cellular automata in physics
Cellular automata in physics refers to computational models that simulate the behavior of physical systems using a grid of discrete cells, where each cell's state is updated based on a set of predefined rules and its neighboring cells. It allows for the study and understanding of complex processes like fluid flow, particle interactions, and phase transitions in a simplified and discrete manner.
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Related Concepts (23)
- applications of cellular automata in physics
- cellular automata
- cellular automata in biological physics
- cellular automata in chaos theory
- cellular automata in computational physics
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- cellular automata in condensed matter physics
- cellular automata in cosmology
- cellular automata in fluid dynamics
- cellular automata in gravitational systems
- cellular automata in lattice gauge theory
- cellular automata in phase transitions
- cellular automata in quantum field theory
- cellular automata in quantum information theory
- cellular automata in quantum mechanics
- cellular automata in simulating physical systems
- cellular automata in solid-state physics
- cellular automata in statistical physics
- cellular automata in turbulent flow
- cellular automata models
- dynamics of cellular automata
- quantum cellular automata
- statistical mechanics of cellular automata
Similar Concepts
- cellular automata as models in physics
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