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Introduction to the Maths and Physics of Quantum Mechanics

Lucio Piccirillo
€99.99
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Angular Momentum
Author_Lucio Piccirillo
Black Body Radiation Spectrum
Blackbody Cavity
Blackbody Radiation
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Category=PHQ
classical to quantum transition
complex numbers in physics
De Broglie Wavelength
Distribution Function
Dulong Petit Law
Energy Density
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Equipartition Theorem
Euler Lagrange Equations
Fermat's Principle
Feynmann path integrals
foundational quantum theory
Frictionless Piston
Hamilton's Equations
Heisenberg matrix formulation
Inertial Reference Frame
Left Cavity
Mathematical Expressions
mathematical physics
Maxwell's Equations
modern physics
Pilot Waves
Planck Formula
Poisson Brackets
quantum mechanics
quantum physics
Rayleigh Jeans Approximation
Rydberg Constant
Rydberg Formula
Schrodinger wave-function formulation
second quantisation methods
Spectral Radiance
uncertainty principle origins
undergraduate physics study
wave function
why wave functions are complex
Wien's Displacement Law

Product details

  • ISBN 9780367703028
  • Weight: 740g
  • Dimensions: 156 x 234mm
  • Publication Date: 04 Oct 2023
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Hardback
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Description

Introduction to the Maths and Physics of Quantum Mechanics details the mathematics and physics that are needed to learn the principles of quantum mechanics.

It provides an accessible treatment of how to use quantum mechanics and why it is so successful in explaining natural phenomena. This book clarifies various aspects of quantum physics such as ‘why quantum mechanics equations contain “I”, the imaginary number?’, ‘Is it possible to make a transition from classical mechanics to quantum physics without using postulates?’ and ‘What is the origin of the uncertainty principle?’. A significant proportion of discussion is dedicated to the issue of why the wave function must be complex to properly describe our “real” world.

The book also addresses the different formulations of quantum mechanics. A relatively simple introductory treatment is given for the “standard” Heisenberg matrix formulation and Schrodinger wave-function formulation and Feynman path integrals and second quantization are then discussed.

This book will appeal to first- and second-year university students in physics, mathematics, engineering and other sciences studying quantum mechanics who will find material and clarifications not easily found in other textbooks. It will also appeal to self-taught readers with a genuine interest in modern physics who are willing to examine the mathematics and physics in a simple but rigorous way.

Key Features:

  • Written in an engaging and approachable manner, with fully explained mathematics and physics concepts
  • Suitable as a companion to all introductory quantum mechanics textbooks
  • Accessible to a general audience
About Lucio Piccirillo

Lucio Piccirillo is a Professor of Radio Astronomy Technology at the University of Manchester, UK, with extensive experience in designing and building cryogenic systems primarily used to cool astrophysical detectors. He has written more than 100 publications in international journals. He has written more than 100 publications in international journals and is the author of Miniature Sorption Coolers: Theory and Applications (CRC Press, 2018) and Introduction to the Maths and Physics of the Solar System (CRC Press, 2020).

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