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Recent submissions

Any replacements are listed further down

[693] viXra:1711.0348 [pdf] submitted on 2017-11-17 14:12:41

Four Squares

Authors: Gary D. Simpson
Comments: 9 Pages.

This essay discusses the meaning and role of the term “fundamental” as it applies to Math and Physics. The importance of Lagrange’s Four Squares Theorem is also discussed. It is argued that the vacuum is a 5-D Quantum-Space-Time and that the vacuum is fundamental.
Category: Mathematical Physics

[692] viXra:1711.0272 [pdf] submitted on 2017-11-10 13:59:02

Do Stokes' and Gauss's Theorems Hold in Curved Spacetime?

Authors: Dmitri Martila
Comments: 4 Pages.

Do Stokes and Gauss's theorems from Vector Analyses hold also in curved spacetime (or in the curved coordinates of a flat manifold)? These theorems (especially the Gauss's or the "Divergence" theorem) are ones of the utmost importance, especially for theoretical astrophysics. My opinion is in the file. Can you tell me what journal will accept this "nonsense"?
Category: Mathematical Physics

[691] viXra:1711.0270 [pdf] submitted on 2017-11-10 17:28:55

Teleportation & Galactic Dimension Theory

Authors: David Njeru kathuri
Comments: 62 Pages.

This publication is about a theory that tries to scientifically prove that under certain conditions, fire is a portal that can be used in teleportation of matter. The document also tries to give an alternative to General Relativity in the most scientifically precise way that leaves no room for doubt. This is done by giving a testable alternative theory of what the past & future is and its relation to gravity.
Category: Mathematical Physics

[690] viXra:1711.0260 [pdf] submitted on 2017-11-09 07:17:38

Quasi-Exact Solvability of Symmetrized Sextic Oscillators and Analyticity of the Related Quotient Polynomials

Authors: Spiros Konstantogiannis
Comments: 42 Pages.

Quasi-exactly solvable symmetrized sextic oscillators have been proposed and studied by Quesne, who categorized them based on the parity – natural or unnatural – of their known eigenfunction [2]. Herein, we examine the quasi-exact solvability of symmetrized sextic oscillators using a quotient-polynomial approach [3, 4, 5], which, in this case, opens up the possibility to construct non-analytic sextic oscillators from analytic quotient polynomials, and thus to distinguish the oscillators resulting from analytic quotient polynomials from those resulting from non-analytic quotient polynomials. We analyze the cases n=0 and n=1, and we show that the results are in agreement with those of Quesne [2]. In the case n=2, we construct sextic oscillators using only analytic quotient polynomials, and focusing on the non-analytic oscillators whose known eigenfunction is of unnatural parity, we register a relation between the coefficients of the two non-analytic terms of the exponential polynomial, which then we generalize to the higher cases n=3 and n=4, to construct new non-analytic sextic oscillators whose known eigenfunction is of unnatural parity.
Category: Mathematical Physics

[689] viXra:1711.0201 [pdf] submitted on 2017-11-06 03:26:57

With a Little Help by Nicholas DE Cusa: Erasing Infinity from Pyhsical Theories

Authors: Arturo Tozzi, James F Peters
Comments: 5 Pages.

The occurrence of infinite values in physical equations, such as singularity in the description of black holes, is a painstaking problem that causes many theories to break down and/or being incapable of describing extreme events. Different methods, such as re-normalization, have been used in the assessment of physical observables in order to erase the undesirable infinity. Here we propose a novel technique, based on geometrical considerations, that allows removal of infinity and achievement of physical theories void of such a problem. We compare finite quantities to curved lines endowed in positive-curvature manifolds, and intractable infinity to a straight line. In order to restore the equations and erase the straight line of infinity, we project the quantities onto curved lines endowed in negative-curvature manifolds.
Category: Mathematical Physics

[688] viXra:1710.0346 [pdf] submitted on 2017-10-31 09:40:52

Reinterpreting Tlön, Uqbar, Orbis Tertius: On the Antirealism Tendency in Modern Physics

Authors: Victor Christianto, Florentin Smarandache
Comments: 13 Pages. This paper has not been submitted to a journal. Your comments are welcome

Borges has a rare ability to put wild ideas into detective stories with reporting style. At least that is the impression that we got on his short stories. In particular, one of his short story is worthnoting: Tlon, Uqbar, Orbis Tertius. The story told us about a mysterious country called Uqbar, in apparently an unofficial reprint of Encyclopedia Britannica. It also tells about Tlon, a mysterious planet, created purely by imaginative minds. While this story clearly criticizes Berkeley view and may be not related to our daily reality, a reinterpretation of this story leads us to a long standing discourse in the philosophy of science: to how extent the entire modern physics follow such a Berkeley-antirealism tendency? This paper is intended to bring this subject into our attention. We will also discuss shortly on the antirealism in certain trends in theoretical physics and cosmology.
Category: Mathematical Physics

[687] viXra:1710.0233 [pdf] submitted on 2017-10-20 23:29:29

Light Freedom and Unitary Evolution

Authors: Paris S. Miles-Brenden
Comments: 60 Pages. Grand Unified Theory of Electromagnetism Updated

The proposal of this thesis formulation is that of the development, design, and creation of a `Light Gyroscope' which is the formulation of a method to bal- ance light on a point with all such other light in existence; as an emanation of di erence between light and darkness; for which there is a balance between complete physical form and nonphysical formlessness; from that of a non-dual relation of physical electrical component design of general form of an in nite cascade of quarter wave re ectors of nite dimension and volume; of the nature for which an in nite cascade non related to that of the quadrature condition of elliptic function is met with a dual to an in nite cascade of ordinary elliptic operator solutions as their dual sine wave harmonic functions of free extension in space, time, and quanti able moment of temporal singular event structure; for which there exists an in nitely encompassed volumetric space of in nite dimension by co-parallelism of electricity and magnetism of no form other than topological nature; with in nite depth of four fold relation.
Category: Mathematical Physics

[686] viXra:1710.0219 [pdf] submitted on 2017-10-17 19:41:10

Construction of Planar Multilayer Dyadic Green’s Functions by Fourier Expansion Method — Part I: Isotropic Media

Authors: Huai-Yi Xie
Comments: 115 Pages.

In this paper, we have derived planar multilayer dyadic Green’s functions by Fourier expansion method and have checked its correctness by comparing results for reflected electric fields from dipole emissions near such structures available in previous literature. Furthermore, we show how these dyadic Green’s functions can be applied to calculate reflected fields from a dipole source with arbitrary orientations. We believe our formulation will be powerful in the modeling of molecular fluorescence near these structures.
Category: Mathematical Physics

[685] viXra:1710.0198 [pdf] submitted on 2017-10-15 23:37:12

Intuitive Geometric Significance of Pauli Matrices and Others in a Plane

Authors: Hongbing Zhang
Comments: 30 Pages.

The geometric significance of complex numbers is well known, such as the meaning of imaginary unit i is to rotate a vector with pi/2, etc. In this article, we will try to find some intuitive geometric significances of Pauli matrices, split-complex numbers, SU(2), SO(3), and their relations, and some other operators often used in quantum physics, including a new method to lead to the spinor-space and Dirac equation.
Category: Mathematical Physics

[684] viXra:1710.0197 [pdf] submitted on 2017-10-15 23:42:10

General Brachistochrone Curve

Authors: Hongbing Zhang
Comments: 7 Pages.

In history, the problem of Johann Bernoulli's Brachistochrone Curve (BBC) was assumed the case that the force of gravity on the falling body is constant, for example, the case of near the surface of the Earth. In this article, we will propose and solve a new problem of the General Brachistochrone Curve (GBC), in case of the body falling in a large space of Newton gravity field, or in stronger Newton gravity field, in which the force of gravity is inversely proportional to the square of the height above the center of the star or planet.
Category: Mathematical Physics

[683] viXra:1710.0196 [pdf] submitted on 2017-10-15 23:46:11

Matrix-Representations of Tensors

Authors: Hongbing Zhang
Comments: 6 Pages.

The metric tensor of Minkowski space-time, the electromagnetic field tensor, etc., are usually represented by 4x4 matrices in many textbooks, but in this paper we will demonstrate that this form of matrix-representation is unreasonable. We will introduce more reasonable rules of matrix-form for representing any (p,q)-type tensor.
Category: Mathematical Physics

[682] viXra:1710.0155 [pdf] submitted on 2017-10-13 16:20:37

The Modified KdV Equations

Authors: Antoine Balan
Comments: 2 pages, written in french

Here are introduced KdV type equations following the stationary solution which is the Weierstrass fonction of an elliptic curve.
Category: Mathematical Physics

[681] viXra:1710.0119 [pdf] submitted on 2017-10-10 20:58:30

Mass Function

Authors: Harry Watson
Comments: 2 Pages.

Let Q denote a function from the nonnegative integers into the real numbers, such that: Q(0) = 1.000000509157; Q(1) = Q(0) * (4pi)); Q(2) = Q(0) * (4pi) * (4pi-1/pi); Q(3) = Q(0) * (4pi) * (4pi-1/pi) * (4pi-2/pi); Q(4) = Q(0) * (4pi) * (4pi-1/pi) * (4pi-2/pi) * (4pi-3/pi); Q(5) = Q(0) * (4pi) * (4pi-1/pi) * (4pi-2/pi) * (4pi-3/pi) * (4pi-4/pi). Consider Q(3) = 1836.15267389 and Q(5)=240773.8273. Q(3) is the CODATA value for the ratio of the proton mass to the electron mass. Q(5) approximates the mass ratio of the Higgs Boson to the electron. (The value of Q(5)/Q(3) is 131.1295246. If the CODATA value for the mass ratio of the proton to the electron is revised, it will only have to be changed in Q(0). The approximation Q(5)/Q(3) is compared with changing values of the mass ratio of the Higgs Boson to the proton. harry.watson@att.net
Category: Mathematical Physics

[680] viXra:1710.0106 [pdf] submitted on 2017-10-09 08:46:09

The Regular Polygons in a Circle .

Authors: Markos Georgallides
Comments: 89 Pages.

The Geometrical Inversion Mechanism . In article is presented the Algebraic and Geometric Solution , and the Geometrical Construction of all the n-Regular Polygons . The Method , is the Geometrical - Inversion on three circles , of the Alternate Interior angles of the Mechanism , where Extrema ( maximum or minimum Magnitude between two Positions which are the vertices of any two Sequent-Regular-Even-Polygons ) is expressed in this closed and bounded - interval , as the Inflection or Deflection of Coupler curves , and as the local maximum or minimum between the two Points , and which is their critical point .
Category: Mathematical Physics

[679] viXra:1710.0102 [pdf] submitted on 2017-10-09 13:58:58

The de-Composition of the Mechanical Force

Authors: Louai Hassan Elzein Bashier
Comments: 22 Pages.

This paper is prepared to show the synthesis of the Newtonian mechanical force and its counter part the inertial force. It is shows that the Newtonian mechanical force splits into two counter forces when it is act upon a rigid body. The paper is also shows the derivation of the momentum and the kinetic energy that occur due to the presence of the inertial force.
Category: Mathematical Physics

[678] viXra:1710.0084 [pdf] submitted on 2017-10-08 01:22:16

A Simple Model of Quantization: an Approach from Chaos Experimental Consequences and Uncertainty Principle

Authors: Moises Dominguez-Espinosa
Comments: 5 Pages.

There is a paradigm in Quantum Mechanics that explains quantization through normal vibration modes called Eigenstates that arise from Schrödinger wave equation. In this contribution we propose an alternative methodology of quantization by using basic concepts of mechanics and chaos from which a Toy Model is built.
Category: Mathematical Physics

[677] viXra:1710.0076 [pdf] submitted on 2017-10-07 09:38:09

The Pythagorean Ratios of Fundamental Physics Realized?

Authors: Vito R. D'Angelo
Comments: 3 Pages.

From a mathematical perspective, the key to the universe lies at the central tenet of Pythagorean thought - that the universe can be explained by pure numbers, i.e. dimensionless ratios. A Planck constants hierarchy is created that postulates an undiscovered Planck constant - the Planck circumference, symbol (P). The Planck constants hierarchy produces dimensionless ratios, that allow for the first time the theoretical calculation of constants, e.g. the Planck momentum, Planck mass and Planck energy constants.
Category: Mathematical Physics

[676] viXra:1710.0074 [pdf] submitted on 2017-10-07 13:09:06

Generalized Painlevé-Gambier Xvii Equation and Applications

Authors: L. H. Koudahoun, J. Akande, D.K.K. Adjaï, Y.J.F. Kpomahou, M. D. Monsia
Comments: 16 pages

This work exhibits a generalized Painlevé-Gambier XVII equation and its applications in physics.
Category: Mathematical Physics

[675] viXra:1710.0061 [pdf] submitted on 2017-10-05 10:26:57

The Unified Complex-Dynamic Origin of Time, Intention, Life, and Everything

Authors: Andrei P. Kirilyuk
Comments: 10 pages, 15 eqs, 15 refs; Paper presented at the FQXi essay contest 2016-2017, http://fqxi.org/community/forum/topic/2774

Based on the unreduced, non-perturbative solution to arbitrary interaction problem, we show that any interaction process underlying real system dynamics and object properties gives rise to irreversible time flow, universally specified evolution purpose and meaningful intentions at higher levels of universally defined dynamic complexity. The new mathematics of real-world complexity contains thus well-specified intrinsic teleology due to its rigorously derived extension with respect to usual, “goal-free” and “mindless” theory. We outline major aspects and applications of that extended, naturally teleological and causally complete science framework, including critically important problem solutions.
Category: Mathematical Physics

[674] viXra:1710.0014 [pdf] submitted on 2017-10-01 11:18:40

Describing a 3-D Fluid Motion with Rectangular, Cylindrical and Spherical Coordinates

Authors: Valdir Monteiro dos Santos Godoi
Comments: 20 Pages.

We describe a fluid motion in three dimensions with rectangular, cylindrical and spherical coordinates.
Category: Mathematical Physics

[673] viXra:1710.0011 [pdf] submitted on 2017-10-01 07:55:47

Constructing Quasi-Exactly Solvable Symmetrized Quartic Anharmonic Oscillators Using a Quotient Polynomial

Authors: Spiros Konstantogiannis
Comments: 28 Pages.

The quasi-exact solvability of symmetrized quartic anharmonic oscillators has been studied first by Znojil [2] and then by Quesne [3]. In this work, we examine the solvability of these models using, as basic parameter, the energy-dependent, constant (i.e. position-independent) term of a quotient polynomial. We examine the cases n=0 and n=1, and we show that our results are in agreement with those of Quesne. For n=2, following a different path from that of Znojil, we derive the cubic equation that our parameter satisfies and for the case it has a root at zero, we follow the zero root to obtain an even-parity, ground-state wave function and an odd-parity, third-excited-state wave function. As in the case of the sextic anharmonic oscillator [6], the straightforwardness and transparency of the analysis demonstrates the eligibility of the quotient polynomial as a solvability tool of polynomial oscillators.
Category: Mathematical Physics

[672] viXra:1709.0356 [pdf] submitted on 2017-09-23 12:39:53

Principle Equivalence and Inequivalence

Authors: Paris Samuel Miles-Brenden
Comments: 10 Pages. relativity, time, theory, everything, equivalence, wave, equation

Be ready for a 10 page compendium of the principles by which time operates with that of the relativistic theory in duplicity of reconcilation between either end of the wave equation. This theory incorporates the ideal of time and space transformation in very general form under entirely compatible principles and only two general equations for that of the theory of everything together. There is a rough synthesis of what is required then to understand the transformations of time; that of a theory second only to Albert Einstein's theory of special and general relativity; without contradiction.
Category: Mathematical Physics

[671] viXra:1709.0332 [pdf] submitted on 2017-09-23 11:15:52

Prognostic Systems

Authors: Christopher L. Andreadis
Comments: 15 Pages. A though experiment rooted in non-linear time.

