Use the on-canvas controls to control execution:
▶/⏸ Play/Pause | ⏭ Step | ⟲ Reset | ⚡ Speed
Brownian Motion Simulation
Watch particles move randomly due to molecular collisions. Each particle has a unique color for easy tracking.
Simple Pendulum Simulation
Observe the oscillatory motion of a simple pendulum. The period depends on length and gravity, not the mass or amplitude.
Diffusion Simulation
Watch particles spread from high concentration to low concentration areas, demonstrating Fick's laws of diffusion.
Orbital Motion Simulation
Observe how objects orbit around a central mass, demonstrating Kepler's laws of planetary motion.
Gas Laws Simulation
Explore the relationships between pressure, volume, and temperature in gases. Watch how particles behave under different conditions.
Collision Physics Simulation
Explore momentum conservation, energy transfer, and different types of collisions between objects.
Friction & Inclined Planes Simulation
Explore how objects move on inclined surfaces with different friction coefficients and surface materials.
Electric Fields Simulation
Watch how test particles move in electric fields. Red circles are positive charges (+), blue circles are negative charges (−). Click anywhere to add charges!
Magnetic Fields Simulation
Watch how charged particles move in magnetic fields. Red particles are positive (+), blue particles are negative (−). Click anywhere to add magnets!
Wave Propagation Simulation
Explore different types of waves including transverse, longitudinal, interference, and standing waves.
Wave-Particle Duality Simulation
Explore the fundamental quantum phenomenon where light and matter exhibit both wave-like and particle-like properties depending on how we observe them.
Nuclear Fission & Fusion Simulation
Explore the fundamental processes that power stars and nuclear reactors. Watch atoms split and combine, releasing tremendous energy.
Fluid Flow Simulation
Explore laminar and turbulent flow patterns, viscosity effects, and Reynolds number transitions. Click to add obstacles and observe flow changes.
Bernoulli's Principle Simulation
Observe how fluid velocity and pressure change in constricted pipes. Higher velocity leads to lower pressure, demonstrating energy conservation.
Sound Waves Simulation
Explore how sound waves propagate through different mediums. Watch transverse waves on strings and longitudinal waves in air molecules.
Diode & Transistor Simulation
Explore semiconductor physics and electronic components. Watch electrons (blue) and holes (red) flow through P-N junctions. See how transistors amplify signals with base voltage control.
Neural Network Training Simulation
Watch a neural network learn to solve the XOR problem through backpropagation. Observe forward propagation, gradient calculation, and weight updates in real-time.
Memory Management Simulation
Visualize memory allocation, deallocation, garbage collection, and fragmentation as a vibrant city. Build, demolish, and clean up to keep Memory City efficient!
Blockchain Network Simulation
Experience a live blockchain network with Proof-of-Work consensus. Watch miners compete to solve cryptographic puzzles, blocks propagate through the network, and smart contracts execute automatically. Observe real-time consensus, validation, and network dynamics.