P-adic quantum mechanics - definition. What is P-adic quantum mechanics
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P-adic quantum mechanics         
p-adic quantum mechanics is a collection of related research efforts in quantum physics that replace real numbers with p-adic numbers. Historically, this research was inspired by the discovery that the Veneziano amplitude of the open bosonic string, which is calculated using an integral over the real numbers, can be generalized to the p-adic numbers.
Interpretations of quantum mechanics         
SET OF STATEMENTS WHICH ATTEMPT TO EXPLAIN HOW QUANTUM MECHANICS INFORMS OUR UNDERSTANDING OF NATURE
Philosophy of quantum mechanics; Quantum metaphysics; Interpretation of quantum theory; Interpretations of quantum theory; Wigner's Interpretation of Quantum Mechanics; Waveform Function Collapse; Wigner's interpretation of quantum mechanics; Interpretations of Quantum Mechanics; Interpretation of quantum mechanics; Branching space-time; Modal interpretation of quantum mechanics; Shut up and calculate; Modal interpretations of quantum mechanics; Modal interpretation; Time-symmetric interpretations; Quantum ontology
An interpretation of quantum mechanics is an attempt to explain how the mathematical theory of quantum mechanics might correspond to experienced reality. Although quantum mechanics has held up to rigorous and extremely precise tests in an extraordinarily broad range of experiments , there exist a number of contending schools of thought over their interpretation.
Quantum mechanics         
  • resonant frequencies]] in acoustics.)
  • Position space probability density of a Gaussian [[wave packet]] moving in one dimension in free space
  • 1-dimensional potential energy box (or infinite potential well)
  • Schematic of a Mach–Zehnder interferometer
  • [[Max Planck]] is considered the father of the quantum theory.
  • spring]]) in [[classical mechanics]] (A-B) and quantum mechanics (C-H). In quantum mechanics, the position of the ball is represented by a [[wave]] (called the [[wave function]]), with the [[real part]] shown in blue and the [[imaginary part]] shown in red. Some of the trajectories (such as C, D, E, and F) are [[standing wave]]s (or "[[stationary state]]s"). Each standing-wave frequency is proportional to a possible [[energy level]] of the oscillator. This "energy quantization" does not occur in classical physics, where the oscillator can have ''any'' energy.
  • The 1927 [[Solvay Conference]] in [[Brussels]] was the fifth world physics conference.
FUNDAMENTAL THEORY IN PHYSICS DESCRIBING THE PROPERTIES OF NATURE ON AN ATOMIC SCALE
Quantum Mechanics; Quantum mechanic; Quantum Physics; Quantum mechanical; Quantum system; Quantum-mechanical; Modern quantum mechanical; Quantum-mechanic; Quantum theory of matter; Classical Quantum Mechanics; Quantum mechanical laws; Nonrelativistic quantum theory; The Quantum Theory; Quantum mechanical properties; Quantum mechanical model; Quantum Mechanical Laws; Quantum realm; Quantum mechenics; Quantam physics; Quantum laws; Quantum dislocation; Quantum mechanical physics; Quantic mechanics; Quantum hypothesis; Quantum physicist; Quantum effects; Quantum physical; Quantum scale; Quantum energy states; Quantum systems; Quantum-scale; Free particle (quantum physics); Quantum physics; Draft:Geoffrey Habar; Draft:Theorem of Habar; Quantum world
Quantum mechanics is a fundamental theory in physics that provides a description of the physical properties of nature at the scale of atoms and subatomic particles. It is the foundation of all quantum physics including quantum chemistry, quantum field theory, quantum technology, and quantum information science.