August 31, 2018
by Pan Stanford
Reference - 150 Pages
ISBN 9789814774475 - CAT# N12003
For Instructors Request an e-inspection copy
SAVE ~$9.99 on each
Unifies quantum theory and the general theory of relativity. Presents a generalization of the method to study arbitrary smooth spaces or space-times. Revisits Fermat’s last theorem. Explains quantized Schwarzschild and Kerr objects. Gives the most potential answer to the question of why there was more matter than antimatter in the early universe.
The book unifies quantum theory and the general theory of relativity. As an unsolved problem for about 100 years and influencing so many fields, this is probably of some importance to the scientific community. Examples like Higgs field, limit to classical Dirac and Klein–Gordon or Schrödinger cases, quantized Schwarzschild, Kerr, Kerr–Newman objects, and the photon are considered for illustration. An interesting explanation for the asymmetry of matter and antimatter in the early universe was found while quantizing the Schwarzschild metric.
Along the way, the methods outlined in the book are also used to tackle the problem of the proof of Fermat’s last theorem, as there is a connection between quantum theory and basic mathematical laws of integers. The book shows that the proof of Fermat’s last theorem can be brought down to a few lines by applying new quantum theoretical methods. Because such proof was sought for over 370 years, this book is of definite interest to mathematicians.
The 1D-Quantum Oscillator in the Metric Picture
The Quantized Schwarzschild Metric
Generalization of "The Recipe" – From ħ to the Planck-Tensor
About Fermat’s last Theorem
Dirac-Quantization of the Kerr Metric