Prof. P.C. Deshmukh, Indian Institute of Technology Tirupati Selected Lectures in Classical & Quantum Physics Prerequisites MechanicsModern physics Classical Mechanics Lec 01 : BrachistochroneLec 02: Isochronous PendulumLec 03 : More Applications of Variational PrincipleLec 4: Rotations in Classical Mechanics Electrodynamics Lec 05: Semi-empirical Classical ElectrodynamicsLec 06 : Energy of a Charge DistributionLec 07: Biot, Savart, Ampere LawsLec 08: Multipole ExpansionsLec 09 : Uniqueness theoremLec 10 : Helmholtz TheoremLec 11 : Maxwell’s Equations and Interface Boundary ConditionsLec 12 : EM Waves, Energy, and Momentum; Poynting VectorLec 13 : Electromagnetic Field TensorLec 14 : Invariance of Maxwell’s equations under Lorentz transformations Quantum Mechanics Lec 15 : Necessity to Supersede Classical Mechanics by Quantum physicsLec 16 : Linear Vector Spaces; Mathematical Formalism of Quantum PhysicsLec 17 : Hermitian Operators; ObservablesLec 18 : CSCO: Complete Set of Compatible Observables; Commuting OperatorsLec 19 : Uncertainty principle and the Schrodinger EquationLec 20 : Quantum TunnellingLec 21 : Generators of Translations and Rotations; Linear and Angular MomentumLec 22 : Evolution of a Quantum StateLec 23: Schrodinger, Heisenberg, and Dirac Picture of Quantum EvolutionLec 24 : Feynman Path Integral Approach to Quantum PhysicsLec 25 : Sum Over all Paths/Histories; Nested Gaussian IntegralsLec 26 : Free Particle Path IntegralsLec 27 : Superposition States of Feynman ParticlesLec 28 : Dynamic and Geometrical Phase. BERRY PHASELec 29 : Feynman Path Integral analysis of BERRY PHASELec 30 : Path Integral analysis of AHARONOV-BOHM effect.Lec 31: Einstein-Podolsky-Rosen ParadoxLec 32 : Classical vs. Quantum UncertaintyLec 33 : Quantum EntanglementLec 34 : Correlations in Results of Measurements: Bell InequalityLec 35 : Revisiting classical computersLec 36: Computing: from Classical to QuantumLec 37 : Quantum Logic GatesLec 38 : Physical Qubits – spin half systemsLec 39 : Quantum AlgorithmsLec 40 : No Clone Theorem” of quantum information scienceLec 41 : Semi-classical Rabi oscillationsLec 42 : Generalized Rabi OscillationsLec 43: Need for Quantum Electrodynamics (QED)Lec 44 : Jaynes Cummings ModelLec 45 : Cavity QEDLec 46 : Haroche experiment. Collapse and Revival of Rabi oscillations