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The Physics Source Library Materials

Total Materials: 891

"Static Electricity" Misconceptions
2-D Electrostatics Applet
2000 years of magnetism in 40 minutes
3-D Hydrogen Atom Probability Densitites
A ball rolls up another object on a frictionless surface
A Concave Mirror
A Converging Lens
A Frankenstein demonstration with the Van de Graaff generator
A mechanics baseline test
A Myriad of Demonstrations Using a Van de Graaff Generator
A Physics Show Performed by Students for Kids: From Mechanics to Elementary Particle Physics
A Practical Guide to the International System of Units
A Sense of Scale
A Special Relativity Simulator
A unified treatment of eletrostatics and circuits
ABC's of Nuclear Science
About Foucault Pendulums
Acoustics and Vibration Animations
Activities in Meteorology
Activity Based Physics Alternative Homework Assignment: Electrical Safety 1
Activity Based Physics Alternative Homework Assignments
Activity Based Physics Alternative Homework Assignments: Bicycle
Activity Based Physics Alternative Homework Assignments: Rocket Motion
Activity Based Physics Alternative Homework Assignments: Roller Coaster
Adding Two Vectors
Advanced Light Source Teacher Packet
An Inquiry-based, Laboratory-based Curriculum Specifically for the Introductory Algebra-based Physics Course
An Instructor's Guide to the Effective Use of Personal Response Systems (Clickers) in Teaching
Angular momentum conservation demonstration
Arkansas Conceptual Electricity and Magnetism: Conceptual Inventory Construction and Self-Testing Site
Assessing-to-Learn Questions Database
Assessment Examinations: Action Research Kit
Assessment Instrument Information
Assessment of Student Problem Solving Processes
AtmosModeler Simulator
Atom Builder
Ballistics and Orbits Model
Baseball - Animation of two-dimensional projectile motion
Basic Function of an Oscilloscope
Baton Throw Model
Beats Model
Blackbody Radiation Spectrum Model
Blackbody Radiation: Frequency and Wavelength
Blocking Light
Body With Thruster Model
Boston University Easy Java Simulations: A Charge in Electric and Magnetic Fields
Boston University Physics Applets: A Moving Bar
Boston University Physics Applets: A Resistor and a Capacitor
Boston University Physics Applets: A Simple Pendulum
Boston University Physics Applets: A Two-Car Race
Boston University Physics Applets: AC Circuit
Boston University Physics Applets: Adiabatic Processes
Boston University Physics Applets: Alternating Current
Boston University Physics Applets: An RC Circuit - Charging
Boston University Physics Applets: Ball on a String
Boston University Physics Applets: Changing Area in a Magnetic Field
Boston University Physics Applets: Circular Motion-A Ball on a String
Boston University Physics Applets: Cyclic Processes
Boston University Physics Applets: Displacement and Pressure in a Sound Wave
Boston University Physics Applets: Dissecting the SHM Equation
Boston University Physics Applets: Driven Harmonic Motion
Boston University Physics Applets: Field Vectors
Boston University Physics Applets: Field-Line Patterns
Boston University Physics Applets: First Semester
Boston University Physics Applets: Free Fall Example
Boston University Physics Applets: Magnetic Field Demonstration
Boston University Physics Applets: Magnetic Field Demonstration 2
Boston University Physics Applets: Masses on a Turntable
Boston University Physics Applets: Measuring Coefficient of Static Friction
Boston University Physics Applets: Orbits and Angular Momentum
Boston University Physics Applets: Orbits and Energy
Boston University Physics Applets: Orbits and Periods
Boston University Physics Applets: P-V Diagram for a Refrigerator
Boston University Physics Applets: Pendulum at Small and Large Amplitudes
Boston University Physics Applets: Second Semester
Boston University Physics Applets: Simple Harmonic Motion and Uniform Circular Motion
Boston University Physics Applets: Simple Harmonic Motion Graphs
Boston University Physics Applets: Solar System Simulator
Boston University Physics Applets: Springs
Boston University Physics Applets: Test Charge Questions
Boston University Physics Applets: The Gravitron
Boston University Physics Applets: The Ideal Gas Law
Boston University Physics Applets: Using a Diffraction Grating for Spectroscopy
Boston University Physics Applets: Vertical Circular Motion
Boston University Physics Applets: What Happens as Time Goes By?
Boston University Physics Applets: Work by Springs
Boston University Physics Applets: Work Example 2
Boston University Physics Easy Java Simulation: Block on a Spring
Boston University Physics Easy Java Simulation: Collisions in One Dimension
Boston University Physics Easy Java Simulation: Electric Field and Potential in One Dimension
Boston University Physics Easy Java Simulation: Free Body Diagrams
Boston University Physics Easy Java Simulation: Simple Pendulum
Boston University Physics Easy Java Simulation: Uniform Circular Motion and Simple Harmonic Motion
Boston University Physics Easy Java Simulation: Vector Addition
Boston University Physics Easy Java Simulation: Vector Addition - Patterns
Boston University Physics Easy Java Simulation: Vector Addition- Integer components
Boston University Physics Easy Java Simulation: Vector Components
Boston University Physics Easy Java Simulation: Velocity Selector
Boston University Physics Labs: Graphical Analysis
Boston University PhysLets: Coulomb's Law
BQ Learning: Better Questioning for Learning
Brown University Department of Physics Demos
Building a Better Bed of Nails Demonstration
Building a cheap simple generator
C21: Physics Teaching for the 21st Century
Calculus-Based Physics
Car on an Inclined Plane Model
Cat-Twist
Changes in students’ problem-solving strategies in a course that includes context-rich, multifaceted problems
Charge and Interactions
Charge in Magnetic Field Model
Charge motion in a hollow cylindrical conductor
Charge motion in a hollow square conductor
Circuit Simulator Applet
Classroom demonstrations: Learning tools or entertainment?
