture 20: Angular Momentum - Torques - Conservation of Angular Momentum - Spinning Neutron Stars - Stellar Collapse
Lecture 20: Inductance, RL Circuits, Magnetic Field Energy
Lecture 21: Magnetic Materials, Dia-, Para-, and Ferromagnetism, Prize Ceremony of Motor Contest
Lecture 21: Torques - Oscillating Bodies - Hoops — Lecture 21: Torques - Oscillating Bodies - Hoops
Lecture 22: Hysteresis, Electromagnets, Bohr Magneton, Maxwell's Equations, 600 daffodils
Lecture 22: Kepler's Laws - Elliptical Orbits - Satellites - Change of Orbits — Lecture 22: Kepler's Laws - Elliptical Orbits - Satellites - Change of Orbits
Lecture 23: Doppler Effect - Binary Stars - Neutron Stars and Black Holes — Lecture 23: Doppler Effect - Binary Stars - Neutron Stars and Black Holes
Lecture 24: Rolling Motion - Gyroscopes - VERY NON-INTUITIVE — Lecture 24: Rolling Motion - Gyroscopes - VERY NON-INTUITIVE
Lecture 24: Transformers, Car Coils, RC Circuits
Lecture 25: Driven LRC Circuits, Resonance, Metal Detectors
Lecture 25: Static Equilibrium - Stability - Rope Walker — Lecture 25: Static Equilibrium - Stability - Rope Walker
Lecture 26: Elasticity - Young's Modulus — Lecture 26: Elasticity - Young's Modulus
Lecture 26: Traveling Waves, Standing Waves, Musical Instruments
Lecture 27: Fluid Mechanics - Pascal's Principle - Hydrostatics - Atmospheric Pressure - Over Pressure in Lungs and Tires — Lecture 27: Fluid Mechanics - Pascal's Principle - Hydrostatics - Atmospheric Pressure - Over Pressure in Lungs and Tires
Lecture 28: Hydrostatics - Archimedes' Principle - Fluid Dynamics - What Makes Your Boat Float? - Bernoulli's Equation — Lecture 28: Hydrostatics - Archimedes' Principle - Fluid Dynamics - What Makes Your Boat Float? - Bernoulli's Equation
Lecture 3: Electric Flux, Gauss's Law
Lecture 3: Vectors - Dot Products - Cross Products - 3D Kinematics — Lecture 3: Vectors - Dot Products - Cross Products - 3D Kinematics
Lecture 30: Simple Harmonic Oscillations - Energy Considerations - Torsional Pendulum — Lecture 30: Simple Harmonic Oscillations - Energy Considerations - Torsional Pendulum
Lecture 31 - Forced Oscillations - Normal Modes - Resonance - Natural Frequencies - Musical Instruments — Lecture 31 - Forced Oscillations - Normal Modes - Resonance - Natural Frequencies - Musical Instruments
Lecture 32: Heat - Thermal Expansion — Lecture 32: Heat - Thermal Expansion
Lecture 33: Double-Slit Interference, Interferometers
Lecture 33: Kinetic Gas Theory - Ideal Gas Law - Isothermal Atmosphere - Phase Diagrams - Phase Transitions — Lecture 33: Kinetic Gas Theory - Ideal Gas Law - Isothermal Atmosphere - Phase Diagrams - Phase Transitions
Lecture 34: The Wonderful Quantum World - Breakdown of Classical Mechanics — Lecture 34: The Wonderful Quantum World - Breakdown of Classical Mechanics
Lecture 35: Doppler Effect, The Big Bang, Cosmology
Lecture 4: 3D Kinematics - Free Falling Reference Frames — Lecture 4: 3D Kinematics - Free Falling Reference Frames
Lecture 4: Electrostatic Potential, Electric Energy, eV, Conservative Field, Equipotential Surfaces
Lecture 5: Circular Motion - Centrifuges Moving - Reference Frames - Perceived Gravity — Lecture 5: Circular Motion - Centrifuges Moving - Reference Frames - Perceived Gravity
Lecture 6: High-Voltage Breakdown, Lightning, Sparks - St. Elmo's Fire
Lecture 6: Newton's Laws — Lecture 6: Newton's Laws
Lecture 7: Capacitance, Field Energy
Lecture 7: Weight - Perceived Gravity - Weightlessness Free Fall - Zero Gravity in Orbit (misnomer) — Lecture 7: Weight - Perceived Gravity - Weightlessness Free Fall - Zero Gravity in Orbit (misnomer)
Lecture 8: Friction — Lecture 8: Friction
Lecture 8: Polarization, Dielectrics, The Van de Graaff, More on Capacitors
Lecture 9: Currents, Resistivity, Ohm's Law
Phet Simulation: balloons/static electricity
