Mathematical Physics

1208 Submissions

[4] viXra:1208.0237 [pdf] submitted on 2012-08-30 04:32:08

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

Authors: Xiong Wang
Comments: 15 Pages.

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}. All weirdness of quantum mechanics are due to we are trying to making sense of nonsense. Finally, we proposed a complete relativity theory in which the spacetime are non-differentiable manifold, and physical law takes the same mathematical form in all coordinate systems, under arbitrary differentiable or non-differentiable coordinate transformations. Quantum phenomenon emerges as natural consequence of non-differentiability of spacetime.
Category: Mathematical Physics

[3] viXra:1208.0071 [pdf] submitted on 2012-08-16 15:43:12

The Mass of the Electron-Neutrino Expressed by Known Physical Constants

Authors: Laszlo I. Orban
Comments: 5 Pages.

Many trials attempted to understand the neutrinos ever since Pauli theoretically concluded its existence from the conservation of energy calculations. The present paper demonstrates that commencing from two appropriately chosen measurement systems, the mass of the electron-neutrino can be calculated from the mass of the electron and the fine-structure constant. The mass of the neutrino can be determined by the theoretically derived expression (m_k=\alpha^3 m_e) (m_k is the mass of the neutrino, m_e is the mass of electron, alpha is the fine-structure constant).
Category: Mathematical Physics

[2] viXra:1208.0048 [pdf] submitted on 2012-08-12 02:37:48

What is Mass? Chapter One: Mass in Newtonian Mechanics and Lagrangian Mechanics

Authors: Xiong Wang
Comments: 13 Pages. author name: Xiong WANG Email:wangxiong8686@gmail.com

``To see a World in a Grain of Sand, And a Heaven in a Wild'' We will try to see the development and the whole picture of theoretical physic through the evolution of the very fundamental concept of mass. 1The inertial mass in Newtonian mechanics 2 The Newtonian gravitational mass 3 Mass in Lagrangian formulism 4 Mass in the special theory of relativity 5 $E = MC^2$ 6 Mass in quantum mechanics 7 Principle of equivalence and general relativity 8 The energy momentum tensor in general relativity 9 Mass in the standard model of particle physics 10 The higgs mechanism
Category: Mathematical Physics

[1] viXra:1208.0036 [pdf] submitted on 2012-08-08 17:19:13

Mathematical Follow-up for Dark Energy and Dark Matter in the Double Torus Universe.

Authors: Dan Visser
Comments: 7 Pages.

The main issue in this paper is my mathematics to be presented about the maximum of dark energy depending on the information-differences on the wall of any volume in the Double Torus. Secondly the expressions must be worked out further by invitation to them how are triggered by my ideas the universe has a Double Torus geometry. Thirdly I go deeper into details with dark matter, not only stating dark matter is a spatial particle that spins and gets its energy from its acceleration into a dark matter torus, but also pretending dark matter gets its mass from the vacuum energy. I lay out the conditions for understanding why the Big Bang dynamics is therefore a part of the Double Torus and how the dark flow in the universe emerge from the Double Torus dark energy equation. Fourthly I refer to the pretention neutrinos should be sensitive for the flow of dark matter particles expressed in the set of equations in a former paper. But extensively this paper amplifies this theoretical neutrino-evidence, despite all the confusion around the truth of neutrinos-faster-than-light. Fifthly I observe some dark energy and dark matter issues from some of my former papers.
Category: Mathematical Physics