Colliding Galaxies
Collision between two pendulums
Colorado State University: Mathematical Modeling Applets
Concept Simulations
Concepts of Mass in Classical and Modern Physics
Conceptual Physics
Context Rich Problems
Context Rich Problems Online Archives
Context Rich Problems Online Archives: Circuits Problems
Context Rich Problems Online Archives: Conservation of Energy and Conservation of Momentum
Context Rich Problems Online Archives: Conservation of Energy and Heat Problems
Context Rich Problems Online Archives: Electric Field and Electric Force
Context Rich Problems Online Archives: Electric Potential Energy Problems
Context Rich Problems Online Archives: Electric Power
Context Rich Problems Online Archives: Force and Circular Motion at a Constant Speed
Context Rich Problems Online Archives: Force and Linear Kinematics Problems
Context Rich Problems Online Archives: Force Problems
Context Rich Problems Online Archives: Linear Kinematiics
Context Rich Problems Online Archives: Magnetic Force and Field Problems
Context Rich Problems Online Archives: Oscillations and Waves
Context Rich Problems Online Archives: Rotational Kinematics and Dynamics Problems
Coulomb Plot
Coulomb Superposition
Coulomb's Law
Coulomb's Law - Application
Coulomb's Law - Summary
Coulomb's Law - Synthesis
Coulomb's Law and Electric Field Package
Coulomb's Law in 1D: An Example in One Dimension
Coulomb's Law in 1D: The magnitude of the force
Coulomb's Law in 2D: Force is a Vector!
Crystal Viewer
CSERD: Computational Sciences Education Reference Desk
CurveBall
CurveBall - Expert Version
CWSEI: Clicker Resources
David Maloney's Physics Examples: Dynamics Example 1-Accelerating Boat
David Maloney's Physics Examples: Dynamics Example 2-Acceleration in a Pulley System
David Maloney's Physics Examples: Dynamics Example 3-Work Done By a Snowplow
David Maloney's Physics Examples: Dynamics Example 4-Block Pushed Up Incline
David Maloney's Physics Examples: Dynamics Example 5 - Friction on a Skier
David Maloney's Physics Examples: Kinematics Example 1-Vectors On A Line
David Maloney's Physics Examples: Kinematics Example 10-Projectile Thrown Off a Cliff
David Maloney's Physics Examples: Kinematics Example 12-Working Backwards
David Maloney's Physics Examples: Kinematics Example 2-Adding Perpendicular Vectors
David Maloney's Physics Examples: Kinematics Example 3-Vector Components
David Maloney's Physics Examples: Kinematics Example 4-Vector Addition
David Maloney's Physics Examples: Kinematics Example 5-Cop Chasing a Speeding Car
David Maloney's Physics Examples: Kinematics Example 6-Uniform Acceleration
David Maloney's Physics Examples: Kinematics Example 7-Car Moving at Constant Acceleration
David Maloney's Physics Examples: Kinematics Example 8-Projectile Aimed at Moving Target
David Maloney's Physics Examples: Kinematics Example 9-Running After a Moving Bus
David Maloney's Physics Examples: Thermo Example 1-Specific Heat
David Maloney's Physics Examples: Thermo Example 3-Ideal Gas Behavior
David Maloney's Physics Examples: Thermo Example 4-Work Done by Ideal Gas
Demonstrate induction and repulsion with soap bubbles and the Van de Graaff generator
Diagnostic/Remedial Tests in Introductory Physics
Diffraction of water waves (corner)
Diffraction of water waves (obstacle)
Diffraction of water waves (opening)
Digital Filters Applet
Dimensional Analysis Tutorials
Dipole Field Lines & Equipotentials & Superposition
Displacement, velocity, and frames of reference: Students' understanding and some implications for teaching and assessment
Do students use and understand free-body diagrams?
Doane College: Physics Video Library
E&M Tutorial I: Coulomb’s Law, Superposition Principle, and Symmetry
E-Learning for Physical Science: Optical Bench Simulation
EduMedia: Gradient
Einstein Online
Ejs Electromagnetic Wave Model
Ejs Parallel Plate Capacitor Model
EJS Simulations by High School Physics Teachers
Ejs Spinning Dumbbell Model
Ejs Three Current-Carrying Wires Model
Ejs Two Falling Rods Model
Electric Field: What is Wrong? Package
Electric Multipole Field Model
Electric Potential - Concepts and Principles (Algebra-based)
Electric Potential - Concepts and Principles (Calculus-based)
Electricity and Magnetism: Factors Affecting Capacitance
Electronics Demonstrations - Examples Using the Circuit Simulator Applet
Electrophoresis
Electrostatic Repulsion in Van de Graaff Bubbles
EngineerGuy.com
Eratosthenes Model
Examining the Effectiveness of Clickers on Promoting Learning by Tracking the Evolution of Student Responses
Explore Learning: Doppler Effect
Falling Cup with Ball Model
Falling in Fluid Model
Falling Loop Model
Faraday Disk Dynamo Model
Faraday's Magnetic Field Induction Experiment
First Semester Introductory Physics Simulations
Flash Animations for Physics
Flash Simulations
Flashlets: Carnot Cycle
Flatland: A Romance of Many Dimensions, by a Square, with Illustration by the Author
Fluorescent Nanoparticles
FoilSim II - Elementary Version
FoilSim II - Student Version
FoilSim II - Undergraduate Version
Force As A Vector I
Fourier Series Applet
Fowler's Physics Applets
Free Fall
Free Fall 3D Model
Free Fall Air Resistance Model
Free fall and projectile motion
Free Fall Model
Free Fall: Ball Dropped vs Ball Projected Up
Free Physics Instructional Software
Free Rotation Model
Friction
Frying Pan Electrophorus
Function Visualizer Model
Fundamental Physical Constants from NIST
Galaxy Dynamics
Galileo and Einstein
Galileo and Einstein: Physics Flashlets
Gauss' Law - Point Charge
General Physics Java Applets: Collisions
Graph Matching Motion Model
Graphs and Tracks Model
Guelph Physics Simulations: Refraction of Light Demonstration
Guelph Physics Tutorials: Dimensional Analysis
Guelph Physics Tutorials: Significant Digits
Half Wave Plate Program
Hands On Activities
Harmonics
Harmonics in musical tones
Hoot Tubes
Hot and Cold Ideal Gases
