Master the physics simulation framework for Exiasi's zero-gravity environments. This guide explains core concepts and provides working examples for microgravity particle simulations.
Fundamental motion laws underpinning all simulation calculations. Our framework allows both standard and microgravity calculations with configurable parameters.
Implements adaptive bounding volumes that adjust based on particle density and velocity for optimal computational performance.
// Physics Engine Initialization
const physicsEngine = new Exiasi.Physics({
resolution: '4K',
particles: 1000000,
gravity: 0,
friction: 0.05
});
physicsEngine.addForce({
type: 'coulomb',
strength: 1.6e-4,
range: 300
});
Demonstrates three-body problem in artificial zero-gravity environments using quantum-level collision detection.
Create interactive force fields with configurable electromagnetic properties for particle containment.
Leverage quantum entanglement in physics simulations to create correlated particle behavior patterns.
import QuantumField from 'exiasi/physics/quantum'
const field = new QuantumField({
dimension: 3,
coherence: 'high'
});
field.initializeStates([1,2,3], [2,1,1]);
field.observe();
Take your physics engine implementation to the next level with Exiasi's quantum-level simulation capabilities. Ready to integrate quantum-level precision into your work?
View Physics Tutorials →