This is a calibration procedure that is prefaced by a set of premises that led up to said procedure. It deals with the possibility that "cause preceded by effect" is greater than null at the macroscopic scale.
Category: Mathematical Physics

[670] viXra:1709.0330 [pdf] submitted on 2017-09-22 15:05:15

The Inglorious History of Thermodynamics

Authors: Hans Detlef Hüttenbach
Comments: 8 Pages.

Usually, physics students don't like thermodynamics: it is incomprehensible. They commonly get told to get used to it. Later on, as an expert, they'll find that the thermodynamic calculations come with surprises: sometimes evil, sometimes good. That can mean only one thing: The theory is inconsistent. In here, it will be shown where that is.
Category: Mathematical Physics

[669] viXra:1709.0329 [pdf] submitted on 2017-09-22 23:43:46

A Temporal Hydrogen Atom and Electromagnetic Field

Authors: Vu B Ho
Comments: 10 Pages.

In this work, we discuss the possibility to formulate a temporal electromagnetic field that can be produced by a temporal system, such as a temporal hydrogen atom in the temporal continuum. We also show that a temporal electromagnetic field can manifest itself not only in the temporal continuum but also in the spatial space.
Category: Mathematical Physics

[668] viXra:1709.0321 [pdf] submitted on 2017-09-21 06:08:47

Relativistic Spacetime Structures of a Hydrogen Atom

Authors: Vu B Ho
Comments: 12 Pages.

In our previous works on possible relationship between Schrödinger wavefunctions and spacetime structures of quantum particles we suggested that a Ricci scalar curvature for a particular quantum state of a quantum system could be constructed using the Schrödinger wavefunctions as mathematical objects. In this work we will extend our discussions by suggesting possible line elements that can be used to construct relativistic spacetime structures of a hydrogen atom. We also discuss the possibility to use a covariant Ricci flow as evolution equations to describe the dynamics of the hydrogen atom geometric structures.
Category: Mathematical Physics

[667] viXra:1709.0029 [pdf] submitted on 2017-09-03 04:28:49

Quasi-Exactly Solving the Sextic Anharmonic Oscillator Using a Quotient Polynomial

Authors: Spiros Konstantogiannis
Comments: 33 Pages.

Among the one-dimensional, smooth and real polynomial potentials, the sextic anharmonic oscillator is the only one than can be quasi-exactly solved [6, 7], in the sense that it is expressed in terms of a non-negative integer n and for every value of n, we can find n+1 energies and the respective eigenfunctions in closed form. In this work, we use, as basic parameter, the constant term of a quotient polynomial [3], to quasi-exactly solve the sextic anharmonic oscillator and demonstrate that the new parameter is a preferential one to study the system, as it makes the analysis straightforward and transparent.
Category: Mathematical Physics

[666] viXra:1708.0445 [pdf] submitted on 2017-08-29 05:42:34

How Many Points Are there in a Line Segment? – a New Answer from Discrete Space Viewpoint

Authors: Victor Christianto, Florentin Smarandache
Comments: 5 Pages. This paper has not been submitted to a journal. Your comments are welcome

While it is known that Euclid’s five axioms include a proposition that a line consists at least of two points, modern geometry avoid consistently any discussion on the precise definition of point, line, etc. It is our aim to clarify one of notorious question in Euclidean geometry: how many points are there in a line segment? – from discrete space viewpoint. In retrospect, it may offer an alternative of quantum gravity, i.e. by exploring discrete gravitational theories.
Category: Mathematical Physics

[665] viXra:1708.0424 [pdf] submitted on 2017-08-29 02:39:21

A Covariant Ricci Flow

Authors: Vu B Ho
Comments: 5 Pages.

In this work, we discuss the possibility to formulate a covariant Ricci flow so that it satisfies the principle of relativity and therefore can be applied to all coordinate systems defined on a Riemannian manifold. Since the investigation may be considered to be in the domain of pure mathematics, which is outside our field of physical investigations, therefore there may be errors in mathematical arguments that we are unable to foresee.
Category: Mathematical Physics

[664] viXra:1708.0406 [pdf] submitted on 2017-08-28 04:39:26

Nouvelle Ecriture des Equations du Problème de n Corps

Authors: Abdelmajid Ben Hadj Salem
Comments: 6 Pages. In French.

From the equations of the problem of $n$ body, we consider that $t$ is a function of the variables $(x_k,y_k,z_k)_{k=1,n}$. We write a new formulation of the equations of the $n$ body problem.
Category: Mathematical Physics

[663] viXra:1708.0328 [pdf] submitted on 2017-08-24 06:50:21

Using a Quotient Polynomial to Probe the Solvability of Polynomial Potentials in One-Dimensional Quantum Mechanics

Authors: Spiros Konstantogiannis
Comments: 17 Pages.

Making use of the Bethe ansatz, we introduce a quotient polynomial and we show that the presence of intermediate terms in the quotient polynomial, i.e. terms other than the constant and the leading one, constitutes a non-solvability condition for the respective potential. In this context, both the exact solvability of the quantum harmonic oscillator and the quasi-exact solvability of the sextic anharmonic oscillator stem naturally from the quotient polynomial, as in the first case, it is an energy-dependent constant, while in the second case, it is a second-degree binomial with no linear term. In all other cases, the quotient polynomial has at least one intermediate term, the presence of which makes the respective potentials non-solvable.
Category: Mathematical Physics

[662] viXra:1708.0254 [pdf] submitted on 2017-08-21 21:54:53

Double Conformal Space-Time Algebra for General Quadric Surfaces in Space-Time

Authors: Robert B. Easter
Comments: 24 pages. Written as an invited extended paper, extending the 10-page conference paper Double Conformal Geometric Algebra (ICNPAA 2016), for possible later submission to the journal Mathematics in Engineering, Science and Aerospace (MESA).

The G(4,8) Double Conformal Space-Time Algebra (DCSTA) is a high-dimensional 12D Geometric Algebra that extends the concepts introduced with the G(8,2) Double Conformal / Darboux Cyclide Geometric Algebra (DCGA) with entities for Darboux cyclides (incl. parabolic and Dupin cyclides, general quadrics, and ring torus) in spacetime with a new boost operator. The base algebra in which spacetime geometry is modeled is the G(1,3) Space-Time Algebra (STA). Two G(2,4) Conformal Space-Time subalgebras (CSTA) provide spacetime entities for points, hypercones, hyperplanes, hyperpseudospheres (and their intersections) and a complete set of versors for their spacetime transformations that includes rotation, translation, isotropic dilation, hyperbolic rotation (boost), planar reflection, and (pseudo)spherical inversion. G(4,8) DCSTA is a doubling product of two orthogonal G(2,4) CSTA subalgebras that inherits doubled CSTA entities and versors from CSTA and adds new 2-vector entities for general (pseudo)quadrics and Darboux (pseudo)cyclides in spacetime that are also transformed by the doubled versors. The "pseudo" surface entities are spacetime surface entities that use the time axis as a pseudospatial dimension. The (pseudo)cyclides are the inversions of (pseudo)quadrics in hyperpseudospheres. An operation for the directed non-uniform scaling (anisotropic dilation) of the 2-vector general quadric entities is defined using the boost operator and a spatial projection. Quadric surface entities can be boosted into moving surfaces with constant velocities that display the Thomas-Wigner rotation and length contraction of special relativity. DCSTA is an algebra for computing with general quadrics and their inversive geometry in spacetime. For applications or testing, G(4,8) DCSTA can be computed using various software packages, such as the symbolic computer algebra system SymPy with the GAlgebra module.
Category: Mathematical Physics

[661] viXra:1708.0226 [pdf] submitted on 2017-08-18 17:46:16

On the Principle of Least Action

Authors: Vu B Ho
Comments: 10 Pages.

Investigations into the nature of the principle of least action have shown that there is an intrinsic relationship between geometrical and topological methods and the variational principle in classical mechanics. In this work, we follow and extend this kind of mathematical analysis into the domain of quantum mechanics. First, we show that the identification of the momentum of a quantum particle with the de Broglie wavelength in 2-dimensional space would lead to an interesting feature; namely the action principle δS=0 would be satisfied not only by the stationary path, corresponding to the classical motion, but also by any path. Thereupon the Bohr quantum condition possesses a topological character in the sense that the principal quantum number n is identified with the winding number, which is used to represent the fundamental group of paths. We extend our discussions into 3-dimensional space and show that the charge of a particle also possesses a topological character and is quantised and classified by the homotopy group of closed surfaces. We then discuss the possibility to extend our discussions into spaces with higher dimensions and show that there exist physical quantities that can be quantised by the higher homotopy groups. Finally we note that if Einstein’s field equations of general relativity are derived from Hilbert’s action through the principle of least action then for the case of n=2 the field equations are satisfied by any metric if the energy-momentum tensor is identified with the metric tensor, similar to the case when the momentum of a particle is identified with the curvature of the particle’s path.
Category: Mathematical Physics

[660] viXra:1708.0198 [pdf] submitted on 2017-08-17 01:42:13

A Temporal Dynamics: a Generalised Newtonian and Wave Mechanics

Authors: Vu B Ho
Comments: 24 Pages.

In this work we discuss the possibility of reconciling quantum mechanics with classical mechanics by formulating a temporal dynamics, which is a dynamics caused by the rate of change of time with respect to distance. First, we show that a temporal dynamics can be derived from the time dilation formula in Einstein’s theory of special relativity. Then we show that a short-lived time-dependent force derived from a dynamical equation that is obtained from the temporal dynamics in a 1-dimensional temporal manifold can be used to describe Bohr’s postulates of quantum radiation and quantum transition between stable orbits in terms of classical dynamics and differential geometry. We extend our discussions on formulating a temporal dynamics to a 3-dimensional temporal manifold. With this generalisation we are able to demonstrate that a sub-quantum dynamics is a classical dynamics.
Category: Mathematical Physics

[659] viXra:1708.0197 [pdf] submitted on 2017-08-17 01:50:44

On the Stationary Orbits of a Hydrogen-Like Atom

Authors: Vu B Ho
Comments: 10 Pages.

In this work we discuss the possibility of combining the Coulomb potential with the Yukawa’s potential to form a mixed potential and then investigate whether this combination can be used to explain why the electron does not radiate when it manifests in the form of circular motions around the nucleus. We show that the mixed Coulomb-Yukawa potential can yield stationary orbits with zero net force, therefore if the electron moves around the nucleus in these orbits it will not radiate according to classical electrodynamics. We also show that in these stationary orbits, the kinetic energy of the electron is converted into potential energy, therefore the radiation process of a hydrogen-like atom does not related to the transition of the electron as a classical particle between the energy levels. The radial distribution functions of the wave equation determine the energy density rather than the electron density at a distance r along a given direction from the nucleus. It is shown in the appendix that the mixed potential used in this work can be derived from Einstein’s general theory of relativity by choosing a suitable energy-momentum tensor. Even though such derivation is not essential in our discussions, it shows that there is a possible connection between general relativity and quantum physics at the quantum level.
Category: Mathematical Physics

[658] viXra:1708.0196 [pdf] submitted on 2017-08-17 01:54:09

A Theory of Temporal Relativity

Authors: Vu B Ho
Comments: 15 Pages.

In this work we develop a theory of temporal relativity, which includes a temporal special relativity and a temporal general relativity, on the basis of a generalised Newtonian temporal dynamics. We then show that a temporal relativity can be used to study the dynamics of quantum radiation of an elementary particle from a quantum system.
Category: Mathematical Physics

[657] viXra:1708.0192 [pdf] submitted on 2017-08-17 03:51:07

Spacetime Structures of Quantum Particles

Authors: Vu B Ho
Comments: 18 Pages.

In this work we propose a covariant formulation for the gravitational field and derive equations that can be used to construct the spacetime structures for short-lived and stable quantum particles. We also show that Schrödinger wavefunctions can be used to construct spacetime structures for the quantum states of a quantum system, such as the hydrogen atom. Even though our discussions in this work are focused on the microscopic objects, the results obtained can be applied equally to the macroscopic phenomena.
Category: Mathematical Physics

[656] viXra:1708.0184 [pdf] submitted on 2017-08-16 10:47:23

A One Page Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 10 Pages.

In a previous work I have derived the theory of everything (ToE) in a 74 pages paper. To make the theory more accessible, in this work, I derive the equation for the ToE on one page. I then follow the derivation with a few pages of discussion.
Category: Mathematical Physics

[655] viXra:1708.0166 [pdf] submitted on 2017-08-15 06:49:15

Regular and Singular Rational Extensions of the Harmonic Oscillator with Two Known Eigenstates

Authors: Spiros Konstantogiannis
Comments: 50 Pages.

Exactly solvable rational extensions of the harmonic oscillator have been constructed as supersymmetric partner potentials of the harmonic oscillator [1] as well as using the so-called prepotential approach [2]. In this work, we use the factorization property of the energy eigenfunctions of the harmonic oscillator and a simple integrability condition to construct and examine series of regular and singular rational extensions of the harmonic oscillator with two known eigenstates, one of which is the ground state. Special emphasis is given to the interrelation between the special zeros of the wave function, the poles of the potential, and the excitation of the non-ground state. In the last section, we analyze specific examples.
Category: Mathematical Physics

[654] viXra:1708.0147 [pdf] submitted on 2017-08-13 21:51:40

Approximation to Higgs Boson

Authors: Harry Watson
Comments: 1 Page.

Abstract: Consider the product (4pi)(4pi-1/pi)(4pi-2/pi)(pi-2/pi)(4pi-4/pi). The product of the first three terms is 1836.15. The product of the last two terms is 134.72. The mass ratio of the proton to the electron is 1836.15. We may sharpen the result by letting the last two terms be (4pi-3/pi)(4pi-4/pi) = 131.13$.
Category: Mathematical Physics

[653] viXra:1708.0031 [pdf] submitted on 2017-08-03 09:30:29

Diamond Operator as a Spinless Square Root of d' Alembertian

Authors: Hideki Mutoh
Comments: 5 Pages.

Dirac equation includes the 4 x 4 complex differential operator matrix, which is one of square roots of d' Alembertian with spin. We found another 4 x 4 complex differential matrix as a spinless square root of d' Alembertian, which we call diamond operator. The extended Maxwell's equations including charge creation-annihilation field and the linear gravitational field equations including energy creation-annihilation field can be simply written by using the diamond operator. It is shown that the linear gravitational field equations derive Klein-Gordon equation, time independent Schrödinger equation, and the principle of quantum mechanics.
Category: Mathematical Physics

[652] viXra:1708.0011 [pdf] submitted on 2017-08-02 04:28:15

General Solutions and Exact Solutions of the Problems of Definite Solutions of Mathematical Physics Equations

Authors: Hong Lai Zhu
Comments: 53 Pages.

In this paper, using proposed three new transformation methods we have solved general solutions and exact solutions of the problems of definite solutions of the Laplace equation, Poisson equation, Schrödinger equation, the homogeneous and non-homogeneous wave equations, Helmholtz equation and heat equation. In the process of solving, we find that in the more general case, general solutions of partial differential equations have various forms such as basic general solution, series general solution, transformational general solution, generalized series general solution and so on.
Category: Mathematical Physics

[651] viXra:1707.0301 [pdf] submitted on 2017-07-23 12:42:25

Theoretical Physics

Authors: Jean C.Dutailly
Comments: 405 Pages.