How to make a simple Van de Graaff Generator
How Van de Graaff Generators Work
Hubble - 15 Years of Discovery
HyperPhysics
HyperPhysics: Coriolis Force
Hyperphysics: Mechanics: Basic Vector Operations
iCircuit
Illinois PER Interactive Examples: 3-D Infinite Well
Illinois PER Interactive Examples: A Tale of Two Particles
Illinois PER Interactive Examples: Arrow
Illinois PER Interactive Examples: Ballistic Pendulum
Illinois PER Interactive Examples: Balloon
Illinois PER Interactive Examples: Block on Cart
Illinois PER Interactive Examples: Block on Incline
Illinois PER Interactive Examples: Bobber
Illinois PER Interactive Examples: Bobsled
Illinois PER Interactive Examples: Box and Spring
Illinois PER Interactive Examples: Bullet Penetrates Can
Illinois PER Interactive Examples: Car Meets Train
Illinois PER Interactive Examples: Car on an Icy Off-Ramp
Illinois PER Interactive Examples: Catch the Ball
Illinois PER Interactive Examples: Conveyor Belt
Illinois PER Interactive Examples: Disk and String
Illinois PER Interactive Examples: Floating Cylinders
Illinois PER Interactive Examples: Forces
Illinois PER Interactive Examples: Friction
Illinois PER Interactive Examples: Ganymede
Illinois PER Interactive Examples: Hanging Sign
Illinois PER Interactive Examples: Magnetic Field from Current Loop
Illinois PER Interactive Examples: Mass on Two Strings
Illinois PER Interactive Examples: Nuclear Power Plant
Illinois PER Interactive Examples: Particle Beam
Illinois PER Interactive Examples: Pendulum
Illinois PER Interactive Examples: Pendulum in Car
Illinois PER Interactive Examples: Photoelectric Effect I
Illinois PER Interactive Examples: Pulley and Two Masses
Illinois PER Interactive Examples: Rotating Block and String
Illinois PER Interactive Examples: Syringe
Illinois PER Interactive Examples: Tension
Illinois PER Interactive Examples: Tension
Illinois PER Interactive Examples: Thermodynamics
Illinois PER Interactive Examples: Three Charges
Illinois PER Interactive Examples: Thrown Ball
Illinois PER Interactive Examples: Time Dependence of LR Circuit
Illinois PER Interactive Examples: Trigonometry
Illinois PER Interactive Examples: Truck
Illinois PER Interactive Examples: Two Blocks
Illinois PER Interactive Examples: Two Blocks on an Incline
Illinois PER Interactive Examples: Two Masses on a Table Edge
Illinois PER Interactive Examples: Two Rocks on a String
Illinois PER Interactive Examples: Uncertainty Principle I
Illinois PER Interactive Examples: Vector Subtraction
Illinois PER Interactive Examples: Vector Subtraction
Illinois PER Interactive Examples: Waves on a Slinky
Illinois PER: Interactive Examples
Illinois PER: Materials Used in Our Introductory Courses
Impedance of Series RLC Circuits
Improving Student Understanding of Coulomb's Law and Gauss's Law
In-class Polling for All Learners
In-class Polling Methodology for Effective Education: The Voting Machines
Indiana University Southeast Physics Applets: Blackbody Radiation Curve
Indiana University Southeast Physics Applets: Brownian Motion Simulation
Indiana University Southeast Physics Applets: Electrostatic Simulation C - Electrostatic Fields
Indiana University Southeast Physics Applets: Electrostatics Main Page
Indiana University Southeast Physics Applets: Electrostatics Simulation A - Like and Unlike Charges
Indiana University Southeast Physics Applets: Electrostatics Simulation B - Five Unknown Charges
Indiana University Southeast Physics Applets: Electrostatics Simulation D - Electric Potential Lines
Indiana University Southeast Physics Applets: Electrostatics Simulation E - Electric Field and Potential Lines
Indiana University Southeast Physics Applets: Electrostatics Simulation H - Test Charge in a Capacitor
Indiana University Southeast Physics Applets: Electrostatics Simulation I - Moving Particle in a Capacitor
Indiana University Southeast Physics Applets: Ideal Otto Engine Simulation
Indiana University Southeast Physics Applets: Maxwell-Boltzmann Speed Distribution Simulation
Indiana University Southeast Physics Applets: Piston Simulation
Indiana University Southeast Physics Applets: Pressure Simulation
Indiana University Southeast Physics Applets: Thermodynamic Simulations
Indiana University Southeast Physics Applets: Two Dimensional Diatomic Model Simulation
Inside the ALS
Instruments for Natural Philosophy
Insulating Sphere
Interactive Physics and Math with Java
Interactive Plasma Physics Education Experience
Interference of Water Waves 1
Interference of Water Waves 2
International Physics Olympiads
Introduction to Electrostatics Principles
Introduction to Physics in Modern Medicine: Resource Website
Introduction to Polarized Light
Introductory Physics for the Life Sciences (IPLS) Wiki
Intuitive Quantum Physics
Investigative Science Learning Environment - A Science Process Approach to Learning Physics
ISLE: Investigative Science Learning Environment
Isotopes Project Nuclear Data Dissemination Page
Java Applets for Physics Education
JavaSound3D
Jones Program
Just-in-Time Teaching Digital Library
Karruga Horn
Kennesaw State: Laboratory Resources
Kenyon College: Acoustics Instruments
Kinematics Graph Interpretation Project
Kinematics Tutorial
Laboratory-tutorial activities for teaching probability
Laptop Screens
Learn Physics Using Java
Lens (thick lens) and mirror
Lens Effect Due to Ripples
Lenses and Telescopes
Liftoff to Learning: Toys in Space 2
Light and Matter - Open Source Physics Textbooks
Light Clock
Lisa Meitner
Lissajous figures
LivePhoto Physics
LivePhoto Physics: Bouncing Tennis Ball
LivePhoto Physics: Colliding Carts
Lorentz force on a current carrying wire java applet
LTU Physlet: Constant Linear Velocity
LTU Physlet: Optics Model for a Far-Sighted Eye (with corrective lenses)
LTU Physlet: Optics Model for a Near-Sighted Eye (with corrective lenses)
LTU Physlet: Presenting .. Your Equipotentials!
