Knowledge in Quantum theory

Engineering physics-electronic properties of metals

This was the notes written by me in the topic electronics properties of metals.This notes contains all the information about classical quantum theory-its drawbacks ,quantum theory of free electrons.And also Fermi Dirac distribution with it's merits and demerits

Quantum physics notes

Quantum theory is the theoretical basis of modern physics that explains the nature and behavior of matter and energy on the atomic and subatomic level. The nature and behavior of matter and energy at that level is sometimes referred to as quantum physics and quantum mechanics. this notes covers all the important topics of the chapter.Its helpful for the quick revision for the chapter. This chapter was taught to the students of first year of DELHI TECHNOLOGICAL UNIVERSITY(one of the top engineering colleges of india). thank you :)

Introduction to Quantum Mechanics Unit II

Quantum mechanics is a physical science dealing with the behaviour of matter and energy on the scale of atoms and subatomic particles / waves. ... Albert Einstein and Niels Bohr soon made important contributions to what is now called the "old quantum theory."

Unit III: Quantum theory of solids

1 Basics of CFET, expressions for electrical parameters Drude and Lorentz proposed the classical free electron theory of electrical conductivity of metals (as early as 1904). The model of conductivity of free electrons is based on the following assumptions:

Modern Quantum Physics

the above pdf contain hand written notes of quantum physics ..

Quantum Computers

Quantum technology is a field of physics and engineering, which aims to provide practical applications of quantum mechanical phenomena like ‘Quantum tunneling’, ‘Quantum superposition’ and ‘Quantum entanglement.’ It has been in use from the 1960’s and still offers a vast potential for development. It offers various advantages over the current ‘Classical systems.’ A Quantum Computer can perform very complex computations at incredible speeds. It offers a more secure transmission of information with the help of QKD. Quantum sensors might help in improving the detection of cancer.

Engineering Physics Quantum Theory Module 1

Quantum Theory : Planck’s radiation formula, Ultraviolet catastrophe, Compton’s effect, de Broglie’s concept of matter waves, Heisenberg’s uncertainty relations, Schrodinger’s wave equation, Physical interpretation of wave function, Particle in a one-dimensional potential well.

Engineering Physics Quantum Theory Module 2

Quantum Theory : Planck’s radiation formula, Ultraviolet catastrophe, Compton’s effect, de Broglie’s concept of matter waves, Heisenberg’s uncertainty relations, Schrodinger’s wave equation, Physical interpretation of wave function, Particle in a one-dimensional potential well.

engineering physics unit 3 Quantum theory notes

3. Quantum Theory : Planck’s radiation formula, Ultraviolet catastrophe, Compton’s effect, de Broglie’s concept of matter waves, Heisenberg’s uncertainty relations, Schrodinger’s wave equation, Physical interpretation of wave function, Particle in a one- dimensional potential well.

rgpv engineering physics unit quantum mechanics notes

Black body radiation, ultraviolet catastrophe, Crompton effect, plates theory of radiation, phase and group velocity, particle in a box, uncertainty principle, well-behaved wave equation, Schrodinger equation, application to particle in a box.

QUANTUM CHEMISTRY

Quantum chemistry, also called molecular quantum mechanics, is a branch of chemistry focused on the application of quantum mechanics in physical models and experiments of chemical systems. Understanding electronic structure and molecular dynamics using the Schrödinger equations are central topics in quantum chemistry.

Quantum Mechanics PPT for engineering (1st year)

It contains a ppt which will help you to get knowledge about Quantum Mechanics which you will require in your first year of B.Tech.