Understanding Quantum Mechanics: History, Principles, Interpretations, and Applications, Schemes and Mind Maps of Physics

An in-depth exploration of quantum mechanics, a fundamental theory in physics. Discover its historical basis, basic laws, interpretations, and applications. Learn about the works of prominent scientists and their contributions.

Typology: Schemes and Mind Maps

2014/2015

Uploaded on 08/24/2021

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Introduction
What is Quantum mechanics?
How Quantum mechanics is different from Classical Physics?
Who is the father of Quantum Mechanics?
Body
Mam I’m dividing the body in five parts -
1. Historical basis of Quantum Mechanics
Basic considerations
Early Developments
2. Basic laws, principles and hypothesis
Three revolutionary principles with description of each
principle
Plank’s radiation law
Einstein and Photoelectric effects
Bohr theory of atoms
Scattering of X rays
De Broglie’s wave hypothesis
Basic Concepts and Methods
Schrodinger’s wave mechanics
Electron Spin and antiparticles
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Introduction

What is Quantum mechanics? How Quantum mechanics is different from Classical Physics? Who is the father of Quantum Mechanics?

Body

Mam I’m dividing the body in five parts -

  1. Historical basis of Quantum Mechanics ➢ Basic considerations ➢ Early Developments
  2. Basic laws, principles and hypothesis – ➢ Three revolutionary principles with description of each principle ➢ Plank’s radiation law ➢ Einstein and Photoelectric effects ➢ Bohr theory of atoms ➢ Scattering of X rays ➢ De Broglie’s wave hypothesis ➢ Basic Concepts and Methods ➢ Schrodinger’s wave mechanics ➢ Electron Spin and antiparticles

➢ Identical particles and multielectron atoms ➢ Time Dependent Schrodinger equation ➢ Tunneling ➢ Axiomatic Approach ➢ Incompatible Observables ➢ Heisenberg Uncertainty Principle ➢ Composite Systems and Entanglement ➢ Equivalence between formulates ➢ Symmetries and conservation laws

  1. The Interpretation of Quantum mechanics ➢ The electron : wave or particle ➢ Hidden Variables ➢ Paradox of Einstein , Podolsky and Rosen ➢ Measurement of Quantum Mechanics
  2. Application of quantum Mechanics ➢ Decay of Kaon ➢ Cesium Clock ➢ A quantum voltage standard
  3. Relation to other scientific theories ➢ Classical mechanics ➢ Special relativity and electrodynamics ➢ Relation to general Relativity