LTU Physlet: Series AC RLC Circuit (Phasors and Evolution of Time Series)
LTU Physlet: Vector Quantities in Simple Kinematics
LTU Physlet: Velocities (and their components) during Projectile Motion
LTU: PHYSics appLETS (PHYSLETS)
MAC^3: Vectors
Mag Lab U: Interactive Java Tutorials
Mag Lab U: Interactive Tutorials - Current Flow
Mag Lab U: Learning about Electricity and Magnetism
Mag Lab U: Pioneers in Electricity and Magnetism
Magnetic Force Three Wires Model
Making Work Work
Math, Physics, and Engineering Applets
Matter & Interactions
Matter & Interactions 3rd Ed. Practice Problems: The Energy Principle
Matter & Interactions Practice Problems
Matter & Interactions Practice Problems: Angular Momentum
Matter & Interactions Practice Problems: Collisions
Matter & Interactions Practice Problems: Contact Forces and the Momentum Principle
Matter & Interactions Practice Problems: Energy in Macroscopic Systems
Matter & Interactions Practice Problems: Energy Quantization
Matter & Interactions Practice Problems: Interactions and Motion
Matter & Interactions Practice Problems: Multiparticle Systems
Matter & Interactions Practice Problems: The Momentum Principle: Impulse and Momentum Change
Matter & Interactions Practice Problems: The Momentum Principle: Non-constant Forces
Matter & Interactions: Textbook Web Site
Matter and Interactions 3rd Ed. Practice Problems: Electric and Magnetic Interactions
Michelson-Morley Experiment
Michigan State Applet Collection: Atwood Machine
Michigan State Applet Collection: Electrostatic Potential Applet
Michigan State Applet Collection: Inclined Plane
Michigan State University: The Applet Collection
Micrometer Model
Microscopy U - Fundamentals of Digital Imaging
MicroWorlds
Mississippi State Physics Labs
Mississippi State Physics Labs: Circuits and Continuity
Mississippi State Physics Labs: Electricity and Magnetism
Mississippi State Physics Labs: Graphs
Mississippi State Physics Labs: Kinematics
Mississippi State Physics Labs: Light-Lenses
Mississippi State Physics Labs: Motion
Mississippi State Physics Labs: Nuclear Radiation
Mississippi State Physics Labs: Ohm's Law, Resistance, and Resistivity
Mississippi State Physics Labs: pH and pH Indicators
Mississippi State Physics Labs: Scientific Inquiry
Mississippi State Physics Labs: Simple Machines
MIT Open Courseware 8.02: Electricity and Magnetism
MIT Phyics 8.02: Vector Fields - Mapping Fields Applet
MIT Physics 8.02 - Faraday's Law Visualizations
MIT Physics 8.02 - Magnetostatics Visualizations
MIT Physics 8.02 - Vector Fields Visualizations
MIT Physics 8.02: Electrostatics - A van de Graaff Generator Attracting a Charge
MIT Physics 8.02: Electrostatics - A van de Graaff Generator Repelling a Charge
MIT Physics 8.02: Electrostatics - Charging by Induction
MIT Physics 8.02: Electrostatics - Creating an Electric Field
MIT Physics 8.02: Electrostatics - Creation of an Electric Dipole
MIT Physics 8.02: Electrostatics - Destroying an Electric Field
MIT Physics 8.02: Electrostatics - Electric Field of a Dipole
MIT Physics 8.02: Electrostatics - Electric Field of a Moving Negative Charge
MIT Physics 8.02: Electrostatics - Electric Field of a Moving Positive Charge
MIT Physics 8.02: Electrostatics - The Capacitor
MIT Physics 8.02: Electrostatics - Two Point Charges
MIT Physics 8.02: Electrostatics Visualizations
MIT Physics 8.02: Electrostatics Visualizations - The Electrostatic Video Game
MIT Physics 8.02: Experiment - Electrostatic Force
MIT Physics 8.02: Vector Fields Visualizations - Coordinate Systems
MIT Physics 8.02: Vector Fields Visualizations - Cross Product of Two Vectors
MIT Tech TV: Physics Demos
MIT TechTV: Coupled Air Carts
Modeling a Rocket Launch with Gravity and Air Resistance
Modeling Physics.org
Modern Miracle Medical Machines
Modern Miracle Medical Machines: The Human Eye and Vision
Modular Approach to Physics
Modular Approach to Physics: Colliding Planets
Modular Approach to Physics: Finding the Cross Product of Vectors
Modular Approach to Physics: Physical Pendulum
Modular Approach to Physics: Static and Kinetic Friction
Modular Approach to Physics: Addition of Three Vectors - Tip-to-Tail Method
Modular Approach to Physics: Angular Velocity
Modular Approach to Physics: Average Speed versus Average Velocity
Modular Approach to Physics: Block on Springs
Modular Approach to Physics: Breaking a Vector into Components
Modular Approach to Physics: Centripetal Motion Simulator
Modular Approach to Physics: Charged Particle in Capacitor
Modular Approach to Physics: Direction of the Acceleration in Uniform Circular Motion
Modular Approach to Physics: Electric Potential in Uniform Field Simulation
Modular Approach to Physics: Energy and Orbits
Modular Approach to Physics: Fletcher's Trolley
Modular Approach to Physics: Magnitude of the Radial Acceleration
Modular Approach to Physics: Potential in a Non-Uniform Field
