A free museum where the exhibits actually work. Real physics engines. Real NASA data. Real crystal lattices. No subscription. No signup. Just science.
Explore the Exhibits ↓Real NASA missions in real-time 3D. Earth-Moon orbital mechanics, Near-Rectilinear Halo Orbits, Lagrange points. Four Artemis missions with accurate trajectories. Then strap into the lunar lander and put 1.62 m/s² gravity to the test.
Enter Exhibit →The same molecule. Two crystal structures. A $250 million pharmaceutical disaster. Explore Gibbs free energy landscapes, autocatalytic seeding, tin pest in Napoleon's army, and why diamond is technically trying to become graphite right now.
Enter Exhibit →CERN's most dangerous road trip. Does antimatter fall up or down? Why does anything exist at all? Interactive particle collision simulator. The most expensive substance ever made at $62.5 trillion per gram.
Opening SoonA single Argentine ant supercolony spans from Portugal to Italy — with no leader, no map, and no central control. How pheromone chemistry creates emergent intelligence, why it's the founding case for Ant Colony Optimization algorithms, and what 10,000 trillion individuals without a brain tells us about intelligence itself.
Enter Exhibit →354-hour lunar nights. Power, thermal regulation, food, oxygen. Every parameter from NASA life support data. Balance the books on a $4.7B lunar outpost while the solar panels freeze.
Opening SoonFour rules on a grid. Applied every generation, to every cell. No randomness, no hidden state, no design. Yet gliders emerge, guns fire, and logic gates assemble from collisions. A 50-year-old mathematical game that proved simple rules can generate universal computation — and infinite surprise.
Enter Exhibit →Six eras. 118 elements. An interactive periodic table that fills in as you go. Quiz-driven discovery from ancient gold to synthetic oganesson — watch humanity's model of matter transform across 5,000 years of chemistry.
Enter Exhibit →Six halls of science. One free admission.
Real-time 3D orbital mechanics for all four Artemis missions. True NASA trajectories, NRHO physics, and a lunar lander sim with 1.62 m/s² gravity.
Crystal phase transitions with catastrophic consequences. Ritonavir's $250M disaster, tin pest, diamond→graphite, and rotating 3D lattices.
CERN's most dangerous road trip. Does antimatter fall up or down? The most expensive substance at $62.5T/gram. Interactive particle trap simulation.
A single Argentine ant supercolony spans 6,000 km with no leader. Pheromone trail simulations, the ACO algorithm, colony network topology, and what emergent intelligence tells us about cooperation at scale.
Four rules. Infinite complexity. John Conway's 1970 cellular automaton — playable grid, pattern library (gliders, guns, methuselahs), and the mathematics of emergence. Turing-complete from a 36-cell starting configuration.
Six eras of elemental discovery. An interactive periodic table that fills in as you quiz through history — from ancient gold to synthetic oganesson. 5,000 years of chemistry in one exhibit.
354-hour lunar nights. Real NASA life-support data. Power, oxygen, thermal regulation, food — balance the books on a $4.7B lunar outpost.