Quantum Mechanics in Urdu/Hindi
4.6 (4 ratings)
Course Ratings are calculated from individual students’ ratings and a variety of other signals, like age of rating and reliability, to ensure that they reflect course quality fairly and accurately.
82 students enrolled

Quantum Mechanics in Urdu/Hindi

Welcome to The Quantum World! This course is an introduction to Quantum Mechanics, from beginner to an advance level.
4.6 (4 ratings)
Course Ratings are calculated from individual students’ ratings and a variety of other signals, like age of rating and reliability, to ensure that they reflect course quality fairly and accurately.
82 students enrolled
Created by Muhammad Zia
Last updated 7/2018
English
Current price: $11.99 Original price: $19.99 Discount: 40% off
2 days left at this price!
30-Day Money-Back Guarantee
This course includes
  • 7 hours on-demand video
  • 4 downloadable resources
  • Full lifetime access
  • Access on mobile and TV
  • Certificate of Completion
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What you'll learn
  • Why we need Quantum Mechanics ?
  • Explain what the quantum mystery is ?
  • All the basic & necessary features of Quantum Mechanics.
  • Underlying concepts in Quantum Mechanics.
  • All the necessary tools for an advanced level Quantum mechanics Course will be in your pocket
Requirements
  • Desire to learn about bizarre but real phenomena.
  • Students are expected to have understanding of intermediate level courses in modern physics and High school algebra.
  • No other upper-level physics or mathematics courses are required.
Description

Quantum Mechanics (QM) seems to be one of the weirdest theories of Physics. Despite all the beauty of this amazing theory, it becomes extremely hard to understand the underlying concepts of Quantum Mechanics. This might be the reason behind the famous quote of Richard Feynman about Quantum Mechanics.He used to say that, " I think I can safely say that nobody understands Quantum Mechanics".Yet, we can have an insight of the most astounding and bewildering depictions of quantum mechanics.
This course is for the beginners & for those students who are struggling to make some sense of Quantum Mechanics. In this course we will understand why do we need Quantum Mechanics & then we will move forward to understand basics & key concepts in Quantum Mechanics which are Fundamental to understand the whole of Quantum Mechanics.

Who this course is for:
  • This course is for the student who wants to make sense of the underlying concepts in Quantum Mechanics.
  • This text is designed to introduce undergraduates at the junior and senior levels to quantum mechanics.
Course content
Expand 12 lectures 07:06:09
+ Introduction
12 lectures 07:06:09

In this Lecture you will learn:

1. What is classical mechanics?
2. What is quantum mechanics?
3. Which people will never need QM?
4. Why is QM ever needed?
5. What led to the invention of QM?
6. Why is QM so different and difficult?

Preview 21:45

In this Lecture you will learn:

1. Discrete stats of a quantum system
2. Superposition principle
3. Schrodinger’s Cat
4. The wave function of a particle
5. Taking averages

Preview 25:32

In this lecture you will learn:

1. Planck’s Constant
2. Wave-Particle Duality
3. Observables and Operators
4. Eigenvalues and Eigenfunctions
5. “Deriving” the Schrodinger Equation

Observables and Operators
32:15

In this lecture We will learn:

1. The Free Particle in Classical Mechanics
2. The Free Particle in Quantum Mechanics
3. Eigenvalues and Eigenfunctions – Free Particle
4. Particle in an Infinite Well

The Free Particle in Quantum Mechanics
40:38

In this lecture We will learn:

1. Eigenfunctions of the Infinite Well
2. Determining Expansion Coefficients
3. Interpreting Coefficients Quantum Mechanically
4. How a Wave function Changes with Time?

Expanding in Eigenfunctions
32:42

In this lecture We will learn:

1. Why is the SHO so Important?
2. The Shrodinger Equation for the SHO
3. Solving the Oscillator Schrodinger Equation
4. Averages of Kinetic/ Potential Energies
5. Understanding the Results

Quantum Simple Harmonic Oscillator
39:56

In this lecture We will learn:

1. Bound States 
2. Unbound States 
3. Wave function Nodes and Kinetic Energy 
4. Physical Examples

Bound and Unbound States
28:38

In this lecture We will learn:

1. What is Quantum Tunneling
2. Probability Current
3. Steps and Barriers
4. Application: Alpha-decay of a Nucleus
5. Application: Scanning Tunneling Microscope

Quantum Mechanical Tunneling
44:27

In this lecture We will learn:

1. Classical angular momentum
2. Transition to quantum mechanics
3. Quantization of angular momentum
4. Quantization of energies
5. Generating translations and rotations

Unit 9: Angular Momentum (Part I) - Two Dimensions
36:32

In this lecture We will learn:

1. Angular Momentum in 3-D
2. Commutation rules
3. Quantization of angular momentum
4. Spherical Harmonics
5. Application to rigid rotator


Unit 10: Angular Momentum (Part II) - Three Dimensions
42:41

In this lecture We will learn:

1. The 1913 picture of the H-atom (Bohr atom)
2. A very rough calculation of size and energy
3. Schrodinger Equation (L=0 case only)
4. Solutions of Schrodinger Equation
5. Understanding the solutions


Hydrogen Atom (Part-I)
46:13

In this lecture We will learn:

1. The H-atom Hamiltonian in polar coordinates
2. Review of angular momentum in 3-D
3. Energies and eigenfunctions
4. Understanding the solutions
5. Multi-electron atoms


Hydrogen Atom (Part-II)
34:50