• PHY10: Concepts in Physics
    • Wk 1: Scientific Method
      • Airtrack Demos
    • Wk 2: Newton's Laws
    • Wk 3: Energy
      • Car Jump
    • Wk 4: Second Law of Thermodynamics
      • Crush the Can
      • Boyle's Law
    • Wk 5: Electricity and Magnetism
      • Rods and Fur
      • Van de Graaff
      • Jacob's Ladder
    • Wk 6: Electromagnetic Waves
      • 2D Magnetic Field Viewer
      • Magnetic Damping-Swinging Plates
      • AC Coil - Induced Currents
      • Hoot Tube
    • Wk 7: The Atom
      • Slinky and Very Long Spring
      • Chladni Plates
      • Interference Plates
      • Tuning Forks
      • Acoustic Interference
      • Acoustic Beats
      • Doppler Whistle
    • Wk 8: Quantum Theory
    • Wk 9: Applications - Chemistry and Materials
    • Wk 10: Applications - Nuclear Physics and Stars
      • Bike Wheel Gyro
      • Spin Stool
      • Geiger Counter and samples
  • PHY11A: Survey of Physics
    • Wk 1: Displacement, Velocity, Acceleration, Gravity
      • Airtrack Demos
    • Wk 2: Motion in 2 Dimensions
      • Ball Drop
      • Ballistic Cart
      • Simultaneous Fall
    • Wk 3: Newton's Laws of Motion
      • Blackboard Mechanics Kit
      • Inclined Plane
    • Wk 4: Rotational Motion
    • Wk 5: Gravitation
    • Wk 6: Work and Energy
      • Ballistic Pendulum
      • Car Jump
    • Wk 7: Conservation of Energy
      • Ballistic Pendulum
      • Car Jump
    • Wk 8: Momentum
      • Airtrack Demos
      • Newton's Cradle
      • Tennis and Basketball
    • Wk 9: Special Relativity
    • Wk 10: Implications of Relativity
  • PHY1A: Mechanics
    • Wk 1: Intro, Kinematics; Speed & Velocity
      • Airtrack Demos
    • Wk 2: Kinematics; Acceleration
      • Ball Drop
      • Ballistic Cart
      • Simultaneous Fall
    • Wk 3: Newton's Three Laws
      • Blackboard Mechanics Kit
      • Inclined Plane
    • Wk 4: Centripetal Force and Gravity
    • Wk 5: Energy
      • Ballistic Pendulum
      • Car Jump
    • Wk 6: Momentum and Collisions
      • Airtrack Demos
      • Newton's Cradle
      • Tennis and Basketball
    • Wk 7: Rotational Motion
      • Center of Mass
      • Leaning Tower
      • Rolling Uphill Illusion
      • Bike Wheel Gyro
      • Spin Stool
      • Rolling hoop, disk, spheres
    • Wk 8: Solids, Liquids, and Gases
      • Crush the Can
      • Magdeburg Sphere
      • Cartesian Diver
      • Venturi Tube
      • Floating Ball
    • Wk 9: Elasticity & Oscillations
      • Hooke's Law
    • Wk 10: Waves and Sound
      • Wave Machine
      • Slinky and Very Long Spring
      • Hoot Tube
      • Acoustic Interference
      • Acoustic Beats
      • Doppler Whistle
  • PHY1B: Electricty, Magnetism, and Thermodynamics
    • Wk 1: Temperature
      • Crush the Can
      • Ball and Ring
      • Bimetallic Strip
    • Wk 2: Heat
    • Wk 3: Thermodynamics
      • Thermoelectric Convertor
      • Fire Syringe
      • Sterling Engine
    • Wk 4: Electrostatics
      • Rods and Fur
      • Van de Graaff
      • Electroscope
    • Wk 5: Potential and Capacitance
      • Van de Graaff
      • Jacob's Ladder
      • Leyden Jar Capacitor
      • Big Capacitor
    • Wk 6: Direct Current
    • Wk 7: DC Circuits
      • Ohm's Law
      • RC Time Constant
    • Wk 8: Magnetism
      • 2D Magnetic Field Viewer
      • 3D Magnetic Field Viewer
      • Ferromagnetic Fluid
      • E x B
    • Wk 9: Induction
      • Magnetic Damping-Swinging Plates
      • AC Coil - Induced Currents
    • Wk 10: Alternating Current
      • Motor and Generator
  • PHY1C: Diffusion, Radiation, and Modern Physics
    • Wk 1: Radiant Energy
      • Wave Machine
      • Slinky and Very Long Spring
    • Wk 2: Propagation of Light: Scattering
      • Rainbow Projector
