Master physics through immersive simulations and interactive experiments. Our virtual laboratories provide hands-on experience with concepts that are difficult to demonstrate in traditional classrooms.
Experience our virtual physics laboratory - manipulate variables in real-time and observe immediate results
Grades 6-9 • Ages 11-15
Build a strong physics foundation through interactive experiments and visual simulations. Designed to help students develop intuition for physical concepts through direct manipulation.
Experiment with forces, motion, and energy in interactive environments with real-time feedback.
Build circuits and explore electromagnetic fields with visual current flow and field lines.
Visualize wave properties, interference patterns, and sound propagation in various media.
Launch projectiles at different angles and velocities to understand trajectory and range.
Construct electrical circuits with various components and measure current, voltage, and resistance.
Create and manipulate waves to observe constructive and destructive interference patterns.
Grades 10-12 • Ages 15-18
Dive deeper into physics concepts with advanced simulations that connect theory to real-world applications. Perfect for students preparing for college or specialized careers in STEM.
Explore quantum phenomena, relativity, and nuclear physics through interactive visualizations.
Manipulate heat engines, study entropy, and visualize thermodynamic processes in real-time.
Simulate orbital mechanics, gravitational fields, and cosmic phenomena in scaled environments.
Visualize probability densities and wave functions for various quantum systems.
Experience time dilation and length contraction in interactive relativistic scenarios.
Explore nuclear magnetic resonance and its applications in medicine and research.
Undergraduate & Graduate Level
Master complex physics theories through professional-grade simulation tools used in research and industry. Designed for students pursuing physics degrees or research careers.
Solve and visualize solutions to the Schrödinger equation for various potentials.
Explore curved spacetime, black holes, and gravitational waves in interactive simulations.
Simulate crystal structures, band gaps, and semiconductor properties.
Design and run virtual particle collision experiments with customizable parameters.
Simulate plasma behavior in magnetic confinement fusion devices.
Visualize fluid flow patterns and turbulence with adjustable viscosity and boundary conditions.
Our physics platform includes sophisticated virtual equipment that replicates real laboratory instruments with precision and accuracy.
Digital calipers, micrometers, oscilloscopes, and spectrometers with realistic measurement accuracy.
Complete setups for optics, electromagnetism, thermodynamics, and mechanics experiments.
Integrated tools for statistical analysis, curve fitting, and uncertainty calculations.
Dynamic graphs and 3D models that update instantly as you adjust experimental parameters.