Xiong Wang. Can Differentiable Description of Physical Reality be Considered Complete? :toward a Complete Theory of Relativity

Natural Sciences / Physics / Mathematical Physics

Submitted on: Sep 11, 2012, 16:09:04

Description: How to relate the physical emph{real} reality with the logical emph{true} abstract mathematics concepts is nothing but pure postulate. The most basic postulates of physics are by using what kind of mathematics to describe the most fundamental concepts of physics. Main point of relativity theories is to remove incorrect and simplify the assumptions about the nature of space-time. There are plentiful bonus of doing so, for example gravity emerges as natural consequence of curvature of spacetime. We argue that the Einstein version of general relativity is not complete, since it can't explain quantum phenomenon. If we want to reconcile quantum, we should give up one implicit assumption we tend to forget: the differentiability. What would be the benefits of these changes? It has many surprising consequences. We show that the weird uncertainty principle and non-commutativity become straightforward in the circumstances of non-differentiable functions. It's just the result of the divergence of usual definition of emph{velocity}.

The Library of Congress (USA) reference page : http://lccn.loc.gov/cn2013300046.

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