Survey

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Document related concepts

Quantum state wikipedia, lookup

Monte Carlo methods for electron transport wikipedia, lookup

Noether's theorem wikipedia, lookup

Quantum chromodynamics wikipedia, lookup

Electron scattering wikipedia, lookup

Nuclear structure wikipedia, lookup

Bell's theorem wikipedia, lookup

ATLAS experiment wikipedia, lookup

Technicolor (physics) wikipedia, lookup

Introduction to quantum mechanics wikipedia, lookup

Spinor wikipedia, lookup

An Exceptionally Simple Theory of Everything wikipedia, lookup

Higgs mechanism wikipedia, lookup

Minimal Supersymmetric Standard Model wikipedia, lookup

Future Circular Collider wikipedia, lookup

Renormalization group wikipedia, lookup

Bra–ket notation wikipedia, lookup

Propagator wikipedia, lookup

Two-body Dirac equations wikipedia, lookup

Canonical quantization wikipedia, lookup

Angular momentum operator wikipedia, lookup

Wave function wikipedia, lookup

T-symmetry wikipedia, lookup

Tensor operator wikipedia, lookup

Spin (physics) wikipedia, lookup

Mathematical formulation of the Standard Model wikipedia, lookup

Photon polarization wikipedia, lookup

Grand Unified Theory wikipedia, lookup

Scalar field theory wikipedia, lookup

Theoretical and experimental justification for the Schrödinger equation wikipedia, lookup

Dirac equation wikipedia, lookup

Elementary particle wikipedia, lookup

Lepton wikipedia, lookup

Symmetry in quantum mechanics wikipedia, lookup

Standard Model wikipedia, lookup

Relativistic quantum mechanics wikipedia, lookup

Transcript
```The Nilpotent generalization of Dirac’s famous Equation D(N)
where E, p, m, t and r are respectively energy, momentum, mass, time, space and the
symbols
± 1, ± i, ± i, ± j, ± k, ± i, ± j, ± k, are used to represent the respective units required by the
scalar, pseudo-scalar, quaternion and multivariate vector groups.
The Table of the nilpotents D(N, Xi), where the nilpotent operators Xi2 = 0, but Xi 0 specify
the quantizations of the experimentally validated Standard Model of elementary particle
physics in accordance with the spontaneous symmetry breaking of D(N) together with the
simultaneous emergence of 3+1 relativistic space-time:Baryons (spin 3/2):
Baryons (spin ½):
Leptons:
```
Related documents