Interactive experiments to explore the laws of physics
Launch projectiles at different angles and velocities. Observe parabolic trajectories.
Adjust length and initial angle to see how period changes. Explore simple harmonic motion.
Analyze forces on objects sliding down ramps. Adjust angle, friction, and mass to see effects on acceleration.
Explore damped and driven oscillations with adjustable parameters.
Simulate collisions between objects of different masses. Watch momentum and energy conservation in action.
Explore centripetal force and acceleration. Adjust speed and radius to see how they affect the motion.
Explore how our solar system works. How big bodies in space work.
Study torque, angular momentum, and moment of inertia with rotating objects of various shapes.
Watch white light separate into its spectrum through a prism. Explore wavelength-dependent refraction.
Visualize nodes and antinodes in vibrating strings and air columns. Explore harmonics and resonance.
Create interference patterns. Observe constructive and destructive interference in real-time.
Watch light bend as it passes between different media. Explore critical angles and total internal reflection.
Observe frequency shifts as wave sources move. Visualize compressions and rarefactions in motion.
Observe colorful interference patterns in soap films and oil slicks. Adjust thickness to see color changes.
Recreate Young's famous experiment. See wave-particle duality and create diffraction patterns.
Place charges and see electric field lines. Visualize how charges interact through invisible fields.
Charge and discharge capacitors while watching electric field patterns. Adjust plate area, separation, and dielectric materials.
Explore magnetic field patterns around magnets and current-carrying wires. See Lorentz forces in action.
Watch charged particles spiral through electric and magnetic fields. Explore the combined force on moving charges.
Move magnets through coils to generate electricity. Understand Faraday's law, how generators work.
Observe energy oscillating between inductor and capacitor. Visualize current and voltage waves in resonant circuits.
Adjust pressure, volume, and temperature. Watch gas particles move and see PV=nRT in action.
Visualize conduction, convection, and radiation. Observe heat flowing through materials at different rates.
Heat and cool substances to see solid, liquid, and gas phases. Track energy during phase transitions.
Visualize conduction, convection, and radiation. Observe heat flowing through materials at different rates.
Build a Carnot engine and calculate efficiency. Understand the second law of thermodynamics.
Watch particles spontaneously spread and increase disorder. Explore microstates, macrostates, and the second law of thermodynamics.