๐ฌ Interactive Quantum Physics Laboratory
Explore subatomic particles, molecular formations, and quantum mechanics in real-time. Perfect for students, educators, and science enthusiasts!
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Particles
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Molecules
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Total Energy (eV)
๐ฎ Simulation Controls
๐ Data Management
๐ View Options
โก Atomic Particle Generator System
Generators: 0 | Production Rate: 0/sec | Materials: 0
Generator Types
Construction Zone
Construction Queue
Material Inventory
Active Generators
โ๏ธ Quantum Particle Interaction Field
Zoom: 1x | Particles: 0 | Energy: 0 eV
๐งฌ Molecular Database
ID | Class | Bond | Name | Mass | Polarity | Energy |
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โก Recent Reactions
๐ Quantum Physics Education
๐ฌ What You're Seeing
This simulation demonstrates real quantum mechanical principles including particle interactions, molecular formation, and energy conservation. Each particle represents actual subatomic particles with their real properties.
โ๏ธ Particle Types
- Protons (p) - Positive charge, found in atomic nuclei
- Neutrons (n) - No charge, stabilize atomic nuclei
- Electrons (e) - Negative charge, orbit atomic nuclei
- Positrons (e+) - Anti-matter electrons
- Muons (ฮผ) - Heavier cousins of electrons
- Tau (ฯ) - Heaviest charged leptons
- Photons (ฮณ) - Light particles, no mass
๐งช Molecular Formation
When particles get close enough, they can form molecular bonds based on their chemical compatibility. This follows real quantum mechanical principles of electron sharing and ionic bonding.