Quantum Gravity and String Theory

   

Quantization of General Relativity is Impossible if Space Has Slope

Authors: Mohamed Abdelwhab Husseiny

Several attempts to develop a quantum theory of gravity based on Einstein's theory of general relativity have been made. This study shows that the quantization of general relativity is impossible if space is sloped. The slope of space creates a new kind of energy that causes objects, such as bodies, particles, and gravitational waves, to slide backward during their forward motion (similar to sliding during hill climbing). This energy causes gravitational waves, bodies, particles, and light to experience slight resistance while spreading or progressing forward in space and time. I find that if absolute space supposed by Newton is sloped space, many phenomena will be created such as time dilation, space & time reversal, emergence of space-time, constancy of speed of light and gravity reversal. The conclusions drawn in this study refer to the “gravity is non quantum if space has slope, where the reversed time between two moving particles is more than or equal to the time interval between these two particles, or the reversed space between two moving particles is more than or equal to the space interval between these two particles.” This work does not aims to prove existence or absence of gravity at the smallest scale; rather it aims to show that there is a new property related to space that if it exists, quantum theory of gravity becomes unnecessary, therefore testing of this property must be included in the interests of applied physicists in the next days.

Comments: 19 Pages.

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Submission history

[v1] 2017-12-15 07:35:21
[v2] 2018-01-08 08:29:27

Unique-IP document downloads: 36 times

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