Video Discription |
RELATIVISTIC QUANTUM MECHANICS 2008; EULER - LAGRANGE EQUATION; HIGGS BOSON FOR GATE & CSIRNET - 3;
ABOUT VIDEO
THIS VIDEO IS HELPFUL TO UNDERSTAND DEPTH KNOWLEDGE OF PHYSICS, CHEMISTRY, MATHEMATICS AND BIOLOGY STUDENTS WHO ARE STUDYING IN CLASS 11, CLASS 12, COLLEGE AND PREPARING FOR IIT JEE, NEET AND OTHER COMPETITIVE EXAMINATION.
https://youtube.com/@UCllDkA5I_8xQF5mYl41sO0Q
@PHYSICS MADE EASY (KOTA), #PHYSICSMADEEASYKOTA, #PHYSICSMCQs, #gatemadeeasykota , the Schrodinger equations, the Klein Gordon equation, the Dirac equation, quantum electrodynamics, scattering and perturbation theory, quantum chromodynamics, conserved density, conserved current, probability density, volume enclosed by area, special relativity, four vectors, invariant, Lorentz transformation, metric tenser, orthogonal, four momentum, co vector, natural units, energy, momentum, mass, spin zero, scalar, pseudo scalar, continuity equation, plane wave, negative energy, negative probability distributions, Feynman - Stuckelberg interpretation, antiparticle, quantum field theory, Normalisation of KG solution, particles per unit volume, Lagrangian, Euler - Lagrange equation, anti-commutation relation, Pauli-exclusion principle, orthogonality and completeness, the Dirac equation from the Lagrangian, angular momentum and spin, intrinsic angular momentum, degree of freedom, orbital angular momentum, Helicity of mass less fermions, Weyl spinners, left handed, right handed, projection operators, chiral representations, Higgs field, effective mass, Higgs boson, infinitesimal proper, parity transformation, change conjugation, complex conjugates, metrics, time reversal, wave-function, CPT, classification of electromagnetism, Maxwell`s equation, potential, gauge transformation, wave equation, coulomb gauge, Lagrangian for the free photon field, Dirac equation in an electromagnetic field, electron, the magnetic moment of the electron, forces momentum conservation, Feynman diagrams, the QED Feynman rules, transition amplitude, closed loop, Fermi statistics, trace identities, Mandelstam variables, time direction, space direction, periodic boundary conditions, differential cross-section, centre of mass, flux, crossing symmetry, identical particle in initial or final state, coherently, Compton scattering and the fermions propagator, greens function, decay rates, the decay is back to back, lifetime, Quarks, gluons and colours, Gell-Mann Lemda metrics, QCD from Lagrangian, Ultra-Violet singularity, bare mass, legalisation by a momentum cut-off, running couplings, beta function, confine quarks, @PHYSICSMADEEASY0239
https://youtube.com/@UCllDkA5I_8xQF5mYl41sO0Q
https://www.linkedin.com/in/m-s-lakra-2b079227/
https://www.instagram.com/?hl=en
https://pcmbmadeeasy.blogspot.com/
https://t.me/PHYSICSMADEEASY
https://www.facebook.com/mschauhan0239/
https://business.facebook.com/latest/home?business_id=791517012837662&asset_id=210725178801177 f1uohK5gBaY |