Modular Approach to Physics: Projectile Motion: One Ball
Modular Approach to Physics: Simple Harmonic Motion - Weighted Spring
Modular Approach to Physics: Skaters and Blocks
Modular Approach to Physics: Timer Stopwatch
Modular Approach to Physics: Vector Addition
Modular Approach to Physics: Vector Addition - Parallelogram Method
Modular Approach to Physics: Vector Addition - Tip-to-Tail Method
Modular Approach to Physics: Vector Components
Modular Approach to Physics: Vector Subtraction
Modular Approach to Physics: Vector Subtraction - Add-The-Negative Method
Modular Approach to Physics: Vector Subtraction - Comparison Method
Modular Approach to Physics: Velocity vs. Position Simulation
Modular Approach to Physics: Weighted Average
Modular Approach to Physics: Work and Energy in Projectile Motion
Molecular Expressions
Molecular Expressions: An Introduction to Capacitance
Molecular Expressions: Color Separation
Molecular Expressions: Digital Image Sampling Frequency
Molecular Expressions: Electricity & Magnetism - Resistance at the Molecular Level
Molecular Expressions: Electricity & Magnetism: Resistance
Molecular Expressions: Electricity and Magnetism
Molecular Expressions: Electricity and Magnetism - Generators and Motors
Molecular Expressions: Electricity and Magnetism - Inductance
Molecular Expressions: Electricity and Magnetism - Interactive Java Tutorials
Molecular Expressions: Interactive Java Tutorials - Evanescent Field Penetration Depth
Molecular Expressions: Interactive Java Tutorials - Evanescent Field Polarization and Intensity Profiles
Molecular Expressions: Interactive Java Tutorials - High Numerical Aperture Objectives
Molecular Expressions: Introduction to Lenses - Lens Shape
Molecular Expressions: Light and Color - Acoustical Model of Anisotropy
Molecular Expressions: Light and Color - Introduction to Lenses
Molecular Expressions: Light and Color - Magnification with a Bi-Convex Lens
Molecular Expressions: Light and Color - Polarization of Light
Molecular Expressions: Light and Color - Primary Subtractive Colors
Molecular Expressions: Light and Color - Reflection of Light
Molecular Expressions: Light: Particle or a Wave?
Molecular Expressions: Michel-Levy Birefringence Chart
Molecular Expressions: Microscopy Primer - Anatomy of the Mic-D Digital Microscope
Molecular Expressions: Microscopy Primer - Basic Concepts in Digital Image Processing
Molecular Expressions: Olympus MIC-D - Off-Axis Illumination Transitions
Molecular Expressions: Optical Illusions - Color Wheel #11
Molecular Expressions: Optical Illusions - Color Wheel #12
Molecular Expressions: Optical Illusions - Color Wheel #7
Molecular Expressions: Optical Illusions - Color Wheel #8
Molecular Expressions: Optical Microscopy Primer - Beam Steering by Wedge Prisms
Molecular Expressions: Optical Microscopy Primer - Birefringence in Calcite Crystals
Molecular Expressions: Optical Microscopy Primer - Filters for Black & White Photomicrography
Molecular Expressions: Optical Microscopy Primer - Fluorescence Microscopy
Molecular Expressions: Optical Microscopy Primer - Introduction to Photomicrography
Molecular Expressions: Optical Microscopy Primer - Lenses and Geometrical Optics
Molecular Expressions: Optical Microscopy Primer - Oblique Illumination Light Pathway
Molecular Expressions: Optical Microscopy Primer - Oblique or Anaxial Illumination
Molecular Expressions: Optical Microscopy Primer - Optical Birefringence
Molecular Expressions: Optical Microscopy Primer - Particle and Wave Diffraction
Molecular Expressions: Optical Microscopy Primer - Particle and Wave Refraction
Molecular Expressions: Optical Microscopy Primer - Polarization Simulation
Molecular Expressions: Optical Microscopy Primer - Polarized Light Microscopy
Molecular Expressions: Optical Microscopy Primer - Primary Colors
Molecular Expressions: Optical Microscopy Primer - Refraction of Light
Molecular Expressions: Optical Microscopy Primer - Refraction of Monochromatic Light
Molecular Expressions: Optical Microscopy Primer: Birefringence Variations with Crystal Orientation
Molecular Expressions: Optical Microscopy Primer: Photomicrography - Filter Control of Image Contrast in Black & White Photomicrography
Molecular Expressions: Optical Microscopy Primer: Virtual Microscopy - Flourescence Combination Microscopy
Molecular Expressions: Optical Microscopy Primer: Virtual Microscopy - Interactive Java Tutorials
Molecular Expressions: Polarized Light Microscopy - Brewster's Angle
Molecular Expressions: Polarized Light Microscopy - Compensation Accessory Plates and Wedges
Molecular Expressions: Polarized Light Microscopy - Double Refraction (Birefringence) in Iceland Spar
Molecular Expressions: Polarized Light Microscopy - Polarizer Rotation and Specimen Birefringence
Molecular Expressions: Polarized Light Microscopy - The Fresnel or Refractive Index Ellipsoid