Phet Simulation: battery-resistor circuit
Phet Simulation: battery-voltage
Phet Simulation: Charges and Fields
Phet Simulation: Circuit Construction
Phet Simulation: Collision Lab
Phet Simulation: Electric Field of Dreams
Phet Simulation: Electric hockey
Phet Simulation: Energy Forms and changes
Phet Simulation: Energy Skate Park basics
Phet Simulation: Faraday's Electromagnetic
Phet Simulation: Faraday's Law
Phet Simulation: Forces and Motion
Phet Simulation: forces and motion basics
Phet Simulation: Gravity-force
Phet Simulation: John Travoltage
Phet Simulation: Magnet and Compass
Phet Simulation: Magnets and electromagnets
Phet Simulation: Masses and Springs
Phet Simulation: Maze game — velocity, acceleration, position
Phet Simulation: Moving Man (accel, vel, pos)
Phet Simulation: Projectile Motion
Phet Simulation: radio waves and electromagnetic fields
Phet Simulation: Ramp (forces, motion)
Phet Simulation: Ramp (forces, work)
Phet Simulation: Resistance in wires
Phet Simulation Energy Skate Park
Phet Simulation Lady Bug Motion 2D
Yale Lecture 1: Kinematics, Instantaneous rates of motion, constant acceleration, calculus laws
Yale Lecture 11: Static Equilibrium - no net torque, rigid body dynamics, gyroscope
Yale Lecture 12: Relativity, Time Dilation and contraction, Lorentz transformation
Yale Lecture 14: Space-Time, Energy Mass
Yale Lecture 15: Energy-Momentum four-vector, relativistic collisions
Yale Lecture 16: Taylor Series, Complex numbers, SIMPLE HARMONIC MOTION
Yale Lecture 18: Harmonic motion, waves
Yale Lecture 2: Vectors, Circular & Projectile Motion
Yale Lecture 20: Fluid dynamics
Yale Lecture 21: Thermodynamics
Yale Lecture 22: Boltzmann constant, 1st law of thermodynamics
Yale Lecture 23: 2nd law of thermodynamics
Yale Lecture 24: 2nd Law of thermodynamics, Entropy
Yale Lecture 4: Friction, inclined plane, pulleys, roundabouts, loop the loop
Yale Lecture 5: Work-Energy, Energy Conservation, Calculus Review - small changes
Yale Lecture 8: 2 Body systems, center of mass, Momentum Conservation, Rocket Equation, Collisions
Yale Lecture EM 10: Magnetic fields of solenoids, Lenz's Law, Faraday's law
Yale Lecture EM 11: Power Generator, Mutual and Self-Inductance, Magnetic Field Energy Density
Yale Lecture EM 12: Inductors, Inductive Circuits, LCR circuits driven by alternating source
Yale Lecture EM 13: impedance, Resonance and variable capacitance, displacement current
Yale Lecture EM 14: Wave Equation, Maxwell's Equations, Light as an electromagnetic wave
Yale Lecture EM 15: deriving energy and intensity of an EM wave. relativity and Maxwell's equations
Yale Lecture EM 16: Geometrical Optics, Fermat's principle of least time and its corollaries
Yale Lecture EM 17: Parabolic and spherical mirrors, lenses, focal point, magnifying lenses
Yale Lecture EM 18: Young's Double slit experiment, Diffraction, Interference
Yale Lecture EM 19: Wave-particle duality, uncertainty principle
Yale Lecture EM 2: Electric Fields
Yale Lecture EM 20: Heisenberg's uncertainty principle, probability density function of an electron
Yale Lecture EM 21: particle wave function, particle on a ring
Yale Lecture EM 22: Schroedinger Equation, Quantization of Energy, particle in a box
Yale Lecture EM 23: Quantum Mechanics
Yale Lecture EM 24: The time-dependent Schroedinger equation, stationary states
Yale Lecture EM 25: yet more Quantum mechanics, Energy-Time, more than one particle
Yale Lecture EM 3: Electric Fields of infinite lines and sheets of charge, Gauss's Law
Yale Lecture EM 5: The Electric Potential and Conservation of Energy
Yale Lecture EM 6: Advantages of Electric Potential, Conductors as Equipotentials, Capacitors
Yale Lecture EM 7: Parallel Plate Capacitor, Resistance
Yale Lecture EM 9: Magnetic Fields, Torque on moving charge, Ampere's law
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