      • Reflection and Refraction Tank
      • The Mirage
      • Light Pipe
      • Image of Light Bulb
    • Wk 3: Geometrical Optics
      • The Mirage
      • Image of Light Bulb
    • Wk 4: Physical Optics
      • Polaroid sheets
      • Photoelastic Stress
      • Newton's Rings
      • Laser Interference and Diffration
      • Spectra Tube and Diffraction Grating
      • Ripple Tank
    • Wk 5: Special Relativity
    • Wk 6: Modern Physics
    • Wk 7: Quantum Theory
    • Wk 8: Quantum Mechanics
    • Wk 9: Nuclear Physics
      • Geiger Counter and samples
    • Wk 10: High Energy Physics
  • PHY2A: Mechanics
    • Wk 1: Measurement, Vectors, Linear Motion
      • Airtrack Demos
      • Ball Drop
    • Wk 2: Motion in Two and Three Dimensions
      • Ballistic Cart
      • Simultaneous Fall
    • Wk 3: Newtonian Dynamics
      • Blackboard Mechanics Kit
    • Wk 4: Newtonian Dynamics, Work and Energy
      • Inclined Plane
      • Car Jump
    • Wk 5: Work and Energy, Conservation of Energy
      • Ballistic Pendulum
    • Wk 6: Systems of Particles, Collisions
      • Newton's Cradle
      • Tennis and Basketball
      • Center of Mass
      • Leaning Tower
      • Rolling Uphill Illusion
    • Wk 7: Rotational Motion & Dynamics
      • Bike Wheel Gyro
      • Spin Stool
      • Rolling hoop, disk, spheres
    • Wk 8: Rotational Dynamics, Equilibruim
      • Bike Wheel Gyro
      • Spin Stool
    • Wk 9: Oscillations
      • Hooke's Law
    • Wk 10: Gravitation
  • PHY2B: Electricity and Magnetism
    • Wk 1: Electric Charge and Field
      • Rods and Fur
      • Van de Graaff
      • Electroscope
    • Wk 2: Gauss's Law
    • Wk 3: Electric Potential and Capacitance
      • Jacob's Ladder
      • Leyden Jar Capacitor
      • Big Capacitor
      • E x B
    • Wk 4: Current and Resistance
    • Wk 5: Circuits
      • Ohm's Law
      • RC Time Constant
    • Wk 6: Magnetic Fields, Currents
      • 2D Magnetic Field Viewer
      • 3D Magnetic Field Viewer
      • Ferromagnetic Fluid
      • E x B
    • Wk 7: Faraday's Law
      • Magnetic Damping-Swinging Plates
      • AC Coil - Induced Currents
    • Wk 8: Alternating Currents
      • Motor and Generator
      • Curie Point
    • Wk 9: Maxwell's Equations
      • Wave Machine
      • Slinky and Very Long Spring
    • Wk 10: Electromagnetic Waves
      • Spectra Tube and Diffraction Grating
  • PHY2C: Fluids, Waves, Thermodynamics, and Optics
    • Wk 1: Fluids
      • Equilibrium Tubes
      • Crush the Can
      • Magdeburg Sphere
      • Cartesian Diver
      • Venturi Tube
      • Floating Ball
    • Wk 2: Temperature
      • Ball and Ring
      • Bimetallic Strip
    • Wk 3: Kinetic Theory
      • Thermoelectric Convertor
      • Radiometer
      • Boyle's Law
    • Wk 4: Entropy and the Second Law
      • Pressure-Volume-Temperature Models
      • Sterling Engine
    • Wk 5: Waves
      • Wave Machine
      • Slinky and Very Long Spring
      • Chladni Plates
    • Wk 6: Waves
      • Fourier Synthesizer
      • Interference Plates
      • Hoot Tube
      • Tuning Forks
      • Acoustic Interference
      • Acoustic Beats
      • Doppler Whistle
      • dB Meter
    • Wk 7: Electromagnetic Waves
      • Jacob's Ladder
      • Light Pipe
      • Polaroid sheets
      • Microwave Optics
      • Photoelastic Stress
    • Wk 8: Images
      • Reflection and Refraction Tank
      • The Mirage
      • Light Pipe
      • Image of Light Bulb
    • Wk 9: Interference
      • Newton's Rings
      • Laser Interference and Diffration
      • Ripple Tank
    • Wk 10: Diffraction
      • Laser Interference and Diffration
      • Spectra Tube and Diffraction Grating
  • PHY2D: Relativeity and Quantum Physics
    • No demos found.