Molecular Expressions: Reflection of Light - Specular and Diffuse Reflection
Molecular Expressions: Science, Optics & You
Molecular Expressions: Science, Optics & You - Birefringent Crystals in Polarized Light
Molecular Expressions: Science, Optics & You - Light and Color
Molecular Expressions: Science, Optics & You - Optical Illusions
Molecular Expressions: Science, Optics & You - Primary Subtractive Colors
Molecular Expressions: Science, Optics & You: Electromagnetic Radiation
Molecular Expressions: Science, Optics & You: The Nature of Electromagnetic Radiation
Molecular Expressions: Science, Optics & You: White and Black Balance
Molecular Expressions: Science, Optics and You - Interactive Java Tutorials
Molecular Expressions: Total Internal Reflection Fluorescence Microscopy
Molecular Expressions: Trapezoidal Prism Microscope Configuration
Molecular Expressions: Virtual Microscopy - Stereoscopic Zoom Microscope
Molecular Expressions: Virtual Microscopy - Translational Microscopy
Motion Mountain - The Free Physics Textbook
Motion of Centre of Mass
Motion under gravity
Moving Electrons
Multiple Slit Diffraction Model
Multiple sources interference pattern
NASA Glenn Research Center: Free Software
NASA Launchpad: Cooling Off
NASA: JPL Solar System Simulator
Nebraska Astronomy Applet Project: Planetary Orbit Simulator
New Faculty Workshop Reunion 2007
New York Times Physics Applications
Newton's Third Law of Motion: Actions and Reactions
Newton’s Mountain Model
NTNU JAVA Virtual Physics Lab: Java Simulations
NTNU Java: A box released from a frictionless ramp on a horizontal frictionless surface
NTNU Java: Collision between two particles in one dimension
NTNU Java: Micrometer
NTNU Java: Multimeter VOM
NTNU Java: Physics of Rainbow
NTNU Java: Prism: Reflection and Refraction
NTNU Java: Pulley
NTNU Java: Relative Motion (frame of reference)
NTNU Java: Simulate 1D Collision with a Virtual Spring
NTNU Java: Space and Time in Special Relativity
NTNU Java: The World Through a Hole
NTNU Java: Vernier Caliper
NTNU Java: Vernier Caliper and Micrometer with Zero Error Options
Observing Students' Use of Computer-based Tools During Collision Experiments
Open Source Physics
OPPS: Nature of Light
Optics Bench: Internal Reflection
Optics Bench: Lens within a Dielectric
Optics Interference: Ripple Tank Program
OU Engineering Media Lab: Significant Digits
Paradigms in Physics E&M: Acting Out Charge Densities
Patterns, correlates, and reduction of homework copying
Peer Instruction Problems: Introduction to the Method
Peer Instruction: A User's Manual
Peer Instruction: Engaging Students One-on-One, All at Once
PhET Simulation: Balloons & Buoyancy
PhET Simulation: Band Structure
PhET Simulation: Battery Voltage
PhET Simulation: Battery-Resistor Circuit
PhET Simulation: Blackbody Spectrum
PhET Simulation: Charges and Fields
PhET Simulation: Circuit Construction Kit (AC+DC)
PhET Simulation: Circuit Construction Kit (DC Only)
PhET Simulation: Color Vision
PhET Simulation: Electric Field Hockey
PhET Simulation: Electric Field of Dreams
PhET Simulation: Energy Skate Park
PhET Simulation: Equation Grapher
PhET Simulation: Estimation
PhET Simulation: Faraday's Electromagnetic Lab
PhET Simulation: Forces in 1 Dimension
PhET Simulation: Fourier: Making Waves
PhET Simulation: Gas Properties
PhET Simulation: Geometric Optics
PhET Simulation: Ladybug Revolution
PhET Simulation: Lasers
PhET Simulation: Masses & Springs
PhET Simulation: Maze Game
PhET Simulation: Microwaves
PhET Simulation: Motion in 2D
PhET Simulation: Neon Lights & Other Discharge Lamps
PhET Simulation: Nuclear Fission
PhET Simulation: Ohm's Law
PhET Simulation: Pendulum Lab
PhET Simulation: Photoelectric Effect
PhET Simulation: Projectile Motion
PhET Simulation: Quantum Bound States
PhET Simulation: Quantum Wave Interference
PhET Simulation: Radio Waves & Electromagnetic Fields
PhET Simulation: Reactions & Rates
PhET Simulation: Resistance in a Wire
PhET Simulation: Semiconductors
PhET Simulation: Simplified MRI
PhET Simulation: Sound
PhET Simulation: The Moving Man
PhET Simulation: The Ramp
PhET Simulation: Vector Addition
PhET Simulation: Wave Interference
PhET Simulation: Wave on a String
PhET Simulations: Quantum Phenomena
PhET Teacher Ideas & Activities: Energy Skate Park Clicker Questions
PhET Teacher Ideas & Activities: Motion and Moving Man Simulation Homework
PhET Teacher Ideas & Activities: Probability and Randomness Interactive Lecture
PhET Teacher Ideas & Activities: Ramp Activity 1: Using free body diagrams for motion on an incline
PhET Teacher Ideas and Activities: MRI lecture and homework
PhET: Physics Education Technology
PhysClips
Physclips: Calculus: Differentials, Integrals and Partial Derivatives
Physclips: Graphs, errors, significant figures, dimensions and units
Physclips: Projectiles
Physclips: Vectors
Physical Pendulum Forces
Physics 2000
