fundamental formulas of physics: categories
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Fundamental formulas (or formulae) of Physics are pragmatically defined as “those mathematical formulae that have a well-defined physical interpretation related
to verifiable and reproducible physical experiments, and that are in use by the
largest majority of physicists and mathematicians involved in both the practice and study of physics, and also its engineering applications”.
In short, fundamental formulas are the most important, essential mathematical formulae in Physics that have a well-understood physical content and interpretatation, which thus provide the basis for either specific areas of physics or general/ theories
of Physics.
- Basic mathematical formulas
used in physics;
- Physical constants;
- Statistics and Probability theories;
- Nomograms;
- classical mechanics;
- Sound and Acoustics
- Geometric Optics;
- Electromagnetism;
- Electronics and applications
- Electrical engineering and telecommunications
- Nanoelectronics and Nanomaterials
- Netwon's theory of Gravitation
- photoelectric effect
and Einstein's
explanation/ formulae
- Solar photovoltaics
- Einstein's special relativity
theory
- Einstein's General Relativity theory
- Quantum Mechanics;
- quantum field theories
(QFT), TQFT
and HQFT
- Quantum Fields on a Lattice (QFL) and quantum theories on a lattice
(QTL)
- Computational, theoretical physics
- quantum logics
and Quantum Logic Algebras
- algebraic quantum field theory
- quantum automata
and Quantum Computing
- Standard Model (SUSY)
- supersymmetry
and supergravity
theories
- Radioactivity, Atomic and Nuclear physics
- Harmonic oscillator and coupled oscillators;
- fluid dynamics
and Rheology;
- Kinetic theory of gases and Classical statistical mechanics
- Molecular Physics, heat
and Thermodynamics
- quantum statistical mechanics
(QS)
- High energy physics
and Elementary Particles
- Ergodic systems
Information theory and Irreversible Thermodynamics
- Mathematical Physics
- quantum electrodynamics
(QED)
- Quantum Chromodynamics (QCD)
- quantum gravity
(QG)
- Complex system dynamics
(CSD)
- Chaotic Systems and Chaos
- Mathematical and theoretical biophysics
- Semiconductors, Hall effect and Josephson effect
- superconductivity
and superconductors
- Crystal Lattices and Symmetry
- Paracrystals and paracrystal theory
- Noncrystalline materials and glasses
- applied physics
- Physical Mathematics and Physical Applied Mathematics
- Ax
- Ay
- Az
- 1
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D. H. Menzel. Fundamental Formulas of Physics. Vol. 1 and 2, 1965
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