The Pinhole: A Theory in n-Dimensions

About the Book

With respect to gravity, it is possible to argue that any gravitational field must be a curved space-time phenomenon. In other words, the effects of gravity must be equivalent to the effects of living in a curved space-time. As a consequence of this argument, the theories of gravity that relate to an equivalence of curved space-time are those that satisfy the postulates of ¡§metric theories of gravity'': [1] „P Space-time is endowed with a symmetric metric. „P The trajectories of freely falling bodies are geodesics of that metric. „P In local freely falling reference frames, the non-gravitational laws of physics are those written in the language of special relativity. I believe that gravity, the weak force, strong force, electromagnetic force, and inertia, are all related. Future research may bring knowledge that defines the interactions of waveforms and the structure they create, closer to being able to define gravity as part of some super symmetry or perhaps a substratum. The relationship of these forces can be found in defining their respective waveforms as being continuous through some substratum. The interactions of these waveforms generate a coupling to form a lattice or grid defined by Planck¡¦s length, as a medium through which matter and light transverse space-time. That is to say that all waves must propagate through some medium. Matter is continuously reconstructed in space, regardless of static or dynamic positioning. Motion is then a continuous process of standing waves disappearing and reappearing elsewhere in space. Nothing actually moves. In space-time, stationary objects move in the ¡¥time¡¦ dimension. [2] All waveforms of gravity, weak & strong force, inertia, potential, etc., are the same at time = 0. No two particles can be at t=0 simultaneously. The relative distance between two particles affects the strength of the forces between the two particles. Their force is inversely proportional to the square of the distance between them. Since two particles can not simultaneously be at t=0, there will always be a distance, L2 - L1, between them. Therefore, the forces of gravity, weak & strong force, inertia, etc., can only be one at t=0, and their respective forces weaken due to distance. All particles are moving in time, but a point, Dirac Delta, where x=n, shows the integral =1 at x=n, and 0 everywhere else. At this point, x=n, forces are one. This is momentary and time dependant with respect to velocity, c, within a Plankt length. Continuing with this thought, I would like to interject the idea that as velocity increase for a particle, the distance traveled will continuously increase, time will decrease, as well as any gravitational effect the particle might have. This paper is purely my theoretical view point to define space as a potential for being a universal substratum, or medium, through which light and matter propagate as continuous waveforms in the n-dimensional ¡¥space-time¡¦. Because this substratum provides the foundation upon which all light and matter propagate, I would like to then say that for the same substratum, time and gravity also propagate. Gravity has certain properties such as its force being dependant on distance; the greater the distance, the weaker the force. Conversely, it is also known that the greater the mass the greater the gravitational pull. A particle with mass traveling at velocity, c, increases its mass and therefore to attain the same continuous velocity, must also increase its energy. Since this cannot be attained, a particle of mass can never reach a velocity of light, c, but can only approach this velocity. As the particle however does approach light speed, time becomes increasingly slower. Light on the other hand travels at a continuous velocity, c, and is said to be void of mass, therefore enabling a light particle to be at a continuous velocity, c. Light particles are energy and are affected by gravity, but are also continuou

About the Author

Frank J. A. Viscomi holds an undergraduate degree in Biology as well as Master’s degrees in both Education and Mathematical Physics and is a member of the Mensa Society. Having written scientific papers in Theoretical Physics, the author is proposing in this book, ‘The Pinhole: A Theory in n-Dimension’, that time and gravity are interrelated within a universal substratum of space-time.