quantum mechanics
The fundamental theory of physics describing nature at the scale of atoms and subatomic particles.
- state of a system encoded in a wave function (Schrodinger equation)
- superposition: systems exist in multiple states simultaneously until measurement
- entanglement: correlated states across spacetime, foundational for quantum information theory
- measurement collapses the wave function — outcome is probabilistic
- Planck constant sets the scale separating quantum from classical mechanics
- energy, momentum, and angular momentum are quantized
- underpins electromagnetism (quantum electrodynamics), chemistry, and computation
- field theory extends quantum mechanics to relativistic domains — see relativity