This book proposes a review and, on important points, a new formulation of the main concepts of Theoretical Physics. Rather than offering an interpretation based on exotic physical assumptions (additional dimension, new particle, cosmological phenomenon,...) or a brand new abstract mathematical formalism, it proceeds to a systematic review of the main concepts of Physics, as Physicists have always understood them : space, time, material body, force fields, momentum, energy... and proposes the right mathematical objects to deal with them, chosen among well grounded mathematical theories. Proceeding this way, the reader will have a comprehensive, consistent and rigorous understanding of the main topics of the Physics of the XXI° century, together with many tools to do practical computations. After a short introduction about the meaning of Theories in Physics, a new interpretation of the main axioms of Quantum Mechanics is proposed. It is proven that these axioms come actually from the way mathematical models are expressed, and this leads to theorems which validate most of the usual computations and provide safe and clear conditions for their use, as it is shown in the rest of the book. Relativity is introduced through the construct of the Geometry of General Relativity, from 5 propositions and the use of tetrads and fiber bundles, which provide tools to deal with practical problems, such as deformable solids. A review of the concept of motion leads to associate a frame to all material bodies, whatever their scale, and to the representation of motion in Clifford Algebras. Momenta, translational and rotational, are then represented by spinors, which provide a clear explanation for the spin and the existence of anti-particles. The force fields are introduced through connections, in the framework of gauge theories, which is here extended to the gravitational field. It shows that this field has actually a rotational and a transversal component, which are masked under the usual treatment by the metric and the Levy-Civita connection. A thorough attention is given to the topic of the propagation of fields with new and important results. The general theory of lagrangians in the application of the Principle of Least Action is reviewed, and two general models, incorporating all particles and fields are explored, and used for the introduction of the concepts of currents and energy-momentum tensor. Precise guidelines are given to find solutions for the equations representing a system in the most general case. The topic of the last chapter is discontinuous processes. The phenomenon of collision is studied, and we show that bosons can be understood as discontinuities in the fields.
Category: Mathematical Physics

[650] viXra:1707.0296 [pdf] submitted on 2017-07-22 15:52:25

Fractal Arts: a 2D-Mfdfa Approach

Authors: Sayan Nag
Comments: 6 Pages.

“Art attracts us only by what it reveals of our most secret self.”- Alfred North Whitehead The basic building blocks upon which the natural world is built are Fractals. Recognizing these patterns in Nature is essential-because of these patterns Nature is so aesthetically pleasing. We try to find these patterns everywhere instinctively. In our work we look forward to find the fractality in Abstract art-the paintings of the renowned artist Jackson Pollock using a novel approach of 2D-Multifractal Detrended Fluctuation Analysis in his paintings.
Category: Mathematical Physics

[649] viXra:1707.0284 [pdf] submitted on 2017-07-21 09:18:46

Deepening Questions about Electron Deep Orbits of the Hydrogen Atom

Authors: Jean-Luc Paillet, Andrew Meulenberg
Comments: 12 Pages. Submitted to 12th Intern. Workshop on Anomalies in Hydrogen Loaded Metal.

In previous works, we analyzed and countered arguments against the deep orbits, as discussed in published solutions. Moreover, we revealed the essential role of Special Relativity as source of electron deep orbits (EDOs). We also showed, from a well-known analytic method of solution of the Dirac equation, that the obtained EDOs have a positive energy. When including the magnetic interactions near the nucleus, we observed a breakthrough in how to satisfy the Heisenberg Uncertainty Relation (HUR) for electrons confined near the nucleus, in a radial zone of only a few fm. Here we chose a different method, by directly facing the HUR for such confined electrons, from which we deduce the coefficient γ of these highly relativistic electrons. Then we show the effective Coulomb potential due to a relativistic correction, can maintain the electrons in containment. Next we resume and deepen our study of the effects of EM interactions near the nucleus. We first obtain computation results: though approximate, we can effectively expect high-energy resonances near the nucleus. These results should be confirmed by using QFT-based methods.
Category: Mathematical Physics

[648] viXra:1707.0266 [pdf] submitted on 2017-07-20 05:11:07

Modelling Ideal MHD as a System of Coupled Quaternionic Riccati Equations and Its Application for MHD Power Generator

Authors: Victor Christianto, Florentin Smarandache
Comments: 4 Pages. This paper has not been submitted to a journal. Your comments are welcome

In recent years, there are several proposals of using MHD theory for clean power generators on top of coal plant. But the theory involved appears too complicated, so in this paper we will use a simpler approach using ideal MHD equations which then they can be reduced to a system of coupled quaternionic Riccati equations. Further numerical and experimental investigations are advisable.
Category: Mathematical Physics

[647] viXra:1707.0216 [pdf] submitted on 2017-07-15 19:08:22

The Role of Dialectical Forces in Quantum Physics and General Relativity

Authors: Tracy Klein
Comments: 9 Pages.

The following manuscript establishes the role of dialectical forces in our physical universe. The dialectical relationship links opposing theories of quantum mechanics and bridges the gap between quantum physics and general relativity.
Category: Mathematical Physics

[646] viXra:1707.0214 [pdf] submitted on 2017-07-15 12:13:56

The Grand Unification Scheme and Metaspace

Authors: Miguel A. Sanchez-Rey
Comments: 3 Pages.

Advance superstrings are consider incalculable particles. With this in mind a more refine definition of the grand unification and metaspace is presented.
Category: Mathematical Physics

[645] viXra:1707.0195 [pdf] submitted on 2017-07-14 03:38:22

Mathematical Origins of Comparative Nonequivalence in Physics

Authors: Paris Samuel Miles-Brenden
Comments: 10 Pages. The laws of physics in their abstraction are blind to the world.

The laws of physics in their abstraction are blind to the world.
Category: Mathematical Physics

[644] viXra:1707.0193 [pdf] submitted on 2017-07-13 13:33:10

Veblen's Identities, Maxwell's Equations and Weyl's Unified Field Theory

Authors: William O. Straub
Comments: 3 Pages.

An intriguing connection between some work of Oswald Veblen with that of Hermann Weyl is presented.
Category: Mathematical Physics

[643] viXra:1707.0144 [pdf] submitted on 2017-07-11 03:13:02

The Ultimate Nature of Reality Part 1

Authors: John Peel
Comments: 35 Pages. Part 1 of two files regarding information fields

The role of geometry in particle physics
Category: Mathematical Physics

[642] viXra:1707.0129 [pdf] submitted on 2017-07-09 21:31:05

The Ultimate Nature of Reality

Authors: John Peel
Comments: 72 Pages. Perhaps important

This paper hopes to clarify the notion of Information Fields and the role of geometry in particle physics.
Category: Mathematical Physics

[641] viXra:1707.0128 [pdf] submitted on 2017-07-09 22:59:57

Gravitational Forces Revisited

Authors: Jack Bidnik
Comments: 13 Pages.

Abstract: This paper explains my derivation of a number of equations to describe gravitational forces from the relativistic relative momentum of Albert Einstein's Special Relativity. One of these equations parallels Issac Newton's Gravitational Equation by replacing the Gravitational Constant, G, with a velocity dependent expression. The resulting equation is applied to the orbital parameters of the planets and a number of their moons, with very close results. The forces derived have applications in other areas of physics, including electromagnetic force, and have some surprising properties hitherto unknown in physics. I derive these results with no external forces assumed to be present, so that the only mechanical force here must be gravity.
Category: Mathematical Physics

[640] viXra:1707.0109 [pdf] submitted on 2017-07-07 10:28:47

General Exact Tetrahedron Argument for the Fundamental Laws in Continuum Mechanics

Authors: Ehsan Azadi
Comments: 28 pages

In this article, we give a general exact mathematical framework that all of the fundamental relations and conservation equations in continuum mechanics can be derived based on it. We consider a general integral equation contains the parameters that act on the volume and the surface of the integral's domain. The idea is to determine how many local relations can be derived from this general integral equation and what these local relations are? Thus, we first derive the general Cauchy lemma and then by a new general exact tetrahedron argument derive two other local relations. So, there are three local relations that can be derived from the general integral equation. Then we show that all of the fundamental laws in continuum mechanics, include the conservation of mass, linear momentum, angular momentum, energy, and the entropy law, can be shown and considered in this general framework. So, we derive the integral form of these fundamental laws in this framework and applying the general three local relations lead to exactly derivation of the mass flow, continuity equation, Cauchy lemma for traction vectors, existence of stress tensor, general equation of motion, symmetry of stress tensor, existence of heat flux vector, differential energy equation, and differential form of the Clausius-Duhem inequality for entropy law. The general exact tetrahedron argument is an exact proof that removes all of the challenges on the derivation of fundamental relations in continuum mechanics. During this proof, there is no approximating or limiting process and the parameters are exact point-base functions. Also, it gives a new understanding and a deep insight into the origins and the physics and mathematics of the fundamental relations and conservation equations in continuum mechanics. This general mathematical framework can be used in many branches of continuum physics and the other sciences.
Category: Mathematical Physics

[639] viXra:1707.0106 [pdf] submitted on 2017-07-06 13:56:20

Cauchy Tetrahedron Argument and the Proofs for the Existence of Stress Tensor, a Comprehensive Review, Challenges, and Improvements

Authors: Ehsan Azadi
Comments: 34 pages

Cauchy in 1822 presented the idea of traction vector that contains both the normal and tangential components of the internal surface forces per unit area and gave the tetrahedron argument to prove the existence of stress tensor. These great achievements form the main part of the foundation of continuum mechanics. During nearly two centuries, some versions of tetrahedron argument and a few other proofs for the existence of stress tensor are presented in every text in continuum mechanics, fluid mechanics, and the related subjects. In this article, we show the birth, importance, and location of these Cauchy's achievements, then by presenting the formal tetrahedron argument in detail, for the first time we extract some fundamental challenges. These conceptual challenges are related to the result of applying the conservation of linear momentum to any mass element and the order of its surface and volume terms, the definition of traction vectors on the surfaces that pass through the same point, the limiting and approximating processes in the derivation of stress tensor, and some others. In a comprehensive review, we present the different tetrahedron arguments and the proofs for the existence of stress tensor, consider the challenges in each one, and classify them in two general approaches. In the first approach that is followed in most texts, the traction vectors do not define exactly on the surfaces that pass through the same point so, most of the challenges hold. But in the second approach, the traction vectors are defined on the surfaces that pass exactly through the same point, so some of the related challenges are removed. We also represent the improved works of Hamel and Backus, and show that the original work of Backus removes most of the challenges. This article shows that the foundation of continuum mechanics is not a finished subject and there are still some fundamental challenges.
Category: Mathematical Physics

[638] viXra:1707.0022 [pdf] submitted on 2017-07-02 10:02:30

A Computer Algebra Solution of Ermakov Equation Corresponding to Diffusion Interpretation of Wave Mechanics

Authors: Victor Christianto, Florentin Smarandache
Comments: 10 Pages. This paper has not been submitted to a journal

It has been long known that a year after Schrödinger published his equation, Madelung also published a hydrodynamics version of Schrödinger equation. Quantum diffusion is studied via dissipative Madelung hydrodynamics. Initially the wave packet spreads ballistically, than passes for an instant through normal diffusion and later tends asymptotically to a sub‐diffusive law. In this paper we will review two different approaches, including Madelung hydrodynamics and also Bohm potential. Madelung formulation leads to diffusion interpretation, which after a generalization yields to Ermakov equation. Since Ermakov equation cannot be solved analytically, then we try to find out its solution with Mathematica package. It is our hope that these methods can be verified and compared with experimental data. But we admit that more researches are needed to fill all the missing details.
Category: Mathematical Physics

[637] viXra:1706.0572 [pdf] submitted on 2017-06-30 11:04:20

Quaternion Dynamics - Part 3, Pentuple Inversion

Authors: Gary D. Simpson
Comments: 11 Pages.

This text continues the development of pentuples begun in Part – 2 of these works. Matrix formulations are presented that are easily inverted. The presentation of a pentuple is similar to the form of a quaternion. A functionality is presented in Equation 4.2 that mimics wave-function collapse. Octonion multiplication is shown to be very similar irrespective of whether the complex i commutes normally or anti-commutes.
Category: Mathematical Physics

[636] viXra:1706.0456 [pdf] submitted on 2017-06-23 18:05:12

The Theory of the Transcendent Reality (TTR)

Authors: Mauro Bernardini
Comments: 44 Pages. Comment (Abstract) replacement

This is a brief summary of the Theory of Transcendent Reality (TTR), which describes the main postulates and mathematics used to describe and support the rationality of the Alef's model as unique and absolute being container of all the existences. This first issiue allow to describe the real physical composition of all the parallel universes contained in Alef's body. Universes that are logically and rationally constituted exclusively by Particles of Existence with a mass equal to that of a Proton and which generate an "apparent" existence since they are interpreted as existent only by the under-dimensional beings they generate in each single universe. Highlighting therefore that the Particles of Existence present in every universe are in fact 11 dimensional body slices of the Points of Alef, which, in turn, are the only real components of Alef's body: and, therefore, Particles of Existence that never really born nor died.
Category: Mathematical Physics

[635] viXra:1706.0416 [pdf] submitted on 2017-06-21 09:12:37

Erratum: Functions of Multivectors in 3D Euclidean Geometric Algebra Via Spectral Decomposition (For Physicists and Engineers)

Authors: Miroslav Josipović
Comments: 1 Page.

There is an erroneous formula in the article Functions of multivectors in 3D Euclidean geometric algebra via spectral decomposition (for physicists and engineers).
Category: Mathematical Physics

[634] viXra:1706.0193 [pdf] submitted on 2017-06-15 01:41:20

Lesson 9: Navier-Stokes Equations Solved Simply

Authors: A. A. Frempong
Comments: 19 Pages. Copyright © by A. A. Frempong

Coincidences. The US Supreme Court consists of nine members, one of whom is the Chief Justice of the Court. So also, a one-direction Navier-Stokes equation consists of nine members, one of which is the indispensable gravity term, without which there would be no incompressible fluid flow as shown by the solutions of the N-S equations (viXra:1512.0334). Another coincidence is that numerologically, the number, 9, is equivalent to the 1800's (1 + 8 + 0 + 0 = 9) time period during which the number of the members of the Supreme Court became fixed at 9, while the formulation of the nine-term N-S equations was completed. Another coincidence is that the solutions of the N-S equations were completed (viXra:1512.0334) by the author in the year, 2016 (2 + 0 +1+ 6 = 9). Using a new introductory approach, this paper covers the author's previous solutions of the N-S equations (viXra:1512.0334). In particular, the N-S solutions have been compared to the equations of motion and liquid pressure of elementary physics. The N-S solutions are (except for the constants involved) very similar or identical to the equations of motion and liquid pressure of elementary physics. The results of the comparative analysis show that the N--S equations have been properly solved. It could be stated that the solutions of the N-S equations have existed since the time the equations of motion and liquid pressure of elementary physics were derived. A one-direction Navier-Stokes equation has also been derived from the equations of motion and liquid pressure of elementary physics. Insights into the solutions include how the polynomial parabolas, the radical parabolas, and the hyperbolas interact to produce turbulent flow. It is argued that the solutions and methods of solving the N-S equations are unique, and that only the approach by the author will ever produce solutions to the N-S equations. By a solution, the equation must be properly integrated and the integration results must be tested in the original equation for identity before the integration results are claimed as solutions
Category: Mathematical Physics

[633] viXra:1706.0189 [pdf] submitted on 2017-06-15 03:48:11

The Recursive Future And Past Equation Based On The Ananda-Damayanthi Normalized Similarity Measure Considered To Exhaustion {Latest Newest Ultimate Correct Version}

Authors: Ramesh Chandra Bagadi
Comments: 6 Pages.

In this research investigation, the author has presented a Recursive Past Equation and a Recursive Future Equation based on the Ananda-Damayanthi Normalized Similarity Measure considered to Exhaustion [1] (please see the addendum of [1] as well).
Category: Mathematical Physics

[632] viXra:1706.0137 [pdf] submitted on 2017-06-09 16:04:55

Exact Gibbs Statistical Mechanics of a System of Quadratic Liénard Type Oscillators

Authors: Marcellin Nonti, Fernando Y. J. Kpomahou, Jean Akande, Damien K. K. Adjaï, Lucas H. Koudahoun, Marc D. Monsia
Comments: 3 pages

Hamiltonian dynamics and exact Gibbs statistical mechanics of a system of quadratic Liénard type oscillators have been investigated. The work has shown that the canonical ensemble for the harmonic oscillator is a particular case of the Gibbs ensemble theory developed in this paper.
Category: Mathematical Physics

[631] viXra:1706.0123 [pdf] submitted on 2017-06-09 01:36:02

The Recursive Future And Past Equation Based On The Ananda-Damayanthi Normalized Similarity Measure Considered To Exhaustion (Latest Ultimate Version)

Authors: Ramesh Chandra Bagadi
Comments: 8 Pages.