Physics 2000: Polarization
Physics and Acoustics of Baseball and Softball Bats
Physics Applets Menu
Physics Circus Demonstrations
Physics Force
Physics Illuminations
Physics in Action: CT Scans
Physics in Modern Medicine: Applications in Imaging, Surgery, and Therapy
Physics is Phun Program Schedule
Physics Problem Solving in Cooperative Learning Groups
Physics Suite Peer Instruction Problems: Dynamics
Physics Suite Peer Instruction Problems: Electricity
Physics Suite Peer Instruction Problems: Gravity
Physics Suite Peer Instruction Problems: Heat & Temperature
Physics Suite Peer Instruction Problems: Kinematics
Physics Suite Peer Instruction Problems: Momentum and Energy
Physics Suite Peer Instruction Problems: Oscillations and Waves
Physics Suite Peer Instruction Problems: Properties of Matter
Physics Suite Peer Instruction Problems: Rotational Motion
Physics Suite Sample Problems: Circular and Rotational Motion
Physics Suite Sample Problems: Gravitation
Physics Suite Sample Problems: Magnetism
Physics Suite Sample Problems: Modern Physics
Physics Suite Sample Problems: Momentum and Energy
Physics Suite Sample Problems: Properties of Matter
Physics Suite Thinking Problems: Dynamics
Physics Suite Thinking Problems: Electricity
Physics Suite Thinking Problems: General and Mathematics
Physics Suite Thinking Problems: Heat, Temperature, and Thermodynamics
Physics Suite Thinking Problems: Kinematics
Physics Suite Thinking Problems: Optics
Physics ToolKit
Physics Virtual Bookshelf
Physlet Problems Written or Adapted by Paul Zitzewitz
Physlets
Planetary Motion
Point Charge Electric Field and Potential 2D Model
Point Charge Electric Field and Potential Model
Point Charge Electric Field in 1D Model
Polarizer Program
Practical Physics
Pre-Lab Questions For Introductory Physics
Pre-Lab Questions: Acceleration Due to Gravity
Pre-Lab Questions: Magnetism
Pre-Lab Questions: Vectors
Problem Based Learning @ University of Delaware
Problem Based Learning for College Physics
Problem Based Learning: Bungee Jumping
Problem Based Learning: Collision Investigation (1-D)
Project LITE - Light Inquiry Through Experiments
Pushing up the Incline
Puzzling Polarizers
Quantum Motion
Quarter Wave Plate Program
Rainbow-Like Spectra with a CD: An Active-Learning Exercise
Ranking Task Exercises in Physics
RC Circuit Model
RC Circuit with Battery Model
RCL - Remotely Controlled Laboratories
RCL Circuit with Battery Model
RCL Series A.C. Circuit
Real Lens Effect
RELATE real-world problem index
Relations between displacement/velocity/acceleration
Relative Velocity
Resistor
Resistor
Ripple Tank Simulation
RLC Circuit with Function Generator Model
Rocket Car on an Inclined Plane Model
Roller Coaster Model
Rutgers Physics Teaching Technology Resource
SCALE-UP: Student-Centered Active Learning Environment for Undergraduate Programs
Science Appreciation: Introduction to Science Literacy
Science House: Motion and Graphing
Science, Optics & You: Secret Worlds - The Universe Within
Seat Activities
SEI Clicker and Education Videos
Selected Readings for Physics Education Researchers within and beyond PER
Series
Shooting the Monkey
Simple Model of Charging by Rubbing
Simple Pendulum Model
Singing Rods
Single Slit Diffraction
Single-Slit Diffraction
Slingshot Effect
Slipping and Rolling Wheel Model
SMU Astronomy & Physics Demonstrations
Socratic Dialog-Inducing (SDI) Labs
Sodium and Chlorine
Sound Wave Applet
Sound Wave Interference Applet
Spherical Mirror Model
Spiral Physics Downloads
Spring-Mass System
St. Louis Area Physics Teachers Teaching Resources
Standing Longitudinal Waves
Standing Waves 2011
Standing Waves Applet
Standing Waves in a Pipe Model
Standing Waves, Medium Fixed At Both Ends
Stern-Gerlach Filters That Select Spin-up Electrons
STP Coin Toss Program
Students know what physicists believe, but they don’t agree: A study using the CLASS survey
Students' Conceptual Knowledge of Energy and Momentum
Summation of vectors
Tale of two curricula: The performance of 2000 students in introductory electromagnetism
Teaching About Energy: Problems Related to Energy Choices
Teaching Electromagnetism Using Advanced Technologies
Teaching Physics with the Physics Suite
Teaching Physics with the Physics Suite: Sample Problems
Teaching Physics with the Physics Suite: Thinking Problems by Subject
Teaching Resources for the Computer
Telescopes and Spectrographs
Tennessee Tech University: Physics Study Guides
The Animated Chalkboard 2006: Motion 1
The Digital MultiMeter
The Doppler Effect
The effects of prior knowledge and instruction on understanding image formation
The Electric Field - Concepts and Principles (Algebra-based)
The Electric Field - Concepts and Principles (Calculus-based)
The Electric Force - Concepts and Principles (Algebra-based)
The Electric Force - Concepts and Principles (Calculus-based)
The Expert System for Thermodynamics - T.E.S.T.
