10% OFF

Teensy Weensy Universe: Quantum Mechanical Model Of The Universe As We Know It eBook

by Peter Gara
language: english
Publisher: Nova Science Publishers, Inc., December of 2019 ‧
125,88€
10% OFF CARD
IMMEDIATE AVAILABILITY
Ebook for ADE
Works on quantum mechanics (astronomy, cosmology etc.) often mention that "the laws of quantum mechanics" don’t apply in the "macro world". It all depends on what you mean by "macro world". How many atoms constitute the limit, just a couple of them, or a glass of milk, a sizeable house, a city, a continent? Instead, let’s dream big, the whole Planet, maybe our Solar system, our Galaxy, or the Universe as we know it… In this book, we don’t mean to "extend" quantum mechanics. As physical models go: given a world view we find the boundary conditions, set up a mathematical model corresponding to it, and compare it to the reality… Instead of the "extension" of quantum mechanics we simply take it as it is. Let’s examine what kinds of systems correspond to their laws and under which conditions. The fundamental statements underlying the book are the following: In Solar System-like structures, the individual constituents possess some charge (besides having mass, spin, magnetic moment, just like the particles of atomic structures). This statement allows for the quantum-mechanical modelling and interpretation of Solar System-like structures. All else can be derived from the above statement. The gravitational field and electric field exist independently of each other. The validity of the basic relationships between relativistic quantum mechanics is true for atomic scale systems, as well as for galactic scale systems.

Teensy Weensy Universe: Quantum Mechanical Model Of The Universe As We Know It

by Peter Gara

Property Description
ISBN: 9781536165630
Publisher: Nova Science Publishers, Inc.
Release Date: December of 2019
Language: English
Pages: 170
Format: eBook
File Format and Compatibility: PDF para ADE
Collection: Classical And Quantum Mechanics
Categories: eBooks in English > Science > Physical
EAN: 9781536165630