In this research investigation, the author has presented a Recursive Past Equation and a Recursive Future Equation based on the Ananda-Damayanthi Normalized Similarity Measure considered to Exhaustion [1] (please see the addendum of [1] as well).
Category: Mathematical Physics

[630] viXra:1706.0034 [pdf] submitted on 2017-06-05 02:03:41

Quaternions and Elliptical Space (Quaternions et Espace Elliptique)

Authors: Richard L Amoroso, Georges Lemaitre
Comments: 13 Pages. Lemaitre's 1948 paper translated from original French, ACTA, Vol. XII, No. 8, pp. 57-80

The author applies the notion of quaternions, as practiced by Klein in the Erlangen program, to determine the fundamental properties of elliptical space.
Category: Mathematical Physics

[629] viXra:1705.0470 [pdf] submitted on 2017-05-31 08:41:13

Line-Surface Formulation of the Electromagnetic-Power-based Characteristic Mode Theory for Metal-Material Combined Objects — Part II

Authors: Renzun Lian
Comments: 20 Pages.

In the Part I of Line-Surface formulation of the ElectroMagnetic-Power-based Characteristic Mode Theory for Metal-Material combined objects (LS-MM-EMP-CMT), the relevant fundamental principle had been established, and some very valuable complements and improvements are done in this Part II. In this Part II, the traditional surface equivalent principle for a homogeneous material body whose boundary is only constructed by a closed surface is generalized to the line-surface equivalent principle of a homogeneous material body whose boundary can include some lines and open surfaces besides a closed surface; a new line-surface formulation of the input/output power operator for metal-material combined objects is given, and the new formulation is more advantageous than the formulation given in Part I; some more detailed formulations for establishing LS-MM-EMP-CMT are explicitly provided here, such as the formulations corresponding to the decompositions for currents and their domains and the formulations corresponding to variable unification. In addition, a new concept intrinsic resonance is introduced in this paper, and then a new Characteristic Mode (CM) set, intrinsic resonant CM set, is introduced into the EMP-CMT family.
Category: Mathematical Physics

[628] viXra:1705.0374 [pdf] submitted on 2017-05-25 20:55:10

Is Mechanics a Proper Approach to Fundamental Physics?

Authors: Zihao Song
Comments: 5 Pages. If one physical quantity can't find where it is originated, it's not a good physical quantity.

Physicists are proposing different mechanics to describe the nature, physical body is measured by intrinsic properties like electric charge, and extrinsic properties being related to space like generalized coordinates or velocities etc., with these properties we can predict what event will happen. We can naturally define the fact of the event and the cause of the event as information, the information grasped by physicist must be originated from something objective, information must have its object container. Intrinsic property information is contained by object itself, but container of extrinsic property information like position is ambiguous, position is a relation based on multiple objects, it's hard to define which one is the information container. With such ambiguity, no mechanics is a complete theory, errors hidden in assumptions are hard to find. Here we show a new theoretical framework with strict information container restriction, on which we can build complete determinism theories to approach grand unification.
Category: Mathematical Physics

[627] viXra:1705.0358 [pdf] submitted on 2017-05-24 13:09:34

Construction of the Lovas-Andai Two-Qubit Function $\tilde{\chi}_2 (\varepsilon )=\frac{1}{3} \varepsilon ^2 \left(4-\varepsilon ^2\right)$ Verifies the $\frac{8}{33}$-Hilbert Schmidt Separability Probability Conjecture

Authors: Paul B. Slater
Comments: 35 pages, 26 figures

We investigate relationships between two forms of Hilbert-Schmidt two-re[al]bit and two-qubit "separability functions''--those recently advanced by Lovas and Andai (arXiv:1610.01410), and those earlier presented by Slater ({\it J. Phys. A} {\bf{40}} [2007] 14279). In the Lovas-Andai framework, the independent variable $\varepsilon \in [0,1]$ is the ratio $\sigma(V)$ of the singular values of the $2 \times 2$ matrix $V=D_2^{1/2} D_1^{-1/2}$ formed from the two $2 \times 2$ diagonal blocks ($D_1, D_2$) of a randomly generated $4 \times 4$ density matrix $D$. In the Slater setting, the independent variable $\mu$ is the diagonal-entry ratio $\sqrt{\frac{d_ {11} d_ {44}}{d_ {22} d_ {33}}}$--with, importantly, $\mu=\varepsilon$ or $\mu=\frac{1}{\varepsilon}$ when both $D_1$ and $D_2$ are themselves diagonal. Lovas and Andai established that their two-rebit function $\tilde{\chi}_1 (\varepsilon )$ ($\approx \varepsilon$) yields the previously conjectured Hilbert-Schmidt separability probability of $\frac{29}{64}$. We are able, in the Slater framework (using cylindrical algebraic decompositions [CAD] to enforce positivity constraints), to reproduce this result. Further, we similarly obtain its new (much simpler) two-qubit counterpart, $\tilde{\chi}_2(\varepsilon) =\frac{1}{3} \varepsilon ^2 \left(4-\varepsilon ^2\right)$. Verification of the companion conjecture of a Hilbert-Schmidt separability probability of $\frac{8}{33}$ immediately follows in the Lovas-Andai framework. We obtain the formulas for $\tilde{\chi}_1(\varepsilon)$ and $\tilde{\chi}_2(\varepsilon)$ by taking $D_1$ and $D_2$ to be diagonal, allowing us to proceed in lower (7 and 11), rather than the full (9 and 15) dimensions occupied by the convex sets of two-rebit and two-qubit states. The CAD's themselves involve 4 and 8 variables, in addition to $\mu=\varepsilon$. We also investigate extensions of these analyses to rebit-retrit and qubit-qutrit ($6 \times 6$) settings.
Category: Mathematical Physics

[626] viXra:1705.0357 [pdf] submitted on 2017-05-24 16:04:15

A Review of Two Derivations of Maxwell-Dirac Isomorphism and a Few Plausible Extensions

Authors: Victor Christianto
Comments: 5 Pages. this paper has been submitted to MDPI - Mathematics

The problem of the formal connection between electrodynamics and wave mechanics has attracted the attention of a number of authors, especially there are some existing proofs on Maxwell-Dirac isomorphism. Here the author will review two derivations of Maxwell-Dirac isomorphism i.e. by Hans Sallhofer and Volodimir Simulik. A few plausible extensions will be discussed too.
Category: Mathematical Physics

[625] viXra:1705.0347 [pdf] submitted on 2017-05-24 01:33:15

About Physical Inadequacy of the Three-Dimensional Navier-Stokes Equation for Viscous Incompressible Fluid.

Authors: Preobrazhenskiy Andrey
Comments: 10 Pages.

ABSTRACT. This paper deals with the analysis of physically possible constructions of a viscous incompressible fluid model. Physical principles that allow to create the only possible construction of this model were found. The new model does not use new constants that characterize properties of the fluid and coincides with the Stokes model only in the plane case. Within the framework of this model, new equations for fluid motion were obtained. The new equations coincide with Navier-Stokes system in the plane case, but do not coincide in the three-dimensional one. The model makes it possible to see why the three-dimensional Navier-Stokes equations cannot physically adequately describe fluids motion, and obliquely confirms the finite time for the existence of its regular solutions.
Category: Mathematical Physics

[624] viXra:1705.0330 [pdf] submitted on 2017-05-22 05:15:16

Nonlinearity, Entropy and Chaos in Music

Authors: Sai Venkatesh Balasubramanian
Comments: 11 Pages.

This article explores the nonlinear aspects underlying music , particularly focusing on melody. By using the concept of scale as the basis, the article explores ways to formulate and study the features and 'feature richness' of a given melody or Raga, and to do this, the Raga scale is represented as a 1-Dimensional array. The Signature graph of a Raga plotted as Interval as a function of Note position, established a graphic visualization of the Raga. The progression and trend of intervals was computed using the Second Level Interval Array. This trend graph reveals the complexity in a Raga structure, through looping, crowded and intricate curves in the graph. Next, the concept of chaos in the context of melody is explored, fundamentally by performing a sensitivity test, which analyzes that given a Raga, and a particular evolution path, how starting at two nearby Swaras results in two entirely different ending Swaras, when sampled after a certain period in time. As a measure of the complexity in a Raga, the entropy, a measure of uncertainty is proposed, and computed using the interval arrays as bases for an occurrence array yielding empirical probabilities. The entropy is seen as a measure of richness, a measure of variety of inter-Swara intervals that a given Raga possesses. One notes that Ragas with high entropy, on account of their interval richness, usually fall under the category of pleasant, appealing and melodious Ragas. These are also the Ragas one finds being employed in film music, clearly owing to their pleasant feel.
Category: Mathematical Physics

[623] viXra:1705.0300 [pdf] submitted on 2017-05-20 09:41:01

Mnozenje Vektora I Struktura 3D Euklidskog Prostora

Authors: Miroslav Josipović
Comments: 79 Pages.

This is translation of the article "Multiplication of Vectors and Structure of 3D Euclidean Space" to Croatian.
Category: Mathematical Physics

[622] viXra:1705.0274 [pdf] submitted on 2017-05-18 09:56:01

From 'cogito Ergo Sum' to E=mc^2

Authors: Alexandre Harvey-Tremblay
Comments: 46 Pages.

Using the cogito ergo sum as a starting point, I introduce a methodology which allows non-trivial knowledge to be obtained without the formal introduction of axioms. Using this methodology which I formalize, I then obtain a theory of everything (ToE) in physics. This method allows me to avoid the self-referential problem of a ToE which I argue is the core difficulty of any ToE built upon formal axioms. The theory obtained has enough generality to recover both general relativity and quantum field theory. Some of the new physics derived herein include a hard arrow time, an explanation of the quantum mechanical measurement, and a thermodynamic proof that the speed of light is maximal.
Category: Mathematical Physics

[621] viXra:1705.0262 [pdf] submitted on 2017-05-18 03:29:30

An Extension to the Theory of Trigonometric Functions as Exact Periodic Solutions to Quadratic Liénard Type Equations

Authors: D. K. K. Adjaï, L. H. Koudahoun, J. Akande, Y. J. F. Kpomahou, M. D. Monsia
Comments: 11 Pages. 1-11

This paper slightly extends the theory of exact trigonometric periodic solutions to quadratic Liénard type equations introduced earlier by the authors of the present contribution. The extended theory is used to determine the general periodic solutions to the Duffing equation and to some Painlevé-Gambier equations as illustrative examples. Finally the mathematical equivalence between the Duffing equation and the Painlevé-Gambier XIX equation has been highlighted by means of the proposed extended theory.
Category: Mathematical Physics

[620] viXra:1705.0261 [pdf] submitted on 2017-05-18 03:29:03

On the Complex Function Basis of Maxwell Equations

Authors: Zhi Cheng
Comments: 14 Pages. Include Chinese version

In this paper, we propose a concept of vector complex function to prove that the whole world can be reduced to a very simple function f(Z) = F + iG by introducing the knowledge of complex function theories. We can also derive Maxwell equations through the differential and integral analysis of the vector complex function.
Category: Mathematical Physics

[619] viXra:1705.0251 [pdf] submitted on 2017-05-16 19:11:11

Six Easy Pieces in Computational Physics

Authors: Victor Christianto
Comments: 39 Pages. This paper has not been submitted to a journal

The present book consists of 6 papers that I and some colleagues developed throughout the last 3-4 years. The subjects discussed cover wireless energy transmission, soliton model of DNA, cosmology, and also solutions of Navier-Stokes equations both in 2D and 3D. Some additional graphical plots for solution of 3D Navier-Stokes equations are also given. Hopefully the readers will find these papers at least interesting to ponder.
Category: Mathematical Physics

[618] viXra:1705.0212 [pdf] submitted on 2017-05-14 02:26:57

Correcting for Relativity in GPS makes no sense

Authors: Sjaak Uitterdijk
Comments: 3 Pages.

Showing that the Special Theory of Relativity is an untenable theory, many times leads to the reaction that the GPS is so accurate thanks to the STR corrections. This article shows that the supposed relativity errors are by far negligible relative to the errors caused by atmospheric circumstances.
Category: Mathematical Physics

[617] viXra:1705.0203 [pdf] submitted on 2017-05-12 22:53:16

The Relations Between Ancient China’s Taoism And Modern Mathematics & Physics

Authors: ShengYu.Shu
Comments: 62 Pages.

I have mainly analyzed the mathematical meaning of non-classical mathematical theory for three fundamental physics equations - Maxwell’s equations, Dirac’s equations, Einstein’s equations from the quantized core theory of ancient China’s Taoism, and found they have some structures described in the core of the theory of ancient China’s Taoism, especially they all obviously own the yin-yang induction structure. This reveals the relations between the ancient China’s Taoism and modern mathematics and physics in a way, which may help us to understand some problems of the fundamental theory of physics.
Category: Mathematical Physics

[616] viXra:1705.0133 [pdf] submitted on 2017-05-08 07:55:21

The Recursive Future And Past Equation Based On The Ananda-Damayanthi Similarity Measure Considered To Exhaustion (New)

Authors: Ramesh Chandra Bagadi
Comments: 2 Pages.

In this research investigation, the author has presented a Recursive Past Equation and a Recursive Future Equation based on the Ananda-Damayanthi Similarity Measure considered to Exhaustion [1].
Category: Mathematical Physics

[615] viXra:1705.0104 [pdf] submitted on 2017-05-04 12:18:15

The Recursive Past Equation Based On The Ananda-Damayanthi Similarity Measure. The Recursive Future Equation Based On The Ananda-Damayanthi Similarity Measure

Authors: Ramesh Chandra Bagadi
Comments: 4 Pages.

In this research investigation, the author has presented a Recursive Past Equation based on the Ananda-Damyanthi Similarity Measure [1]. Also, in this research investigation, the author has presented a Recursive Future Equation based on the Ananda-Damyanthi Similarity Measure [1].
Category: Mathematical Physics

[614] viXra:1705.0095 [pdf] submitted on 2017-05-03 22:01:08

A Detailed Analysis of Geometry Using Two Variables

Authors: John Peel
Comments: 6 Pages. The sets at the end are important

Calculating certain aspects of geometry has been difficult. They have defied analytics. Here I propose a method of analysing shape and space in terms of two variables (n,m).
Category: Mathematical Physics

[613] viXra:1705.0091 [pdf] submitted on 2017-05-04 06:15:57

The Recursive Future Equation (Final)

Authors: Ramesh Chandra Bagadi
Comments: 2 Pages.

The author has presented a Recursive Future Equation
Category: Mathematical Physics

[612] viXra:1705.0035 [pdf] submitted on 2017-05-03 09:46:41

Solving Numerically a System of Coupled Riccati ODEs for Incompressible Non-Stationary 3D Navier-Stokes Equations

Authors: Victor Christianto, Sergey Ershkov
Comments: 7 Pages. This paper has not been submitted to a journal

In a recent paper, Ershkov derived a system of two coupled Riccati ODEs as solution of non-stationary incompressible 3D Navier-Stokes equations. Now in this paper, we solve these coupled Riccati ODEs using: a) Maxima and b) Mathematica 11 computer algebra packages. The result seems to deserve further investigation in particular in comparison with rigid body motion, which will be discussed elsewhere.
Category: Mathematical Physics

[611] viXra:1705.0012 [pdf] submitted on 2017-05-01 22:52:24

The Recursive Equation Connecting Future And Past

Authors: Ramesh Chandra Bagadi
Comments: 3 Pages.