The Eye As A Lens (Part 1)
The Eye As A Lens (Part 2)
The flame and the Van de Graaff
The flame and the Van de Graaff
The Humanized Physics Project
The Metamorphosis of the Local Group
The Nature of Electromagnetic Radiation
The NIST Reference on Constants, Units and Uncertainty
The Pendulum Lab
The Physics Classroom: 1-D Kinematics
The Physics Hypertextbook
The Physics Hypertextbook: Graphs of Motion
The Physics of Dance
The Physics of Road Runner
The Physics of Rotation
The Physics Question of the Week
The Physics Video Demonstration Database
The Science of Speed
The Soda Bottle Speaker
The Stern-Gerlach Experiment, Electron Spin, and Correlation Experiments
The Student-Centered Activities for Large Enrollment Undergraduate Programs (SCALE-UP) Project
The University of Virginia Virtual Lab
The Van de Graaff Generator
The Van de Graaff Generator, 1933
Thin Film Interference Model
Thin films
Three Unknown Charges
Tips for Starting the Year off Right!
Toys in Space II Video Resource Guide
Tracker Video Analysis and Modeling Tool
Tracker Video Analysis Demo Package
Tracker Video Analysis: Air Resistance
Tracker Video Analysis: Projectile Motion with Angry Birds
Transformer
Transforming common-sense beliefs into Newtonian thinking through Just-In-Time Teaching
Two Dimensional Air Drop Model
Two Source Interference Pattern 1
Two Springs and a Pendulum Model
Two-Color Multiple Slit Diffraction
Uncertainties and Error Propagation
Understand Standing Wave Diagrams 2 - Both Ends Open
Understanding Standing Wave Diagrams 1 - Both Ends Fixed
Understanding Standing Wave Diagrams 3 - Fixed And Open Ends
Unit Conversions
Units - SI-Only, or Multicultural Diversity?
University of Maryland PER: Interactive Lecture Demonstrations
University of Maryland Physics Education Research Group Research Tools: Concept Surveys
University of Oregon Physics Applets
University of Vermont Physlets: A Complex Collision
University of Vermont Physlets: A Convex Mirror
University of Vermont Physlets: A Diverging Lens
University of Vermont Physlets: Four Unknown Charges I
University of Vermont Physlets: Four Unknown Charges II
University of Vermont Physlets: Four Unknown Charges III
University of Vermont Physlets: Four Unknown Charges IV
University of Vermont Physlets: Kinematic Analysis-Horizontal Acceleration
University of Vermont Physlets: Kinematic Analysis-Horizontal Deceleration
University of Vermont Physlets: Newton's Laws - Three Blocks
University of Vermont Physlets: Particles and Fields
University of Vermont Physlets: Trigonometric Relations (Cosine)
University of Vermont Physlets: Trigonometric Relations (Sine)
University of Vermont Physlets: Trigonometric Relations (Tangent)
University of Virginia Physical Science SOL Activities: Balloon Electroscope
Use of interactive lecture demonstrations: A ten year study
Using Direct Measurement Video to Teach Physics
Using multimedia modules to better prepare students for introductory physics lecture
Using the Resources of the Student at the Urban, Comprehensive University to Develop an Effective Instructional Environment
UVA Virtual Lab: Capacitor Water Tank Analogy
UVA Virtual Lab: Resistor Waterwheel Analogy
UVA Virtual Lab: Van de Graaff Generators
Van de Graaff Generator
Van de Graaff Generators: Construction & Demonstrations
Van de Graaff generators: Theory, maintenance, and belt fabrication
Vector Addition
Vector Calculator
Virtual Microscope
Virtual Oscilloscope (Shockwave Simulation)
Visualizing Newton's 3rd Law With Colliding Carts
VPython Introductory Computational Physics
Wake Forest University Physics demo videos
Wake Forest University Physics Online Demos
Walter Fendt Physics Applets: Electromagnetic Wave
Walter Fendt Physics Applets: Equilibrium of Three Forces
Walter Fendt Physics Applets: Model of a Carousel (Centripetal Force)
Walter Fendt Physics Applets: Newton's Second Law Experiment
Walter Fendt Physics Applets: Resolution of a Force into Components
Walter Fendt Physics Applets: Resultant of Forces (Addition of Vectors)
Walter Fendt's Java Applets on Physics
Wave Interference
Waves: An Interactive Tutorial
Web Assignments: Electric Field for Point Charges
Web Assignments: Harmonic Oscillator I
Web Based Virtual Instruments
Web Video for the Classroom: Quick, Appealing, and Engaging Lessons
WebAssign
WebElements Periodic Table
WebTOP - The Optics Project
WebTOP Polarization Tutorial
WFU Physics Demo Video: Miller Loop-de-Loop
WFU Physics Demo Video: Rotating Person and Bicycle Wheel
WFU Physics Demo Video: Rotating Person and Weights
WFU Physics Demo Video: Simultaneous Fall Apparatus
WFU Physics Demo Video: Venturi Meters
Wilderness Survival - Fire from ice
Wiley Simulation Library
Women of Nasa
WORK 2010
Workshop Physics
Workshop Physics Software
Workshop Physics: Oscillations, Determinism, and Chaos
Workshop Tutorials for Physics
Workshop Tutorials for Physics: Electricity and Magnetism - Introductory
Workshop Tutorials for Physics: Electricity and Magnetism - Regular
Workshop Tutorials for Physics: Mechanics - Introductory
Workshop Tutorials for Physics: Mechanics - Regular
Workshop Tutorials for Physics: Properties of Matter - Introductory
Workshop Tutorials for Physics: Properties of Matter - Regular
Workshop Tutorials for Physics: Waves and Optics - Introductory
Workshop Tutorials for Physics: Waves and Optics - Regular
Writing Exercises with Physlets: One Dimensional Motion with Constant Velocity 3
WWW Digital Function Generator
Young's Interference Experiment
YouTube Videos of Microgravity Demonstrations
YouTube Videos of Sound Phenomena
Zona Land: Wave Interference 1
Zona Land: Wave Interference 2
Zona Land: Wave Interference 3