Time Travel: Quantum Physics Explained

Learn time travel in quantum physics and explore your thinking about time in past and future.

What you'll learn
Photoelectric effect experiment
Compton effect
Introduction to Classical and Quantum Physics
Two slits experiment
Entanglement and history of quantum physics
Wave function
The Heisenberg Uncertainty Principle
An experiment with a bullets
An experiment with waves
An experiment with electrons
Wave particle duality
The Schrodinger Wave Equation
The probability of wave function
Strength of wave function
Quantum spin and probability amplitude
The state of a system and revisited two slit experiment
Requirements
Interest in Quantum Physics
Description
In this course, we will discuss Time Travel: Quantum Physics Explained. We will discuss that how quantum physics and time travel are associated with each other. We start from basics and end on where quantum physics and time travel have a strong bond between them. The Schrodinger wave equation is actually a nice explanation of quantum physics and time travel. This course is purely designed for the students of colleges and universities. Students will master all the fundamental concepts of quantum mechanics and its applications. All the videos in this course have been captured on PowerPoint slides where the instructor provides an explanation of various theoretical concepts of quantum mechanics. This is a chocolate-like course. So the students from any background can take this course easily.All videos have been framed sequence-wise and contain simple stuff rather than animated-like materials. It is just getting a true knowledge course in quantum mechanics. The course has been designed keeping in mind that what kind of problems students feel as instructor own experience when he was taking this course in the university.I would like to tell you more bout this course to avoid any frustration.1. It is powerpoint slides constructed lecture notes.2. It is a more theoretical and less mathematical course, where I have explained all the fundamental concepts of quantum physics.3. My accent of speaking English is Asian and I have fully tried to make the lectures for all citizens understandable.If you are a student of a university and you are studying quantum mechanics as a course then you can take this course. I assure you that you will get benefits from this course.COURSE CONTENTSPhotoelectric effect experimentCompton effectIntroduction to Classical and Quantum PhysicsTwo slits experimentEntanglement and history of quantum physicsWave functionThe Heisenberg Uncertainty PrincipleAn experiment with a bulletsAn experiment with wavesAn experiment with electronsWave-particle dualityThe Schrodinger Wave EquationThe probability of wave functionStrength of wave functionQuantum spin and probability amplitudeThe state of a system and revisited two-slit experimentNow the most important thing is that if you don't like the course then you can take your money back and if you like and this course is helpful for you then please please write your point of view about the course. Hope you have understood that what I am saying. SECTIONS IN THIS COURSEThere is a total of 12 sections in this course which are separated according to their titles. Each section contains a proper number of videos in which the instructor explains the fundamental concepts of quantum mechanics and their applications. Section 1 is the introduction to quantum mechanics while the remaining sections are the complete description of quantum mechanics.GLOBAL DEMAND OF THIS COURSEThis is a very rising topic in today's physics. All the concepts in theoretical physics are based on quantum mechanics. The course has been prepared according to the need and deficiencies of students. Students search many websites and YouTube but they fail to find the complete course in quantum mechanics. So this is really one of the distinct courses on any online platform. I hope that my efforts to designed this course will be encouraged and it will be helpful for every student in a quantum world.

Overview

Section 1: Introduction

Lecture 1 An Introduction to Classical Mechanics

Section 2: Classical Mechanics

Lecture 2 Classical Randomness and Ignorance of Information

Section 3: Quantum Physics

Lecture 3 Quantum Physics

Lecture 4 Intrinsic Randomness

Lecture 5 Interference

Section 4: Entanglement

Lecture 6 Entanglement

Lecture 7 Observations, Information and Theories of Physics

Section 5: The History of Quantum Physics

Lecture 8 The History of Quantum Physics

Lecture 9 Quantum History (Part-II)

Section 6: Wave Function

Lecture 10 What is Wave Function

Lecture 11 The Harmonic Wave Function

Lecture 12 Waves Packets

Section 7: The Heisenberg Uncertainty Relation And Two Slits Experiment

Lecture 13 The Heisenberg Uncertainty Relation

Lecture 14 The Heisenberg Microscope

Lecture 15 Two Slits experiment

Lecture 16 Experiment with a Bullet

Lecture 17 Experiment with a Bullet

Lecture 18 An Experiment with Waves

Lecture 19 An Experiment with Electrons

Section 8: Wave Particle Duality and Probability of Wave Function

Lecture 20 Wave Particle Duality

Lecture 21 Probability of Wave Function

Section 9: The Schrodinger Wave Equation

Lecture 22 Theoretical Description of Schrodinger Wave Equation

Lecture 23 Strength of Wave Function

Section 10: Quantum Spin and Probability Amplitude

Lecture 24 Quantum Interference for Spin

Lecture 25 Probability Amplitude

Section 11: The State of a System and Revisited Two Slit Experiment

Lecture 26 The State of a System

Lecture 27 Revisited Two Slit Experiment

Students of Quantum Physics