In this research manuscript, the author has presented a Recursive Equation Connecting Future And Past
Category: Mathematical Physics

[610] viXra:1705.0011 [pdf] submitted on 2017-05-01 23:45:14

An Introduction to Ontological-Phase Topological Field Theory in Relation to Newton-Einstein G-Duality and Dirac-Majorana Doublet Fusion

Authors: Richard L. Amoroso
Comments: 14 Pages. Version to be published in 10th proceedings honoring mathematical physicist Jean-Pierre Vigier by World Scientific

Ontological-Phase Topological Field Theory (OPTFT) under seminal development to formally describe 3rd regime Unified Field Mechanics (UFM) (classical-Quantum-UFM) is extended to relate the duality of Newton-Einstein gravitation theory by added degrees of freedom in a semi-quantum limit enabling insight into topological Dirac-Majorana doublet fusion supervening the uncertainty principle.
Category: Mathematical Physics

[609] viXra:1704.0396 [pdf] submitted on 2017-04-30 05:48:03

The Recursive Future Equation

Authors: Ramesh Chandra Bagadi
Comments: 1 Page.

In this research manuscript, the author has presented a Recursive Future Equation.
Category: Mathematical Physics

[608] viXra:1704.0320 [pdf] submitted on 2017-04-24 08:43:53

Depth-Integrated Characteristics of Nonlinear Water Waves

Authors: Yakov A. Iosilevskii
Comments: 72 pages

This exposition has the following main objects in view. (1) All main depth-integrated time-dependent and time-averaged characteristics, – as the velocity potential, velocity, pressure, momentum flux density tensor, volumetric kinetic, potential, and total energies, Poynting (energy flux density) vector, radiation (wave) stress tensor, etc, – of the ideal (inviscid, incompressible, and irrotational) fluid flow in an imaginary wave-perturbed infinite water layer with an arbitrary shaped bed and with a free upper boundary surface, and also the pertinent depth-integrated time-dependent and time-averaged differential continuity equations, – as those of the mass density, energy density, and momentum flux density (Euler’s and Bernoulli’s equations), etc, – are rigorously deduced from the respective basic local (bulk and surface) characteristics and from the respective bulk continuity equations, with allowance for the corresponding exact kinematic boundary conditions at the upper (free) and bottom surfaces and also with allowance for the corresponding exact dynamic boundary condition at the free surface, which follows from the basic Bernoulli equation. (2) The recursive asymptotic perturbation method with respect to powers of ka that has been developed recently by the present author for the local characteristics and bulk continuity equations of the ideal fluid flow in the presence of a priming (seeding) progressive, or standing, monochromatic gravity water wave (PPPMGWW or PSPMGWW) of a wave number k>0 and of wave amplitude a>0 in an imaginary infinite water layer of a uniform depth d>0 is extended to flow’s momentary and time-averaged (TA), depth-integrated (DI) characteristics and to their continuity equations, particularly to the 3x3 radiation, or wave, stress tensor (RST). (3) The extended recursive method is applied to PPPMGWW’s and PSPMGWW’s with the purpose to obtain their main TADI characteristics in terms of elementary functions. (4) The first non-vanishing asymptotic approximation of a characteristic, particularly that of the 3x3-TADIRST, of a PPPMGWW or PSPMGWW is generalized to a priming progressive, or standing, quasi-pane (PPQP or PSQP) MGWW. (5) The longshore wave–induced sediment transport rate, expressed by the so-called CERC (Coastal Engineering Research Council) formula, is briefly discussed in its relation to the (x,y)-component of the 3x3-TADIRST of the pertinent PPQPMGWW. (6) The presently common 2x2-TADIRST’s of progressive and standing water waves, which have been deduced by various writers from intuitive considerations and have been canonized about 55 years ago, are revised in accordance with the 3x3 ones of the recursive asymptotic theory.
Category: Mathematical Physics

[607] viXra:1704.0264 [pdf] submitted on 2017-04-20 18:59:25

Preliminary Evidence That a Neoclassical Model of Physics (L3) Might Be Correct

Authors: Paul J. Werbos
Comments: 15 pages, 36 equations, 34 references

Today’s standard model of physics treats the physical masses of elementary particles as given, and assumes that they have a bare radius of zero, as in the older classical physics of Lorentz. Many physicists have studied the properties of the Yang-Mills-Higgs model of continuous fields in hopes that it might help to explain where elementary particles (and their masses) come from in the first place. This paper reviews some of the important prior work on Yang-Mills-Higgs and solitons in general, but it also shows that stable particles in that model cannot have intrinsic angular momentum (spin). It specifies four extensions of Yang-Mills Higgs, the Lagrangians L1 through L4, which are closer to the standard model of physics, and shows that one of the four (L3) does predict/explain spin from a purely neoclassical theory. The paper begins by summarizing the larger framework which has inspired this work, and ends by discussing two possibilities for further refinement.
Category: Mathematical Physics

[606] viXra:1704.0223 [pdf] submitted on 2017-04-17 17:50:17

Incalculability

Authors: Miguel A. Sanchez-Rey
Comments: 2 Pages.

Define and explain Incalculability.
Category: Mathematical Physics

[605] viXra:1704.0199 [pdf] submitted on 2017-04-15 08:20:18

Theory of Exact Trigonometric Periodic Solutions to Quadratic Liénard Type Equations

Authors: J. Akande, D.K.K. Adjaï, L.H. Koudahoun, Y.J.F. Kpomahou, M.D. Monsia
Comments: 16 Pages. 1-16

The problem of finding exact trigonometric periodic solutions to non-linear differential equations is still an open mathematical research field. In this paper it is shown that the inverted Painlevé-Gambier XVIII equation and other quadratic Liénard type equations may exhibit trigonometric functions as exact periodic solutions but with amplitude-dependent frequency. Other inverted Painlevé-Gambier equations are shown to admit exact periodic solutions.
Category: Mathematical Physics

[604] viXra:1704.0157 [pdf] submitted on 2017-04-12 08:50:23

About pi as a Function of State of Nature

Authors: Valery B. Smolensky
Comments: 3 Pages.

The article, according to the author, sheds new light on the nature of PI. The original output of PI as a function of States of nature.
Category: Mathematical Physics

[603] viXra:1704.0135 [pdf] submitted on 2017-04-11 08:21:43

A Recursive Asymptotic Theory of Nonlinear Gravity Surface Waves on a Water Layer with an Even or Infinitely Deep Bottom

Authors: Yakov A. Iosilevskii
Comments: 137 pages

It is shown with complete logical and mathematical rigor that under the appropriate hypotheses of analytical extension and of asymptotic matching, which are stated in the article, the nonlinear problem of irrotational and incompressible gravity waves on an infinite water layer of a constant depth d reduces to an infinite recursive sequence of linear two-plane boundary value problems for a harmonic velocity potential with respect to powers of a dimensionless real-valued scaling parameter ‘ka’, where k>0 is the wave number and a>0 the amplitude of a priming (seeding) progressive, or standing, plane monochromatic gravity water wave (briefly PPPMGWW or PSPMGWW respectively). The method, by which the given nonlinear water wave problem is treated in the exposition from scratch, can be regarded as a peculiar instance of the general perturbation method, which is known as the Liouville-Green (LG) method in mathematics and as the Wentzel-Kramers-Brillouin (WKB) method in physics. In the framework of the recursive theory developed, the velocity potential and any bulk or surface measurable characteristic of the wave motion is represented by an infinite asymptotic power series with respect to ‘ka’, whose all coefficients are expressed in quadratures in accordance with a well-established an algorithm for their successive calculation. The theory developed applies particularly in the case where the depth d is taken to infinity. Besides the priming velocity potential of the first, linear asymptotic approximation in ka, the partial velocity potential and all relevant characteristics of wave motion of the second order with respect to ka are calculated in terms of elementary functions both in the case of a PPPMGWW and in the case of a PSPMGWW. Accordingly, the recursive theory incorporates the conventional Airy (linear) theory of water waves linear as its first non-vanishing approximation with the following proviso. In the Airy theory, the boundary condition at the perturbed free (upper) surface of a water layer is paradoxically stated at the equilibrium plane z=0, in spite of the fact that at any instant of time some part of the plane is necessarily located in air or in vacuum, and not in water. This and also a similar paradox arising in computing the time averages of bulk characteristics at spatial points close to the perturbed free surface are solved in the article.
Category: Mathematical Physics

[602] viXra:1704.0108 [pdf] submitted on 2017-04-08 14:03:01

Closed-Form Solution for the Nontrivial Zeros of the Riemann Zeta Function

Authors: Frederick Ira Moxley III
Comments: 9 Pages.

In the year 2017 it was formally conjectured that if the Bender-Brody-M\"uller (BBM) Hamiltonian can be shown to be self-adjoint, then the Riemann hypothesis holds true. Herein we discuss the domain and eigenvalues of the Bender-Brody-M\"uller conjecture.
Category: Mathematical Physics

[601] viXra:1704.0080 [pdf] submitted on 2017-04-06 17:43:13

Single-Source Nets of Algebraically-Quantized Reflective Liouville Potentials on the Line

Authors: Gregory Natanson
Comments: 48 Pages.

The paper presents the uniform technique for constructing SUSY ladders of rational canonical Sturm-Liouville equations (RCSLEs) conditionally exactly quantized by Gauss-seed (GS) Heine polynomials. Each ladder starts from the RCSLE exactly quantized by classical Jacobi, generalized Laguerre or Romanovski-Routh polynomials. We then use its nodeless almost everywhere holomorphic (AEH) solutions formed by the appropriate set of non-orthogonal polynomials to construct multi-step rational SUSY partners of the given Liouville potential on the line. It was proven that eigenfunctions of each RCSLE in the ladder have an AEH form, namely, each eigenfunction can be represented as a weighted polynomial fraction (PFrs), with both numerator and denominator remaining finite at the common singular points of all the RCSLEs in the given ladder. As a result both polynomials satisfy the second-order differential equations of Heine type.
Category: Mathematical Physics

[600] viXra:1704.0064 [pdf] submitted on 2017-04-05 11:34:03

Draft on a Problem in Euler and Navier-Stokes Equations

Authors: Valdir Monteiro dos Santos Godoi
Comments: 6 Pages.

A brief draft respect to a problem found in the equations of Euler and Navier-Stokes, whose adequate treatment solves a centennial problem about the solution of these equations and a most correct modeling of fluid movement.
Category: Mathematical Physics

[599] viXra:1704.0018 [pdf] submitted on 2017-04-03 04:36:13

An Alternative Approach of Evaluating the Validity of Perturbative Calculations with Respect to Convergence of Power Series Based on Polynomials for the Inverse Function

Authors: Andrej Liptaj
Comments: 7 Pages.

Results of perturbative calculations in quantum physics have the form of truncated power series in a coupling constant. In order to evaluate the uncertainty of such results, the power series of the inverse function are constructed. These are inverted and the difference between the outcome of this procedure and the initial power series is taken as uncertainty.
Category: Mathematical Physics

[598] viXra:1703.0282 [pdf] submitted on 2017-03-29 15:51:34

Selfinteraction of Adiabatic Systems

Authors: Hans Detlef Hüttenbach
Comments: 10 Pages.

Given an adiabatic system of particles as defined in [4], the problem is whether and to what degree one can break it into its constituents and describe their mutual interaction.
Category: Mathematical Physics

[597] viXra:1703.0274 [pdf] submitted on 2017-03-28 13:29:37

The Physical Electron-Positron Model in Geometric Algebra

Authors: DT Froedge
Comments: 16 Pages. This work is based in Geometrical or Clifford Algebra

This paper will focus on a Geometric Algebra model of an electron illustrating the physical properties including the source of the charge. It will be shown that a particle such as an electron can be modeled as a pair of interaction photons bound in circular motion by their own interaction vectors, and having a Lorentz Scalar rest mass. This model is not QM, and does not have a probability interpretation, but rather it is defined in terms of an electromagnetic gauge. The notation used here is generally Feynman Slash [2] and the conventions are those of Doran, Lasenby [3].
Category: Mathematical Physics

[596] viXra:1703.0259 [pdf] submitted on 2017-03-27 07:52:41

Analytical Description of the Flow of the Newtonian Liquid in a Round Tube and on a Horizontal Plate

Authors: V.A.Budarin
Comments: 13 Pages. Incompressible viscous fluids, pdf

The object of research is obtaining general integrals and some particular solutions for two common flow conditions of incompressible liquid – laminar and averaged turbulent flow. Mathematical description is based on the system of equations of motion in stresses (Navier) and its special case for the Newtonian liquid. A condition of integrating the equations is the constancy of pressure drop and viscosity along the flow. The block schemes of obtaining the general integrals for flow in a pipe and turbulent flow on a plate are represented. Are as a result, three new general integrals and four particular solutions, which are compared with the known equations, were found. It was shown that the integrals of the Navier equation describe the distribution of tangential stress for turbulent flow. An analysis of solutions for the distribution of velocity showed that the Poiseuille equation for laminar flow in a pipe and the Blasius curve for laminar flow on a plate are particular solutions of one general integral. An analysis of the particular solutions made it possible to estimate the thickness of the laminar sublayer under turbulent flow condition. The results of the work create prerequisites for a more detailed further analysis of laminar and turbulent flows.
Category: Mathematical Physics

[595] viXra:1703.0117 [pdf] submitted on 2017-03-13 07:56:34

The Particles of Existence (PE)

Authors: Mauro Bernardini
Comments: 5 Pages.

The final solutions of the equation (1), obtained starting from the postulates of the TTR Theory [1], show that the mass m of a Particle of Existence (PE) corresponds to the mass of the Proton. This result has been obtained by placing m as unknown factor in the equation (1) and time t = 80 years (corresponding to the average life time of a Human Being), also lets it to assume (analysis still in progress that will be provided with a later publication), that all the 6 types of possible PE within our 3d universe, really correspond to 6 types of Super-Hydrogens having a total mass approximately equivalent to that of a Super-Proton.
Category: Mathematical Physics

[594] viXra:1703.0102 [pdf] submitted on 2017-03-11 04:09:04

Two Components of the Macroscopic General Field

Authors: Sergey G. Fedosin
Comments: 18 pages. Reports in Advances of Physical Sciences (2017).http://dx.doi.org/10.1142/S2424942417500025.25

The general field, containing all the macroscopic fields in it, is divided into the mass component, the source of which is the mass four-current, and the charge component, the source of which is the charge four-current. The mass component includes the gravitational field, acceleration field, pressure field, dissipation field, strong interaction and weak interaction fields, other vector fields. The charge component of the general field represents the electromagnetic field. With the help of the principle of least action we derived the field equations, the equation of the matter’s motion in the general field, the equation for the metric, the energy and momentum of the system of matter and its fields, and calibrated the cosmological constant. The general field components are related to the corresponding vacuum field components so that the vacuum field generates the general field at the macroscopic level.
Category: Mathematical Physics

[593] viXra:1703.0101 [pdf] submitted on 2017-03-11 05:42:37

Quantum Mechanics of Singular Inverse Square Potentials Under Usual Boundary Conditions

Authors: Damien K. K. Adjaï, Jean Akande, Lucas H. Koudahoun, Biswanath Rath, Pravanjan Mallick, Rati Ranjan Sahoo, Y. J. Fernando Kpomahou, Marc D. Monsia
Comments: 10 pages

The quantum mechanics of inverse square potentials in one dimension is usually studied through renormalization, self-adjoint extension and WKB approximation. This paper shows that such potentials may be investigated within the framework of the position-dependent mass quantum mechanics formalism under the usual boundary conditions. As a result, exact discrete bound state solutions are expressed in terms of associated Laguerre polynomials with negative energy spectrum using the Nikiforov-Uvarov method for the repulsive inverse square potential.
Category: Mathematical Physics

[592] viXra:1702.0270 [pdf] submitted on 2017-02-21 18:42:59

Fiez Identity for Interacting Four-Fermion in Four-Dimensional Space-Time

Authors: Pairoaj Sungkung
Comments: 4 Pages. Very cool.

