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LEC - 1 Introduction to the quantum physics

LEC-2 Postulates of Quantum mechanics

LEC - 3 Failure of classical (EM) theory

LEC - 4 Photoelectric effect

LEC - 4(2nd) Einstein photoelectric equation

LEC-5 Inadequacy of old quantum theory

LEC - 6 Compton's effect

LEC- 8 De Broglie hypothesis

LEC-9 Davisson Germer experiment

LEC-10 Group velocity and phase velocity

LEC-10(2nd) Phase velocity and group velocity 2

LEC-11 Heisenberg uncertainty principle

LEC -12 Uncertainty principle from De Broglie wave

LEC - 13 Schrödinger Time Dependent Equation || Quantum Mechanics || B. Sc / M. Sc Physics

LEC-14 Wave function

LEC - 15 Significance of wave function

LEC-15(2nd) Characteristics of wave function

LEC-16 Normalisation of wave function part 1

LEC-16(2nd) Normalisation of wave function part 2

LEC-17 Operators and observables

LEC-18 Schrodinger time independent equation

LEC-19 Expectation value

LEC-20 Probability current density

LEC-21 The Ehrenfest Theorem

LEC-22 The Ehrenfest Theorem 2

LEC-23 THE BLACK BODY

LEC-24 THE BLACK BODY RADIATIONS

LEC-25 RAYLEIGH JEANS LAW 'ULTRAVIOLET CATASTROPHE'

LEC-26 PLANCK'S LAW FOR BLACK BODY RADIATIONS

LEC-27 DERIVATION OF PLANCK'S LAW

LEC-30 Potential Step

LEC -31 Potential Step (continue)

LEC-33 Potential well / Particle in a box

LEC-34 Potential well/ particle in a box part 2

LEC -35 The Potential Barrier

LEC-36 The Potential Barrier 2

LEC-37 The Potential Barrier (Quantum Tunnelling)

LEC -38 Potential Barrier(Quantum Tunneling)

LEC- 39 The Harmonic Oscillator

LEC- 40 The Harmonic Oscillator 2

LEC- 41 The Harmonic Oscillator 3

LEC-42 Wave Functions For The Harmonic Oscillator

LEC-43 INTRODUCTION TO LINEAR VECTOR SPACES

LEC-44 LINEAR VECTOR SPACES

LEC-45 INNER PRODUCT OF VECTORS 2

LEC-44 INNER PRODUCT OF VECTORS

LEC-45 BASIS VECTORS, SUBSPACE OF VECTOR SPACE

Description:

Dive into the fundamental principles of quantum mechanics through a comprehensive series of lectures covering essential topics for physics students and exam preparation. Explore key concepts like the photoelectric effect, de Broglie hypothesis, Heisenberg uncertainty principle, and Schrödinger equations. Examine the failures of classical electromagnetic theory, delve into wave functions and their significance, and investigate quantum phenomena such as potential barriers and quantum tunneling. Progress through advanced topics including harmonic oscillators and linear vector spaces. Ideal for BSc and MSc physics students, as well as those preparing for NET-JRF, GATE, UPSC, and JAM exams.

Quantum Mechanics

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#Science #Physics #Quantum Mechanics #Quantum Physics #Heisenberg Uncertainty Principle #Schrodinger Equation #Photoelectric Effect #Programming #Software Development #Reactive Programming #Observables #Wave Functions

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