The authors began their philosophical and scientific studies together in 1998. In developing their theory of omnipresence-the timelessness of mass-energy through which consciousness flows-they concluded that even though the concept of time provided consciousness with the ability to sequentially order events, it didn't function as a physical reality weaved into the fabric of space. They specifically questioned the premise of time dilation in Einstein's Special Theory of Relativity. As one thought led to another, this inquiry eventually led to a quantum model for momentum, movement, relativity, and gravity, uniting the physics of Isaac Newton, Albert Einstein, and Werner Heisenberg. What makes this work significant is their absolute confidence in timelessness. Taking time out of Einstein's theories unravels the mystery preventing Einstein's work from being explained from a quantum perspective.
Einstein Continued ...
The Missing Model of MotionBy Martin O. Cook David D. MilleriUniverse, Inc.
Copyright © 2009 martin o. cook and david d. miller
All right reserved.ISBN: 978-1-4401-7621-0Contents
Preface.............................................................................ixIntroduction........................................................................xiAcknowledgements....................................................................xiiiChapter 1 Einstein Continued........................................................3Chapter 2 A Fifth Grade Science Fair Project........................................5Chapter 3 The Michelson and Morley Experiment.......................................13Chapter 4 The Missing Model of Motion...............................................19Chapter 5 Quantum Momentum..........................................................21Chapter 6 Quantum Movement..........................................................25Chapter 7 Quantum Relativity........................................................27Chapter 8 Quantum Gravity...........................................................43Chapter 9 The Illusion of Time......................................................51Chapter 10 Timelessness.............................................................55Chapter 11 The Past and Future......................................................61Chapter 12 Infinite and Finite......................................................65Chapter 13 Was Einstein Wrong?......................................................69Appendix 1: Gravitational Energy....................................................73Appendix 2: Questions and Answers...................................................77
Chapter One
Relativity Continued ...
A complete, consistent unified theory is only the first step: our goal is a complete understanding of events around us, and of our own existence. Stephen Hawking
After General Relativity, Einstein sought to unite his macro theory of gravity to the micro wonders of quantum mechanics. It makes sense that if the macro is made from the micro, there must be a valid connection between the two. Unfortunately, he died before he could accomplish this realization. The task we put before ourselves is to bridge the gap between these two divided theories, General Relativity and Quantum Mechanics. For this reason, our efforts are a continuation of Einstein's work.
Four of Einstein's important big breakthroughs, including three in 1905, began with imaginative insights that led to the solutions: stirring sugar cubes in coffee, conceptualizing light frequencies as quantum particles, visualizing time as a variable, and connecting gravity and acceleration. This last one being his happiest thought. Through these insights came the mathematical validations.
Mathematics is the language of science. It is more precise than words. Yet, with Einstein, mathematics was secondary, at least for the initial breakthroughs mentioned above. Philosophical insights developed into working mathematical theories. In the same vein, we attempt to continue Einstein's work into the quantum level, providing the foundational philosophical insights into quantum momentum, quantum movement, quantum relativity, and quantum gravity. Our insights are futile if they do not yield mathematical proof.
The Role of Philosophers
It may seem strange that a scientific theory of great significance is being presented in this book by people who were not trained at the university in the art of scientific and philosophical thought. In essence, we are adding insight into a 100 plus year old theory that withstood the onslaught of the Nazi regime and its attempt to discredit it. As hinted by Einstein-when one hundred or so scientists challenged in a formal statement one of his theories-if he were wrong, it would only take one.
As we question the validity of Einstein's use of time in the Special Theory of Relativity and the creation of space-time in the General Theory of Relativity, we admire Einstein's imaginative thinking and brilliant insights. In our opinion, he was a great philosopher and thinker who practiced mathematics and science.
The role of philosophers and thinkers is to question, to explore, to propose, to stretch the imagination beyond its present bounds, to turn things upside down, inside out, and right side up until the truth is made manifest for all to question and experience. Since our thinking is open to the potentials and consequences of timelessness, we are worthy candidates for this present task. The following is our current work on timelessness and physics.
Chapter Heading Quote: (Hawking, A Brief History of Time, 186.)
Chapter Two
A Fifth Grade Science Fair Experiment
How can the same falling object travel two different differences?
The catapult of inspiration that led to the development of the Missing Model of Motion came from an unlikely source, helping my daughter with her fifth grade science fair project. Before I get into the project, I want to walk you through the events that eventually led to the Missing Model of Motion. It started back in 1998 when I met David at a part time job at Sears. Due to the nature of the job, answering incoming repair service calls, we had a lot of time to talk between calls on the graveyard shift. Within weeks before meeting David, I had come up with the idea of omnipresence from a spiritual and philosophical perspective, the emphasis for the follow-up book to this one. As David and I discussed and further developed the ideas of omnipresence, we were naturally led into the idea of timelessness. This led to a discussion that if timelessness was a reality, then time-as we experience it-was a concept of consciousness and not a physical actuality. This realization naturally led us to the work of Albert Einstein.
Special Relativity has changed the way people think about time. Time became the fourth dimension, being weaved into the fabric of space. The basic principle of Special Relativity is not that complicated. Special Relativity is the marriage of two contradicting principles, Galilean Relativity and Maxwell's constant for the speed of electromagnetic waves. It is the mathematics and consequences of Special Relativity that indulges in complexity. One important consequence of Special Relativity is time dilation. It stands in direct opposition to timelessness. If time dilation is a physical reality, then time exists and timelessness need not be further explored. On the other hand, if timelessness describes the perpetual state of mass-energy, then there is a problem with time dilation and Special Relativity because they depend on the physicality of time.
In trying to solve the time dilation dilemma, David and I worked out the basis for a theory that we called The Propagation of Light independent of Uniform Motion. This theory predicts that the speed and direction of light travels independent of the motion of the object emitting it. At first, we believed this in and of itself would answer the dilemma of the Michelson and Morley experiment. (Some encyclopedia examples of time dilation show the speed of light independent of the motion of the object emitting it, but the direction of the...
