Interactives

Learn how displacement and distance are different in the Vector Walk Interactive. Match an animated motion to a verbal description or a graphical description in the Name That Motion and Graph That Motion Interactives. Use the motion detection capabilities of our Pace Tracer Interactives to match position-time and velocity-time graphs. Explore kinematic graphing principles with our Kinematic Graphing simulation. Build a ramp along which a ball will roll in order for its motion to match a given graph with the Graph and Ramps Interactive. Earn your Rocket Scientist badge with the Two Stage Rocket Simulator. Combine the Accelerometer Interactive with the acceleration sensors on your mobile devices to measure the acceleration of your device.

Explore relationships pertaining to applied force, friction force, mass, and acceleration with the Force Interactive. Practice your skill of constructing free-body diagrams with the Free Body Diagram Interactive. Learn about Newton's second law of motion with the Rocket Sled and Skydiving Interactives. Find out why you feel weightless and weighty with the Elevator Ride Interactive. Use our Atwood's Machine simulator to explore the role of hanging masses and pulleys upon the acceleration of objects.

Learn important rules about adding vectors with the Vector Addition Interactive. Practice adding vectors by adding their components with the Name That Vectors Interactive. Be smart ... be fast ... and challenge your friends at the Vector Guessing Game. Use the Projectile Simulator to uncover some fundamental principles pertaining to motion in two dimensions. Practice your projectile problem-solving skills as you prevent Birdman from soiling the school football field in our Turd the Target and Turd the Target 2 projectile games. And explore an age-old question with the Monkey and Zookeeper Interactive.

Be engaged in a two-dimensional equilibrium challenge with the Balance It! activity. Progress through a variety of levels in the game-like Go For the Gold challenge. Investigate the physics of an inclined plane with our Inclined Plane simulation. And explore a variety of scenarios pertaining to two-body systems that take Atwood's machines to an entirely different dimension.

Conduct an Egg Drop study and learn about factors affecting the collision force. Investigate collisions with the Cart and Brick Interactive. Study momentum conservation with the Fish Catch and Exploding Carts Interactives. Explore collision and explosion principles like never before with the Colliding Carts Interactive.

Explore the relationship between work and kinetic energy with our Kinetic Energy Interactive. Investigate force and work with the It's All Uphill Interactive. Learn how speed affects stopping distance with the Stopping Distance Interactive. Build a coaster or use a pre-built coaster to explore the physics of roller coasters with the Roller Coaster Model. Practice your skill with work-energy bar charts using the Chart That Motion Interactive. Explore the conservation of mechanical energy with our Vibrating Spring simulator.

Explore uniform circular motion principles with the Circular Motion Interactive. Apply a force to a car to race it around an oval race track; compete with friends to finish the race in the least number of moves with the Race Track Interactive. Decide on the parameters of a barrel ride with our Barrel Ride Interactive and see if it's boring, thrilling, or deadly. Explore the forces acting on a roller coaster car with the Roller Coaster Model Interactive. Learn about the variables that affect the thrill and safety of a roller coaster ride with the Roller Coaster Design Interactive. Learn about weightlessness and weightiness with the Elevator Ride Interactive. Study Kepler's laws with the Orbital Motion Interactive. Launch the Gravitation Interactive and discover the universal law of gravitation. Explore universal gravitation, gravitational field strength, the value of g, and your weight on other planets with our many other out-of-this-world Interactives.

Set a couple of bugs on a rotating platform and spin them around while you learn about the relationship between linear and rotational velocity using our Rotational Motion Simulation. Investigate the relationship between rotational inertia, torque, and angular quantities with our Angular Acceleration simulation and our Torque and Rotation simulation. Construct an object with a given shape and hang it from a push pin on a corkboard in our Center of Mass Simulation. Play with masses hung from a balance beam and discover the rule of balance with our Balance Beam Simulator.

Explore the effect of the cross-sectional area of a pipe upon the flow velocity within the pipe with our Continuity Equation simulation. Similarly, explore the effect of a constricted cross-section upon the flow velocity and fluid pressure with our Venturi Effect simulation. And finally, investigate the effects that the height of a pipe has upon fluid flow properties with our Bernoulli's Equation simulation.

Build a circuit. Add a resistor or a light bulb and a meter to measure current or voltage drops. Tap/click a battery or resistor to change its voltage or resistance. Build single-resistor circuit and study the voltage-current-resistance relationship. Or build a series, parallel or combination circuit and explore how they work. Study just about anything and everything pertaining to electric circuits with the DC Circuit Builder Interactive. And when you're done, try our Equivalent Resistance game-like challenge.

See the otherwise unseen with our Aluminum Can Polarization simulation. Learn about the law that governs the force acting between charged objects with the Coulomb's Law Interactive. Explore charging methods with the Charging simulation or the Name That Charge skill-builder activity. Explore the complex set of electric field lines that surround a single charge or a configuration of charges with the Electric Field Interactive. Use charge interactions and field forces to guide a charged puck into the goal in the Put the Charge in the Goal Interactive. And explore the electric potential around a charged object with our Electrostatics Landscape Interactive.

Observe the interaction between a bar magnet and the needle of a compass with our Magnetic Field Simulator. And explore the inner workings of a Bainbridge mass spectrometer with our Mass Spectrometer simulation.

Study the motion of waves on a string and the effect of tension, density and damping upon their behavior with the Slinky Lab Interactive. Create standing waves and investigate their patterns with the Standing Wave Maker Interactive.

Explore the nature of a wave and the relationship between waves and sound with the Simple Wave Simulator.

Explore the vintage Chart of Electromagnetic Radiations. Study the mixing of colored lights with the RGB Color Addition Interactive. Use the Painting with CMY Interactive to investigate how primary pigments combine to produce a specific color. Explore color addition and subtraction in our Shadows Interactive. Study color subtraction with filters using the Colored Filters Interactive. Be amazed by the results of shining stage lights on objects on the stage with our Stage Lighting Interactive. Practice your skill at analyzing two-point source interference patterns with the Young's Experiment Interactive.

Study plane mirror images with the Who Can See Who? Interactive. Use the Optics Bench Interactive to explore the images formed by concave and convex mirrors. Practice your skill at describing the properties of images formed by curved mirrors.

Explore the refraction of light at a boundary between two media with the Refraction Interactive. Launch the Least Time Principle Interactive and discover the fundamental law that explains why light refracts as it does when traveling between two locations on the opposite side of a boundary. Use the Optics Bench Interactive to explore the images formed by converging and diverging lenses. And be fascinated with the eye candy found in our Converging and Diverging Lens Image Formation animations.

Explore simulations that don't quite fit into any specific topic.

Explore how Ions bonds and the different type of bonds that form between atoms.

Try out a simulated mass spectrometer and other activities to explore moles.

Explore simulations around mixing reactants and seeing their results. Just don't blow anything up.

Explore how pressure, heat, and other elements impact Gases.

These simulations will help you understand phase changes in matter.

See how various types of molecules and crystals are impacted by water to form solutions.

See how modifying things such as temperature and pressure, and reactants can make an impact.

Explore simulations that don't quite fit into any specific topic.