The simple case of Fiez identity for interacting four-fermion in four-dimensional space-time has been worked out explicitly.
Category: Mathematical Physics

[591] viXra:1702.0249 [pdf] submitted on 2017-02-19 15:20:15

Was the Vector Field in Weyl's 1918 Theory Unnecessary?

Authors: William O. Straub
Comments: 6 Pages.

The necessity of Weyl's vector field in his 1918 theory is examined.
Category: Mathematical Physics

[590] viXra:1702.0244 [pdf] submitted on 2017-02-19 10:43:43

Solving Coupled Riccati Odes as Solution of Incompressible Non-Stationary 3D Navier-Stokes Equations

Authors: Victor Christianto, Sergey Ershkov
Comments: 3 Pages. This paper has not been submitted to any journal. Your comments are welcome.

In a recent paper, Ershkov derived a system of two coupled Riccati ODEs as solution of nonstationary 3D Navier-Stokes equations. Now in this paper, we will solve these coupled Riccati ODEs using Maxima computer algebra package. The result seems to deserve further investigation in particular for finding nonstationaryNavier-Stokes equations for real fluid.
Category: Mathematical Physics

[589] viXra:1702.0242 [pdf] submitted on 2017-02-19 12:24:40

Exact Quantum Mechanics of Quadratic Liénard Type Oscillator Equations with Bound States Energy Spectrum

Authors: Jean Akande, Damien K. K. Adjaï, Lucas H. Koudahoun, Biswanath Rath, Pravanjan Mallick, Rati Ranjan Sahoo, Fernando Y. J. Kpomahou, Marc D. Monsia
Comments: 13 pages

The quantization of second order dissipative dynamical systems is well known to be a complicated Sturm-Liouville problem. This work is devoted to the exact quantization of a given quadratic Liénard type oscillator equation. The bound state solutions of the resulting Schrödinger equation in terms of associated Laguerre polynomials and the possibility to recover the energy spectrum of the quantum harmonic oscillator are discussed following the specific values of system parameters, using the Nikiforov-Uvarov method.
Category: Mathematical Physics

[588] viXra:1702.0231 [pdf] submitted on 2017-02-18 09:09:57

Five Part Harmony

Authors: Gary D. Simpson
Comments: 10 Pages.

This text demonstrates that the complex i can be combined with a Hamilton style quaternion to produce a 5-D mathematical structure. Essentially, the complex plane is combined with an arbitrary unit vector. The complex i is shown to anti-commute with the unit vectors i, j, and k. The resulting geometry is shown to be an extension of Hamilton’s quaternions based upon the complex plane rather than real numbers. This new geometric structure is presented in Figure 1 and Equations 3 through 3.3. This configuration makes it possible to calculate the diameter of the proton at rest with the estimated value being 1.668 x 10-15 meter. This is within the accepted measured range of the proton diameter at 1.755(102) x 10-15 meter as given by the NIST, and it is very close to the proton diameter at 1.68174(78) x 10-15 meter as measured at the Paul Scherrer Institute in 2010 by using muonic hydrogen.
Category: Mathematical Physics

[587] viXra:1702.0210 [pdf] submitted on 2017-02-17 02:05:51

Origin of the Rotation of a Planet on Its Axis

Authors: Viktor Strohm
Comments: 3 Pages.

. In this paper we consider some problems of the origin of body rotation under the influence of the thermal radiation
Category: Mathematical Physics

[586] viXra:1702.0182 [pdf] submitted on 2017-02-15 10:36:36

The Real-Zeros of Jones Polynomial of Torus

Authors: Chang Li
Comments: 2 Pages.

This article proved two theorems and presented one conjecture about the real-zeros of Jones Polynomial of Torus. The distribution of zeros of Jones Polynomial is an interesting topic in knots theory of math and physics.
Category: Mathematical Physics

[585] viXra:1702.0098 [pdf] submitted on 2017-02-07 15:02:00

The First Task of PHPR: From String Theory to Topological Strings in Metaspace

Authors: Miguel A. Sanchez-Rey
Comments: 3 Pages.

From string theory to topstringy.
Category: Mathematical Physics

[584] viXra:1702.0069 [pdf] submitted on 2017-02-04 08:00:54

Foundation of Quantum Mechanics (In Polish)

Authors: M.W.Kalinowski
Comments: 37 Pages.

W pracy rozpatrujemy podstawy mechaniki kwantowej w języku logik kwantowych w zasto- sowaniu do teorii parametrów ukrytych i możliwych uogólnień mechaniki kwantowej. Omawiamy związek mechaniki kwantowej z logikami wielowartościowymi. Wprowadzamy system aksjoma- tyczny Mackaya–Mączyńskiego ogólnego systemu mechanicznego. Badamy ogólne własności ob- serwabli i ich reprezentacje boolowskie. Z aksjomatu QM mechaniki kwantowej wyprowadzamy podstawowe postulaty tej mechaniki. Omawiamy hipotezę o parametrach ukrytych, dyskusję na ich temat oraz paradoks EPR (Einsteina–Podolskiego–Rosena) wraz z nierównością Bella.
Category: Mathematical Physics

[583] viXra:1701.0679 [pdf] submitted on 2017-01-30 21:21:09

Metamorphic Topological Schemes

Authors: Miguel A. Sanchez-Rey
Comments: 2 Pages.

Establish topological schemes in metamorphic space as A-scheme and B-scheme.
Category: Mathematical Physics

[582] viXra:1701.0653 [pdf] submitted on 2017-01-28 10:44:20

Advance on Electron Deep Orbits of the Hydrogen Atom

Authors: J.L.Paillet, A.Meulenberg
Comments: 12 Pages.

In previous works, we discussed arguments for and against the deep orbits, as exemplified in published solutions. So we considered the works of Maly and Va’vra on the topic, the most complete solution available and one showing an infinite family of EDO solutions. In particular, we deeply analyzed their 2nd of these papers, where they consider a finite nucleus and look for solutions with a Coulomb potential modified inside the nucleus. In the present paper, we quickly recall our analysis, verification, and extension of their results. Moreover, we answer to a recent criticism that the EDOs would represent negative energy states and therefore would not qualify as an answer to the questions posed by Cold Fusion results. We can prove, by means of a simple algebraic argument based on the solution process, that, while at the transition region, the energy of the EDOs are positive. Next, we deepen the essential role of Special Relativity as source of the EDOs, which we discussed in previous papers. But the central topic of our present study is an initial analysis of the magnetic interactions near the nucleus, with the aim of solving important physical questions: do the EDOs satisfy the Heisenberg Uncertainty relation (HUR)? Are the orbits stable? So, we examine some works related to the Vigier-Barut Model, with potentials including magnetic coupling. We also carried out approximate computations to evaluate the strength of these interactions and the possibilities of their answering some of our questions. As a first result, we can expect the HUR to be respected by EDOs, due to the high energies of the magnetic interactions near the nucleus. Present computations for stability do not yet give a plain result; we need further studies and tools based on QED to face the complexity of the near-nuclear region. For the creation of EDOs, we outline a possibility based on magnetic coupling.
Category: Mathematical Physics

[581] viXra:1701.0651 [pdf] submitted on 2017-01-28 08:06:57

Double Conformal Space-Time Algebra (ICNPAA 2016)

Authors: Robert B. Easter, Eckhard Hitzer
Comments: 10 pages. In proceedings: S. Sivasundaram (ed.), International Conference in Nonlinear Problems in Aviation and Aerospace ICNPAA 2016, AIP Conf. Proc., Vol. 1798, 020066 (2017); doi: 10.1063/1.4972658. 4 color figures.

The Double Conformal Space-Time Algebra (DCSTA) is a high-dimensional 12D Geometric Algebra G(4,8) that extends the concepts introduced with the Double Conformal / Darboux Cyclide Geometric Algebra (DCGA) G(8,2) with entities for Darboux cyclides (incl. parabolic and Dupin cyclides, general quadrics, and ring torus) in spacetime with a new boost operator. The base algebra in which spacetime geometry is modeled is the Space-Time Algebra (STA) G(1,3). Two Conformal Space-Time subalgebras (CSTA) G(2,4) provide spacetime entities for points, flats (incl. worldlines), and hyperbolics, and a complete set of versors for their spacetime transformations that includes rotation, translation, isotropic dilation, hyperbolic rotation (boost), planar reflection, and (pseudo)spherical inversion in rounds or hyperbolics. The DCSTA G(4,8) is a doubling product of two G(2,4) CSTA subalgebras that inherits doubled CSTA entities and versors from CSTA and adds new bivector entities for (pseudo)quadrics and Darboux (pseudo)cyclides in spacetime that are also transformed by the doubled versors. The "pseudo" surface entities are spacetime hyperbolics or other surface entities using the time axis as a pseudospatial dimension. The (pseudo)cyclides are the inversions of (pseudo)quadrics in rounds or hyperbolics. An operation for the directed non-uniform scaling (anisotropic dilation) of the bivector general quadric entities is defined using the boost operator and a spatial projection. DCSTA allows general quadric surfaces to be transformed in spacetime by the same complete set of doubled CSTA versor (i.e., DCSTA versor) operations that are also valid on the doubled CSTA point entity (i.e., DCSTA point) and the other doubled CSTA entities. The new DCSTA bivector entities are formed by extracting values from the DCSTA point entity using specifically defined inner product extraction operators. Quadric surface entities can be boosted into moving surfaces with constant velocities that display the length contraction effect of special relativity. DCSTA is an algebra for computing with quadrics and their cyclide inversions in spacetime. For applications or testing, DCSTA G(4,8) can be computed using various software packages, such as Gaalop, the Clifford Multivector Toolbox (for MATLAB), or the symbolic computer algebra system SymPy with the GAlgebra module.
Category: Mathematical Physics

[580] viXra:1701.0540 [pdf] submitted on 2017-01-18 19:08:15

Solving Partial Differential Equations by Self-Generated Stochasticity.

Authors: Michail Zak
Comments: 7 Pages.

New physical principle for simulations of PDE has been introduced. It is based upon replacing the PDE to be solved by the system of ODE for which the PDE represents the corresponding Liouville equation. The proposed approach has a polynomial (rather than exponential) algorithmic complexity, and it is applicable to nonlinear parabolic, hyperbolic, and elliptic PDE.
Category: Mathematical Physics

[579] viXra:1701.0533 [pdf] submitted on 2017-01-18 05:02:17

A Note on the Gravitational Equations Analogous to Maxwell's Electromagnetic Equations.

Authors: J. Dunning-Davies, J. P. Dunning-Davies
Comments: 7 Pages.

Ever since Oliver Heaviside's suggestion of the possible existence of a set of equations, analogous to Maxwell's equations for the electromagnetic field, to describe the gravitational field, others have considered and built on the original notion. However, if such equations do exist and really are analogous to Maxwell's electromagnetic equations, new problems could arise related to presently accepted notions concerning special relativity. This note, as well as offering a translation of a highly relevant paper by Carstoiu, addresses these concerns in the same manner as similar concerns regarding Maxwell's equations were.
Category: Mathematical Physics

[578] viXra:1701.0523 [pdf] submitted on 2017-01-17 04:41:39

Draft Introduction to Abstract Kinematics

Authors: Grushka Ya.I.
Comments: 158 Pages. Mathematics Subject Classification: 03E75; 70A05; 83A05; 47B99

This work lays the foundations of the theory of kinematic changeable sets ("abstract kinematics"). Theory of kinematic changeable sets is based on the theory of changeable sets. From an intuitive point of view, changeable sets are sets of objects which, unlike elements of ordinary (static) sets, may be in the process of continuous transformations, and which may change properties depending on the point of view on them (that is depending on the reference frame). From the philosophical and imaginative point of view the changeable sets may look like as "worlds" in which evolution obeys arbitrary laws. Kinematic changeable sets are the mathematical objects, consisting of changeable sets, equipped by different geometrical or topological structures (namely metric, topological, linear, Banach, Hilbert and other spaces). In author opinion, theories of changeable and kinematic changeable sets (in the process of their development and improvement), may become some tools of solving the sixth Hilbert problem at least for physics of macrocosm. Investigations in this direction may be interesting for astrophysics, because there exists the hypothesis, that in the large scale of Universe, physical laws (in particular, the laws of kinematics) may be different from the laws, acting in the neighborhood of our solar System. Also these investigations may be applied for the construction of mathematical foundations of tachyon kinematics. We believe, that theories of changeable and kinematic changeable sets may be interesting not only for theoretical physics but also for other fields of science as some, new, mathematical apparatus for description of evolution of complex systems.
Category: Mathematical Physics

[577] viXra:1701.0309 [pdf] submitted on 2017-01-06 10:35:36

Inversions And Invariants Of Space And Time

Authors: Hans Detlef Hüttenbach
Comments: 5 Pages.

This paper is on the mathematical structure of space, time, and gravity. It is shown that electrodynamics is neither charge inversion invariant, nor is it time inversion invariant.
Category: Mathematical Physics

[576] viXra:1701.0299 [pdf] submitted on 2017-01-05 19:19:37

A Child's Guide to Spinors

Authors: William O. Straub
Comments: 9 Pages.

A very elementary overview of the spinor concept, intended as a guide for undergraduates.
Category: Mathematical Physics

[575] viXra:1701.0166 [pdf] submitted on 2017-01-03 13:20:03

Prolate Spheroidal Wave Function as Exact Solution of the Schrödinger Equation

Authors: J. Akande, D. K. K. Adjaï, L. H. Koudahoun, Y. J. F. Kpomahou, M. D. Monsia
Comments: 6 pages

In quantum mechanics, the wave function and energy are required for the complete characterization of fundamental properties of a physical system subject to a potential energy. It is proved in this work, the existence of a Schrödinger equation with position-dependent mass having the prolate spheroidal wave function as exact solution, resulting from a classical quadratic Liénard-type oscillator equation. This fact may allow the extension of the current one-dimensional model to three dimensions and increase the understanding of analytical features of quantum systems.
Category: Mathematical Physics

[574] viXra:1612.0415 [pdf] submitted on 2016-12-31 21:01:16

The Geometry of Spacetime

Authors: Richard A Jowsey
Comments: 13 Pages.

The fundamental fabric of spacetime is revealed by deep Dimensional Analysis of the Planck Units of mass, energy, and electromagnetism. Using a little-known expression derived by James Clerk Maxwell for the dimensional reduction of mass and charge into units of length and inverse-time (frequency), all of the physical quantities can be expressed in terms of metres and inverse-seconds (Hz). On arranging these quantities into a 2D log-log space/time matrix, simple (but compelling) patterns emerge in the mathematical relationship between fundamental units. The space/time matrix requires five spatial dimensions to accommodate the physical units, two of which are shown to be imaginary spatially-gauged wavelengths, i.e. unobservable dimensions of complex 5+1D spacetime, measured in metres, which exist (mathematically), but are not real.
Category: Mathematical Physics

[573] viXra:1612.0409 [pdf] submitted on 2016-12-31 06:11:07

Non-Power-Function Metric: a Generalized Fractal

Authors: Wen Chen
Comments: 6 Pages.

This short note proposes a general time-space metric by an extension of the power-function based fractal concept to the structural-function fabric. The structural function can be an arbitrary-function to describe complex metric underlying physical systems. We call such a metric Structal, and the fractal is its special case. This work is inspired by our recent work on the structural derivative, in which the structural function takes into account the significant influence of time-space fabric of a complex system on its physical behaviors, in particular, the ultra-slow diffusion. Based on the structal concept, this communication suggests the structural time-space transformation and introduces the general diffusion model. In addition, the statistics implication of the structal and the structural derivative model is also briefly discussed.
Category: Mathematical Physics

[572] viXra:1612.0357 [pdf] submitted on 2016-12-27 07:30:29

Surface Formulations of the Electromagnetic-Power-based Characteristic Mode Theory for Material Bodies — Part III

Authors: Renzun Lian
Comments: 10 Pages.