  • PHY4A: Mechanics
    • Wk 1: Measurement, Estimation, 1D Kinematics
      • Airtrack Demos
      • Ball Drop
    • Wk 2: Vectors, 2D Kinematics
      • Ballistic Cart
      • Simultaneous Fall
    • Wk 3: Dynamics and Newton's Laws
      • Blackboard Mechanics Kit
    • Wk 4: Newton's Laws
      • Inclined Plane
      • Car Jump
    • Wk 5: Gravity, Work and Energy
      • Ballistic Pendulum
    • Wk 6: Conservation of Energy
    • Wk 7: Momentum and Collisions
      • Newton's Cradle
      • Tennis and Basketball
      • Center of Mass
      • Leaning Tower
      • Rolling Uphill Illusion
    • Wk 8: Rotations about fixed axes
      • Bike Wheel Gyro
      • Spin Stool
      • Rolling hoop, disk, spheres
    • Wk 9: General Rotations
      • Bike Wheel Gyro
      • Spin Stool
    • Wk 10: Statics
  • PHY4B: Mechanics, Fluids, Waves, and Heat
    • Wk 1: Fluids
      • Crush the Can
      • Venturi Tube
      • Floating Ball
    • Wk 2: Oscillations
      • Wilberforce Pendulum
      • Chladni Plates
    • Wk 3: Wave Motion
      • Wave Machine
      • Fourier Synthesizer
    • Wk 4: Wave Motion and Sound
      • Chladni Plates
      • Hoot Tube
      • Tuning Forks
      • Acoustic Interference
      • Acoustic Beats
      • Doppler Whistle
      • dB Meter
    • Wk 5: Sound
    • Wk 6: Temperature; Ideal Gas Law
    • Wk 7: Kinetic Theory of Gasses; Real Gasses
    • Wk 8: Heat; First Law of Thermodynamics
    • Wk 9: Second Law of Thermodynamics
    • Wk 10: Statistical View of Entropy
  • PHY4C: Electricity and Magnetism
    • Wk 1: Electric Charge and Field
      • Rods and Fur
      • Van de Graaff
      • Electroscope
    • Wk 2: Gauss's Law
    • Wk 3: Electric Potential and Capacitance
      • Leyden Jar Capacitor
      • E x B
    • Wk 4: Current and Resistance
    • Wk 5: Circuits
      • Ohm's Law
      • RC Time Constant
    • Wk 6: Magnetic Fields, Currents
      • 2D Magnetic Field Viewer
      • 3D Magnetic Field Viewer
      • Ferromagnetic Fluid
      • E x B
    • Wk 7: Faraday's Law
      • Magnetic Damping-Swinging Plates
      • AC Coil - Induced Currents
    • Wk 8: Alternating Currents
      • Motor and Generator
      • Curie Point
    • Wk 9: Maxwell's Equations
      • Wave Machine
      • Slinky and Very Long Spring
    • Wk 10: Electromagnetic Waves
      • Spectra Tube and Diffraction Grating
  • PHY4D: Electromagnetic Waves, Optics, and Special Relativity
    • Wk 1: Maxwell's Equations and Electromagnetic Waves
      • Wave Machine
      • Slinky and Very Long Spring
    • Wk 2: Reflection
      • The Mirage
      • Light Pipe
      • Image of Light Bulb
    • Wk 3: Refraction, Lenses, and Optical Instruments
      • Rainbow Projector
      • Reflection and Refraction Tank
    • Wk 4: Lenses and Optical Instruments
    • Wk 5: Wave Nature of Light - Interference
      • Newton's Rings
      • Laser Interference and Diffration
    • Wk 6: Diffraction and Polarization
      • Polaroid sheets
      • Microwave Optics
      • Photoelastic Stress
      • Laser Interference and Diffration
    • Wk 7: Special Relativity
    • Wk 8: Special Relativity
    • Wk 9: Special Relativity
    • Wk 10: Special Relativity
  • PHY8: The Physics of Everyday Life
    • Wk 1: Laws of Motion, Skating, Falling, Ramps, Levers, Work
      • Airtrack Demos
    • Wk 2: Wheels, Friction, Collisions, Momentum, Kinetic Energy, Scales, Carousels, Fictitious Forces
    • Wk 3: The Solar System, Balloons and Plumbing, Baseball, Viscosity & Turbulence
      • Cartesian Diver
      • Floating Ball
      • Bike Wheel Gyro
      • Spin Stool
    • Wk 4: Airplanes & Rockets, Heat & Light
    • Wk 5: Musical Instruments & Resonances, Waves, Tides, & Surf
      • Hoot Tube
      • Tuning Forks
    • Wk 6: Electricity and Magnetism, Flashlights and AC Power
      • Ohm's Law
    • Wk 7: Motors and Generators, Magnetic Recording, Sound Reproduction
      • Motor and Generator
    • Wk 8: Computers & Information, Radio & Television, The Electronic Battlefield
    • Wk 9: Lights and Lasers, Cameras & Optical Communication
      • Light Pipe
    • Wk 10: Nuclear Bombs, Power, Medicine, Energy & Your Future