QUANTUM LEAP
This course is designed for MSc(PHYSICS) students as well as SET, GATE, and CSIR NET candidates..
Hamilton's equation of motion or the Hamiltonian canonical equation of motion #21
Hamiltonian function: conservation of energy #20
Generalized momentum and cyclic coordinates #19
#18: Hamiltonian principle @ Lagrange's equation from the Hamiltonian principle
Rigid rotator -three-dimensional energy eigenvalue problem
#4 Continuity equation from Dirac's relativistic equation
#3: Dirac's relativistic equation for a free particle
#2 Continuity equation from the Klein-Gordon equation or Schrodinger relativistic equation
#01 -Klein -Gordon equation or Schrodingers relativistic equation -Relativistic quantum mechanics
#21----EHRENFEST'S THEOREM-QUANTUM MECHANICS
#20 -Continuity Equation from Schrodinger wave equation
# 17 Applications of Lagrange's equation of motion--inclined plane
# 16 Applications of Lagrange's equation of motion--Simple pendulum
# 15 Applications of Lagrange's equation of motion-Linear Harmonic oscillator
# 14 ... Lagrange's equations of motion from D' Alembert's principle
#13 D' Alembert's principle
#12 Principle of virtual work
# 11Generalised Co-ordinates
#10 Constraints: Holonomic ,Non-Holonomic,Rheonomous and Scleronomous Constraints with Examples
#09 Degrees of freedom : Configuration space
#08 conservation of energy
#07 validity of Conservation Theorems of Linear and Angular Momentum for a System of Particles
#06 Conservation of linear momentum and conservation of angular momentum
#05 Mechanics of a system of particles
#04 Conservative force and potential energy
#03 conservation of energy
#02 Conservation of Angular momentum
#01 Conservation of linear momentum(CMP Introduction)
#09 Generating function of Legendre polynomial properties
#08 Generating function of Legendre polynomial properties