A book titled “The Five Dimension Space-Time Universe: A creation and grand unified field theory model” was published by Scientific Research Publishing, USA in 2014. Since then, two more friends, Professors Fung and Chow joined the effort. Many more articles with rigorous mathematical foundation extensions were published, including solving for the first time the explicit form of the Maxwell’s magnetic monopoles. It is then clear why there must be a Bose-Einstein vacuum as suggested by Higgs, and all matters can be considered as thermal excitations from it. In fact, the theory works extremely well from astronomical objects, like stars and planets to the precise calculated mass for the proton and neutron, leading to revelation of a precise quark mass of 33 MeV. A first implication that a General Musical Code might exist in the 5D homogenous space-time manifold. Perhaps the most insightful is that the 4th space dimension within the 5D homogenous manifold is actually an entangled variable to the Fermat’s amplitude ‘r’, according to Euler Theorem on 5D manifold. One important consequence is that in the Fourier energy and momentum representation, the 4th momentum variable is completely imaginary. Such a result leads to the emergence of the Higgs bosons, with a primordial spectrum. Based on the crucial steps of deduction briefly outlined above, the current book is written.
Sample Chapter(s)
Preface (125 KB)
Components of the Book:
- Author Biographies
- Preface
- Acknowledgements
- Chapter 1. Introduction
- Chapter 2. The Magnetic Monopoles
- Chapter 3. The Perelmann Mappings and Its Implications to the Properties of Astronomical Objects
- Chapter 4. The Relationship of Fractionally Charged Quarks
and Gauge Invariance
- Chapter 5. The Equation of Gravity and Unification to Electromagnetic Fields
- Chapter 6. The Primordial Monopole Spectrum and the General Musical Code
- Chapter 7. The Geesink-Meijer Frequency Series with the Essential Element Water
- Chapter 8. The Intended Intelligent Universe Observer and Survival of the Fittest
Readership:
Students, academics, teachers and other people attending or interested in the universe.
Wan Ki CHOW, The Hong Kong Polytechnic University
He graduated from the University of Hong Kong with a first class honours BSc degree in 1977 and a PhD degree in Theoretical Physics in 1983; an MST degree from Portland State University, Portland, Oregon, USA in 1979. Chow is currently Emeritus Professor (Architectural Science and Fire Engineering) conferred by University Senate of The Hong Kong Polytechnic University (PolyU), and President of Asia-Oceania Association for Fire Science and Technology.
Peter Chin Wan Fung, University of Hong Kong
He received the BSc (Phys.) degree, the BSc special hons degree, and the PhD degree in radio astronomy from the University of Tasmania, Hobart, Australia. He has been with the University of Montreal (as Research Associate), Montreal, Canada, and The Institute for Plasma Research, Stanford University (as Research Associate, Research Physicist, and Scientific Consultant), USA, during the late 1960s to early 1970s. He was also Visiting Professor in the Physics Department, Kansas University, USA.
Kai Wai Wong, University of Kansas
He subsequently obtained both his master and PhD at the age of 23 from Northwestern
University under the supervision of A.J.F. Siegert, and the coaching in mathematics of H.C. Wang. He was a Northwestern University Fellow for one year, and a post-doctoral research associate under Max Dresden at Iowa University. After which he joined the Department of Physics and Astronomy of the University of Kansas, until retirement.