As a supplement to the previous Parts I and II, the Surface formulations of the ElectroMagnetic-Power-based Characteristic Mode Theory for the system constructed by Multiple Homogeneous Material bodies (Surf-MHM-EMP-CMT) are established in this Part III. The coupling phenomenon among different bodies is specifically studied, and then a new kind of power-based Characteristic Mode (CM) set, Coupling power CM (CoupCM) set, is developed for characterizing the coupling character.
Category: Mathematical Physics

[571] viXra:1612.0353 [pdf] submitted on 2016-12-27 03:13:34

Sedeonic Equations for Electromagnetic Field in Anisotropic Media

Authors: Victor L. Mironov
Comments: 9 Pages.

In the present paper we develop the description of electromagnetic field in an anisotropic medium using the sedeonic wave equations based on sedeonic potentials and space-time operators.
Category: Mathematical Physics

[570] viXra:1612.0352 [pdf] submitted on 2016-12-27 04:22:39

Surface Formulations of the Electromagnetic-Power-based Characteristic Mode Theory for Material Bodies — Part II

Authors: Renzun Lian
Comments: 13 Pages.

Both the previous Part I and this Part II focus on the linear electromagnetic system constructed by a Single Homogeneous Material body (SHM), and the SHM can be electric and/or magnetic. The studies for the system constructed by Multiple Homogeneous Material bodies (MHM) will be finished in Part III. It is indispensable for the Surface formulations of the ElectroMagnetic-Power-based SHM Characteristic Mode Theory (Surf-SHM-EMP-CMT) to relate the surface equivalent electric and magnetic currents, and a boundary condition based method for establishing the relation has been provided in the Part I. In this Part II, some further studies for the boundary condition based method are done (such as the revelation for physical essence, the numerical analysis, and the improvement), and a new conservation law based method is given. As a supplement to the Part I, some new surface formulations for the output power of a SHM are developed in this Part II, and then some new surface formulations for constructing the Output power Characteristic Mode (OutCM) set and some new variational formulations for the scattering problem of a SHM are established. In addition, the power relation contained in the PMCHWT formulation for a SHM is analyzed. Then, it is clearly revealed that the physical essence of the PMCHWT formulation for the SHM scattering problem is the conservation law of energy; the power character of the CM set derived from the PMCHWT-based CMT is not always identical to the OutCM set derived from the Surf-SHM-EMP-CMT; the PMCHWT-based CMT can be viewed as a special case of the object-oriented EMP-CMT.
Category: Mathematical Physics

[569] viXra:1612.0299 [pdf] submitted on 2016-12-19 12:57:58

STPL – Mechanism is The-Energy-space Generator

Authors: Markos Georgallides
Comments: 21 Pages.

Everything in this cosmos , is Done or Becomes , from a Mould where , in Geometry is the Monad , the discrete continuity AB , In Mechanics and Physics is the Recent Acquisition of Material-Geometry where , Material-point is the discrete continuity |{⊕+⊝}| = The Quantum , In Plane is Archimedes number ,π, which is becoming from the Squaring of the circle , In Space ,volume, is the number ³√2 which is becoming from the Duplication of the Cube . In article [STPL] Geometrical Mechanism produces and composite all opposite Spaces and Anti-spaces Points , to Material-points which are the three Breakages {[s²=±(w ̅.r)², [i]= 2(wr)²] of [MFMF] Gravity , under thrust v ̅= c ̅ } , where through it become the Fermions → [ ±v ̅.s²] and Bosons → [v ̅.I = [v ̅.2(w ̅.r)²] = [v ̅.2s²] , i.e. STPL is the Energy-Space Genesis Mechanism . Big Bang and GR was a temporary solution to the weakness of what men-kind had to answer . Nature cannot be described through infinite concepts as this can happen in Algebra and values , and this because are devoid of any meaning in Objective -Reality , the Physical world which is the Nature . Material Geometry is the Science and the Quantization-Quality of this Cosmos which joints the , infinite dimensionless and meaningless Points , because these have only Position , with those of Nature which are Qualitative Positive - Negative - Zero Points and which have , Positions , Directions and Magnitudes with infinite meanings , which through the Physical laws are the language of them in itself . The Work , as Energy , is the essence of this deep connection of Material-Points , the Space , and through the Conservation-laws is making , Energy-Material-Geometry . Extension of Material-Geometry to Chemical-Sector gives the possibility for new materials in a drained way of thinking .
Category: Mathematical Physics

[568] viXra:1612.0258 [pdf] submitted on 2016-12-15 15:55:23

Introduction to Tree Hopf Algebras

Authors: M. D. Sheppeard
Comments: 15 Pages.

An introduction to Hopf algebras in quantum field theory from the perspective of category theory.
Category: Mathematical Physics

[567] viXra:1612.0229 [pdf] submitted on 2016-12-12 13:34:06

Conical Capacitor as Gravity Propulsion Device

Authors: Algirdas Antano Maknickas
Comments: 8 Pages.

It was proposed gravity propulsion method by using asymmetric conical capacitor charged by high voltage. It was used linear approximation of general relativity equations for derivation of gravity field potential of charged conical capacitor and was shown that negative gravity capabilities of conical capacitor depends only on ratio of electric energy and capacitor mass density, where electric energy density depends on applied voltage and geometric parameters of conical capacitor.
Category: Mathematical Physics

Replacements of recent Submissions

[532] viXra:1710.0219 [pdf] replaced on 2017-10-19 20:09:02

Construction of Planar Multilayer Dyadic Green’s Functions by Fourier Expansion Method — Part I: Isotropic Media

Authors: Huai-Yi Xie
Comments: 115 Pages.

In this paper, we have derived planar multilayer dyadic Green’s functions by Fourier expansion method and have checked its correctness by comparing results for reflected electric fields from dipole emissions near such structures available in previous literature. Furthermore, we show how these dyadic Green’s functions can be applied to calculate reflected fields from a dipole source with arbitrary orientations. We believe our formulation will be powerful in the modeling of molecular fluorescence near these structures.
Category: Mathematical Physics

[531] viXra:1710.0011 [pdf] replaced on 2017-10-30 08:47:52

Constructing Quasi-Exactly Solvable Symmetrized Quartic Anharmonic Oscillators Using a Quotient Polynomial

Authors: Spiros Konstantogiannis
Comments: 28 Pages.

The quasi-exact solvability of symmetrized quartic anharmonic oscillators has been studied first by Znojil [2] and then by Quesne [3]. In this work, we examine the solvability of these models using, as basic parameter, the energy-dependent, constant (i.e. position-independent) term of a quotient polynomial. We examine the cases n=0 and n=1, and we show that our results are in agreement with those of Quesne. For n=2, following a different path from that of Znojil, we derive the cubic equation that our parameter satisfies and for the case it has a root at zero, we follow the zero root to obtain an even-parity, ground-state wave function and an odd-parity, third-excited-state wave function. As in the case of the sextic anharmonic oscillator [6], the straightforwardness and transparency of the analysis demonstrates the eligibility of the quotient polynomial as a solvability tool of polynomial oscillators.
Category: Mathematical Physics

[530] viXra:1709.0332 [pdf] replaced on 2017-11-15 02:12:05

Prognostic Systems

Authors: Christopher Andreadis
Comments: 15 Pages.

Pondering existence is a journey of the mind that has no boundaries. In contrast to this lofty mesa, however, we must also accept the fact that our own existence is, regrettably, quite finite. This concern invariably encompasses the desire to foresee events that may adversely affect our lives. Thus, fundamental to our existence is the innate ability to understand how the choices we make today shape all our future tomorrows (τι μέλλει γενέσθαι;) as inexorably driven by cause and effect. Yet there may be undiscovered phenomena not strictly bound by causal reality that can never be completely observed or understood, and that may in some way forge our destinies. It is suggested that such phenomena are rooted in nonlinear time, specifically, they may not consistently flow from past to future, or from cause to effect. Section [13] of this paper states the core hypothesis of how a prognostic system, based on a network of identical NRCL devices (section [1]), may be affected by unusual or extraordinary phenomena. Additionally, section [10] describes the basic configuration of such a network. If the core hypothesis is true, and each NRCL device can be optimally adjusted to collectively forecast events yet to come, then we may discover that our existence is not completely founded on causal reality, but may also be influenced by processes of “cause preceded by effect” that propagate at the macroscopic scale. Section [2] states proposals A through E of how existence may be more than what any casual observer can discern.
Category: Mathematical Physics

[529] viXra:1709.0332 [pdf] replaced on 2017-10-24 14:20:29

Prognostic Systems

Authors: Chris L. Andreadis
Comments: 15 Pages.

Pondering existence is a journey of the mind that has no boundaries. In contrast to this lofty mesa, however, we must also accept the fact that our own existence is, regrettably, quite finite. This concern invariably encompasses the desire to foresee events that may adversely affect our lives. Thus, fundamental to our existence is the innate ability to understand how the choices we make today shape all our future tomorrows (τι μέλλει γενέσθαι;) as inexorably driven by cause and effect. Yet there may be undiscovered phenomena not strictly bound by causal reality that can never be completely observed or understood, and that may in some way forge our destinies. It is suggested that such phenomena are rooted in nonlinear time, specifically, they may not consistently flow from past to future, or from cause to effect.
Category: Mathematical Physics

[528] viXra:1709.0332 [pdf] replaced on 2017-10-19 08:48:27

Prognostic Systems

Authors: Chris L. Andreadis
Comments: 15 Pages.

The updated NRCL Low Entropy Calibration procedure radically alters the function of the NRCL prototype from an enhanced true random number generator (TRNG) to a network component that may have significant ramifications with respect to forecasting schemes.
Category: Mathematical Physics

[527] viXra:1709.0332 [pdf] replaced on 2017-10-05 14:12:26

Prognostic Systems

Authors: Christopher L. Andreadis
Comments: 16 Pages.

Exploring the mutability of "cause and effect" at the macroscopic scale.
Category: Mathematical Physics

[526] viXra:1709.0330 [pdf] replaced on 2017-09-24 09:06:33

The Inglorious History of Thermodynamics

Authors: Hans Detlef Hüttenbach
Comments: 8 Pages. misspelling corrected.

Usually, physics students don't like thermodynamics: it is incomprehensible. They commonly get told to get used to it. Later on, as an expert, they'll find that the thermodynamic calculations come with surprises: sometimes evil, sometimes good. That can mean only one thing: The theory is inconsistent. In here, it will be shown where that is.
Category: Mathematical Physics

[525] viXra:1709.0029 [pdf] replaced on 2017-09-05 06:02:43

Quasi-Exactly Solving the Sextic Anharmonic Oscillator Using a Quotient Polynomial

Authors: Spiros Konstantogiannis
Comments: 33 Pages.

Among the one-dimensional, smooth and real polynomial potentials, the sextic anharmonic oscillator is the only one that can be quasi-exactly solved [6, 7], in the sense that it is expressed in terms of a non-negative integer n and for every value of n, we can find n+1 energies and the respective eigenfunctions in closed form. In this work, we use, as basic parameter, the constant term of a quotient polynomial [3], to quasi-exactly solve the sextic anharmonic oscillator and demonstrate that the new parameter is a preferential one to study the system, as it makes the analysis straightforward and transparent.
Category: Mathematical Physics

[524] viXra:1708.0328 [pdf] replaced on 2017-10-29 11:13:19

Using a Quotient Polynomial to Probe the Solvability of Polynomial Potentials in One-Dimensional Quantum Mechanics

Authors: Spiros Konstantogiannis
Comments: 17 Pages.

Making use of the Bethe ansatz, we introduce a quotient polynomial and we show that the presence of intermediate terms in it, i.e. terms other than the constant and the leading one, constitutes a non-solvability condition of the respective potential. In this context, both the exact solvability of the quantum harmonic oscillator and the quasi-exact solvability of the sextic anharmonic oscillator stem naturally from the quotient polynomial, as in the first case, it is an energy-dependent constant, while in the second case, it is a second-degree binomial with no linear term. In all other cases, the quotient polynomial has at least one intermediate term, the presence of which makes the respective potential non-solvable.
Category: Mathematical Physics

[523] viXra:1708.0184 [pdf] replaced on 2017-09-18 07:37:47

A One Page Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 11 Pages.

In a previous work I have derived the theory of everything (ToE) in a 74 pages paper. To make the theory more accessible, in this work, I derive the equation for the ToE on one page. I then follow the derivation with a few pages of discussion.
Category: Mathematical Physics

[522] viXra:1708.0184 [pdf] replaced on 2017-09-07 09:50:53

A One Page Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 11 Pages.

In a previous work I have derived the theory of everything (ToE) in a 74 pages paper. To make the theory more accessible, in this work, I derive the equation for the ToE on one page. I then follow the derivation with a few pages of discussion.
Category: Mathematical Physics

[521] viXra:1708.0149 [pdf] replaced on 2017-09-09 17:23:30

On an Entropic Universal Turing Machine Isomorphic to Physics (draft)

Authors: Alexandre Harvey-Tremblay
Comments: 39 Pages.

According to the second law of thermodynamics, a physical system will tend to increase its entropy over time. In this paper, I investigate a universal Turing machine (UTM) running multiple programs in parallel according to a scheduler. I found that if, over the course of the computation, the scheduler adjusts the work done on programs so as to maximize the entropy in the calculation of the halting probability Ω, the system will follow the laws of physics. Specifically, I show that the computation will obey algorithmic information theory (AIT) analogues to general relativity, entropic dark energy, the Schrödinger equation, a maximum computation speed analogous to the speed of light, the Lorentz's transformation, light cone, the Dirac equation for relativistic quantum mechanics, spins, polarization, etc. As the universe follows the second law of thermodynamics, these results would seem to suggest an affinity between an "entropic UTM" and the laws of physics.
Category: Mathematical Physics

[520] viXra:1708.0147 [pdf] replaced on 2017-08-28 07:33:28

Approximation to Higgs Boson

Authors: Harry Watson
Comments: 2 Pages.

Consider the product (4pi)(4pi-1/pi)(4pi-2/pi)(4pi-2/pi)(4pi-4/pi). The product of the first three terms is 1836.15. The product of the last two terms is 134.72. The mass ratio of the proton to the electron is 1836.15. We may sharpen the result by letting the last two terms be (4pi-3/pi)(4pi-4/pi) = 131.13. harry.watson@att.net
Category: Mathematical Physics

[519] viXra:1708.0147 [pdf] replaced on 2017-08-19 12:51:05

Approximation to Higgs Boson

Authors: Harry Watson
Comments: 2 Pages.

Consider the product (4pi)(4pi-1/pi)(4pi-2/pi)(4pi-2/pi)(4pi-4/pi). The product of the first three terms is 1836.15. The product of the last two terms is 134.72. The mass ratio of the proton to the electron is 1836.15. We may sharpen the result by letting the last two terms be (4pi-3/pi)(4pi-4/pi) = 131.13. harry.watson@att.net
Category: Mathematical Physics

[518] viXra:1708.0031 [pdf] replaced on 2017-09-17 22:28:49

Diamond Operator as a Spinless Square Root of d' Alembertian

Authors: Hideki Mutoh
Comments: 6 Pages.

Dirac equation includes the 4 x 4 complex differential operator matrix, which is one of square roots of d' Alembertian with spin. We found another 4 x 4 complex differential matrix as a spinless square root of d' Alembertian, which we call diamond operator. The extended Maxwell's equations including charge creation-annihilation field and the linear gravitational field equations including energy creation-annihilation field can be simply written by using the diamond operator. It is shown that the linear gravitational field equations derive Klein-Gordon equation, time independent Schrödinger equation, and the principle of quantum mechanics.
Category: Mathematical Physics

[517] viXra:1708.0031 [pdf] replaced on 2017-08-04 07:06:47

Diamond Operator as a Spinless Square Root of d' Alembertian

Authors: Hideki Mutoh
Comments: 5 Pages.

Dirac equation includes the 4 x 4 complex differential operator matrix, which is one of square roots of d' Alembertian with spin. We found another 4 x 4 complex differential matrix as a spinless square root of d' Alembertian, which we call diamond operator. The extended Maxwell's equations including charge creation-annihilation field and the linear gravitational field equations including energy creation-annihilation field can be simply written by using the diamond operator. It is shown that the linear gravitational field equations derive Klein-Gordon equation, time independent Schrödinger equation, and the principle of quantum mechanics.
Category: Mathematical Physics

[516] viXra:1708.0011 [pdf] replaced on 2017-10-03 00:04:34

General Solutions of Mathematical Physics Equations

Authors: Hong Lai Zhu
Comments: 53 Pages.

In this paper, using proposed three new transformation methods we have solved general solutions and exact solutions of the problems of definite solutions of the Laplace equation, Poisson equation, Schrödinger equation, the homogeneous and non-homogeneous wave equations, Helmholtz equation and heat equation. In the process of solving, we find that in the more general case, general solutions of partial differential equations have various forms such as basic general solution, series general solution, transformational general solution, generalized series general solution and so on.
Category: Mathematical Physics

[515] viXra:1708.0011 [pdf] replaced on 2017-09-04 08:14:07

General Solutions and Exact Solutions of the Problems of Definite Solutions of Mathematical Physics Equations

Authors: Hong Lai Zhu
Comments: 53 Pages.

In this paper, using proposed three new transformation methods we have solved general solutions and exact solutions of the problems of definite solutions of the Laplace equation, Poisson equation, Schrödinger equation, the homogeneous and non-homogeneous wave equations, Helmholtz equation and heat equation. In the process of solving, we find that in the more universal case, general solutions of partial differential equations have various forms such as basic general solution, series general solution, transformational general solution, generalized series general solution and so on.
Category: Mathematical Physics

[514] viXra:1707.0356 [pdf] replaced on 2017-10-15 08:44:39

A Derivation of Special and General Relativity from Algorithmic Thermodynamics

Authors: Alexandre Harvey-Tremblay
Comments: 29 Pages.

In this paper, I investigate a prefix-free universal Turing machine (UTM) running multiple programs in parallel according to a scheduler. I found that if over the course of the computation the scheduler adjusts the work done on programs so as to maximize the entropy in the calculation of the halting probability Omega, the system will follow many laws analogous to the laws of physics. As the scheduler maximizes entropy, the result relies on algorithmic thermodynamics which connects the halting probability of a prefix-free UTM to the Gibbs ensemble of statistical physics (which also maximizes entropy). My goal with this paper is to show specifically that special relativity, general relativity and an arrow of time can be derived from algorithmic thermodynamics under a certain choice of thermodynamic observables applied to the halting probability.
Category: Mathematical Physics

[513] viXra:1707.0356 [pdf] replaced on 2017-09-30 10:14:47

A Derivation of Special and General Relativity from Algorithmic Thermodynamics

Authors: Alexandre Harvey-Tremblay
Comments: 29 Pages.

In this paper, I investigate a prefix-free universal Turing machine (UTM) running multiple programs in parallel according to a scheduler. I found that if over the course of the computation the scheduler adjusts the work done on programs so as to maximize the entropy in the calculation of the halting probability Omega, the system will follow many laws analogous to the laws of physics. As the scheduler maximizes entropy, the result relies on algorithmic thermodynamics which connects the halting probability of a prefix-free UTM to the Gibbs ensemble of statistical physics (which also maximizes entropy). My goal with this paper is to show specifically that special relativity, general relativity and an arrow of time can be derived from algorithmic thermodynamics under a certain choice of thermodynamic observables applied to the halting probability.
Category: Mathematical Physics

[512] viXra:1707.0356 [pdf] replaced on 2017-09-26 07:57:49

A Derivation of Special and General Relativity from Algorithmic Thermodynamics

Authors: Alexandre Harvey-Tremblay
Comments: 28 Pages.

In this paper, I investigate a prefix-free universal Turing machine (UTM) running multiple programs in parallel according to a scheduler. I found that if over the course of the computation the scheduler adjusts the work done on programs so as to maximize the entropy in the calculation of the halting probability Omega, the system will follow many laws analogous to the laws of physics. As the scheduler maximizes entropy, the result relies on algorithmic thermodynamics which connects the halting probability of a prefix-free UTM to the Gibbs ensemble of statistical physics (which also maximizes entropy). My goal with this paper is to show specifically that special relativity, general relativity and an arrow of time can be derived from algorithmic thermodynamics under a certain choice of thermodynamic observables applied to the halting probability.
Category: Mathematical Physics

[511] viXra:1707.0356 [pdf] replaced on 2017-09-25 12:32:41

A Derivation of Special and General Relativity from Algorithmic Thermodynamics

Authors: Alexandre Harvey-Tremblay
Comments: 29 Pages.

In this paper, I investigate a prefix-free universal Turing machine (UTM) running multiple programs in parallel according to a scheduler. I found that if over the course of the computation the scheduler adjusts the work done on programs so as to maximize the entropy in the calculation of the halting probability Omega, the system will follow many laws analogous to the laws of physics. As the scheduler maximizes entropy, the result relies on algorithmic thermodynamics which connects the halting probability of a prefix-free UTM to the Gibbs ensemble of statistical physics (which also maximizes entropy). My goal with this paper is to show specifically that special relativity, general relativity and an arrow of time can be derived from algorithmic thermodynamics under a certain choice of thermodynamic observables applied to the halting probability.
Category: Mathematical Physics

[510] viXra:1707.0356 [pdf] replaced on 2017-09-04 15:24:50

A Derivation of Special and General Relativity from Algorithmic Thermodynamics

Authors: Alexandre Harvey-Tremblay
Comments: 27 Pages.

In this paper, I investigate a prefix-free universal Turing machine (UTM) running multiple programs in parallel according to a scheduler. I found that if over the course of the computation the scheduler adjusts the work done on programs so as to maximize the entropy in the calculation of the halting probability Omega, the system will follow many laws analogous to the laws of physics. As the scheduler maximizes entropy, the result relies on algorithmic thermodynamics which connects the halting probability of a prefix-free UTM to the Gibbs ensemble of statistical physics (which also maximizes entropy). My goal with this paper is to show specifically that special relativity, general relativity and an arrow of time can be derived from algorithmic thermodynamics under a certain choice of thermodynamic observables applied to the halting probability.
Category: Mathematical Physics

[509] viXra:1707.0356 [pdf] replaced on 2017-09-03 06:52:27

A Derivation of Special and General Relativity from Algorithmic Thermodynamics

Authors: Alexandre Harvey-Tremblay
Comments: 27 Pages.

In this paper, I investigate a prefix-free universal Turing machine (UTM) running multiple programs in parallel according to a scheduler. I found that if, over the course of the computation, the scheduler adjusts the work done on programs so as to maximize the entropy in the calculation of the halting probability Omega, the system will follow many laws analogous to the laws of physics. As the scheduler maximizes entropy, the result relies on algorithmic thermodynamics which connects the halting probability of a prefix-free UTM to the Gibb's ensemble of statistical physics (which also maximizes entropy). My goal with this paper is to show specifically, that special relativity and general relativity can be derived from algorithmic thermodynamics under a certain choice of thermodynamic observables applied to the halting probability.
Category: Mathematical Physics

[508] viXra:1707.0356 [pdf] replaced on 2017-09-01 12:51:31

A Derivation of Special and General Relativity from Algorithmic Thermodynamics

Authors: Alexandre Harvey-Tremblay
Comments: 26 Pages.

In this paper, I investigate a prefix-free universal Turing machine (UTM) running multiple programs in parallel according to a scheduler. I found that if, over the course of the computation, the scheduler adjusts the work done on programs so as to maximize the entropy in the calculation of the halting probability Omega, the system will follow many laws analogous to the laws of physics. As the scheduler maximizes entropy, the result relies on algorithmic thermodynamics which connects the halting probability of a prefix-free UTM to the Gibb's ensemble of statistical physics (which also maximizes entropy). My goal with this paper is to show specifically, that special relativity and general relativity can be derived from algorithmic thermodynamics under a certain choice of thermodynamic observables applied to the halting probability.
Category: Mathematical Physics

[507] viXra:1707.0356 [pdf] replaced on 2017-08-31 17:26:38

A Derivation of Special and General Relativity from Algorithmic Thermodynamics

Authors: Alexandre Harvey-Tremblay
Comments: 26 Pages.

In this paper, I investigate a prefix-free universal Turing machine (UTM) running multiple programs in parallel according to a scheduler. I found that if, over the course of the computation, the scheduler adjusts the work done on programs so as to maximize the entropy in the calculation of the halting probability Omega, the system will follow many laws analogous to the laws of physics. As the scheduler maximizes entropy, the result relies on algorithmic thermodynamics which connects the halting probability of a prefix-free UTM to the Gibb's ensemble of statistical physics (which also maximizes entropy). My goal with this paper is to show specifically, that special relativity and general relativity can be derived from algorithmic thermodynamics under a certain choice of thermodynamic observables applied to the halting probability.
Category: Mathematical Physics

[506] viXra:1707.0356 [pdf] replaced on 2017-08-29 16:51:53

A Derivation of Special and General Relativity from Algorithmic Thermodynamics

Authors: Alexandre Harvey-Tremblay
Comments: 25 Pages.

In this paper, I investigate a prefix-free universal Turing machine (UTM) running multiple programs in parallel according to a scheduler. I found that if, over the course of the computation, the scheduler adjusts the work done on programs so as to maximize the entropy in the calculation of the halting probability Omega, the system will follow many laws analogous to the laws of physics. As the scheduler maximizes entropy, the result relies on algorithmic thermodynamics which connects the halting probability of a prefix-free UTM to the Gibb's ensemble of statistical physics (which also maximizes entropy). My goal with this paper is to show specifically, that special relativity and general relativity can be derived from algorithmic thermodynamics under a certain choice of thermodynamic observables applied to the halting probability.
Category: Mathematical Physics

[505] viXra:1707.0266 [pdf] replaced on 2017-09-12 11:36:00

An Ideal MHD as a System of Coupled Quaternionic Riccati Equations for MHD Power Generator, and Outline for Finding Their Solutions

Authors: Victor Christianto, Florentin Smarandache
Comments: 6 Pages. This paper has been submitted to a conference administered for IEEE (BCWSP 2017)

In recent years, there are several proposals of using MHD theory for clean power generators on top of coal plant. But the theory involved appears too complicated, so in this paper we will use a simpler approach using ideal MHD equations which then they can be reduced to a system of coupled quaternionic Riccati equations. Further numerical and experimental investigations are advisable.
Category: Mathematical Physics

[504] viXra:1707.0214 [pdf] replaced on 2017-07-15 15:09:05

The Grand Unification Scheme and Metaspace

Authors: Miguel A. Sanchez-Rey
Comments: 3 Pages.

Advance superstrings are consider incalculable particles. With this in mind a more refine definition of the grand unification scheme and metaspace is presented.
Category: Mathematical Physics

[503] viXra:1707.0109 [pdf] replaced on 2017-10-24 08:37:37

General Exact Tetrahedron Argument for the Fundamental Laws of Continuum Mechanics

Authors: Ehsan Azadi
Comments: 28 pages

In this article, we give a general exact mathematical framework that all the fundamental relations and conservation equations of continuum mechanics can be derived based on it. We consider a general integral equation contains the parameters that act on the volume and the surface of the integral's domain. The idea is to determine how many local relations can be derived from this general integral equation and what these local relations are. After obtaining the general Cauchy lemma, we derive two other local relations by a new general exact tetrahedron argument. So, there are three local relations that can be derived from the general integral equation. Then we show that all the fundamental laws of continuum mechanics, including the conservation of mass, linear momentum, angular momentum, energy, and the entropy law, can be considered in this general framework. Applying the general three local relations to the integral form of the fundamental laws of continuum mechanics in this new framework leads to exact derivation of the mass flow, continuity equation, Cauchy lemma for traction vectors, existence of stress tensor, general equation of motion, symmetry of stress tensor, existence of heat flux vector, differential energy equation, and differential form of the Clausius-Duhem inequality for entropy law. The general exact tetrahedron argument is an exact proof that removes all the challenges on derivation of the fundamental relations of continuum mechanics. In this proof, there is no approximate or limited process and all the parameters are exact point-based functions. Also, it gives a new understanding and a deep insight into the origins and the physics and mathematics of the fundamental relations and conservation equations of continuum mechanics. This general mathematical framework can be used in many branches of continuum physics and the other sciences.
Category: Mathematical Physics

[502] viXra:1707.0106 [pdf] replaced on 2017-10-22 06:26:44

Cauchy Tetrahedron Argument and the Proofs of the Existence of Stress Tensor, a Comprehensive Review, Challenges, and Improvements

Authors: Ehsan Azadi
Comments: 34 pages

In 1822, Cauchy presented the idea of traction vector that contains both the normal and tangential components of the internal surface forces per unit area and gave the tetrahedron argument to prove the existence of stress tensor. These great achievements form the main part of the foundation of continuum mechanics. For about two centuries, some versions of tetrahedron argument and a few other proofs of the existence of stress tensor are presented in every text on continuum mechanics, fluid mechanics, and the relevant subjects. In this article, we show the birth, importance, and location of these Cauchy's achievements, then by presenting the formal tetrahedron argument in detail, for the first time, we extract some fundamental challenges. These conceptual challenges are related to the result of applying the conservation of linear momentum to any mass element, the order of magnitude of the surface and volume terms, the definition of traction vectors on the surfaces that pass through the same point, the approximate processes in the derivation of stress tensor, and some others. In a comprehensive review, we present the different tetrahedron arguments and the proofs of the existence of stress tensor, discuss the challenges in each one, and classify them in two general approaches. In the first approach that is followed in most texts, the traction vectors do not exactly define on the surfaces that pass through the same point, so most of the challenges hold. But in the second approach, the traction vectors are defined on the surfaces that pass exactly through the same point, therefore some of the relevant challenges are removed. We also study the improved works of Hamel and Backus, and indicate that the original work of Backus removes most of the challenges. This article shows that the foundation of continuum mechanics is not a finished subject and there are still some fundamental challenges.
Category: Mathematical Physics

[501] viXra:1707.0056 [pdf] replaced on 2017-10-23 06:28:26

Exact Tetrahedron Argument for the Existence of Stress Tensor and General Equation of Motion

Authors: Ehsan Azadi
Comments: 20 pages

The birth of modern continuum mechanics is the Cauchy's idea for traction vectors and his achievements of the existence of stress tensor and derivation of the general equation of motion. He gave a proof of the existence of stress tensor that is called Cauchy tetrahedron argument. But there are some challenges on the different versions of tetrahedron argument and the proofs of the existence of stress tensor. We give a new proof of the existence of stress tensor and derivation of the general equation of motion. The exact tetrahedron argument gives us, for the first time, a clear and deep insight into the origins and the nature of these fundamental concepts and equations of continuum mechanics. This new approach leads to the exact definition and derivation of these fundamental parameters and relations of continuum mechanics. By the exact tetrahedron argument we derived the relation for the existence of stress tensor and the general equation of motion, simultaneously. In this new proof, there is no limited, average, or approximate process and all of the effective parameters are exact values. Also in this proof, we show that all the challenges on the previous tetrahedron arguments and the proofs of the existence of stress tensor are removed.
Category: Mathematical Physics

[500] viXra:1707.0056 [pdf] replaced on 2017-07-05 15:43:42

Exact Tetrahedron Argument for the Existence of Stress Tensor and General Equation of Motion

Authors: Ehsan Azadi
Comments: 19 pages

The birth of modern continuum mechanics was the Cauchy's idea for traction vectors and his achievements of the existence of stress tensor and derivation of the general equation of motion. He gave a proof for the existence of stress tensor that is called Cauchy tetrahedron argument. But there are some challenges on the different versions of tetrahedron argument and the proofs for the existence of stress tensor. We give a new proof for the existence of stress tensor and derivation of the general equation of motion. The exact tetrahedron argument for the first time gives us a clear and deep insight into the origins and the nature of these fundamental concepts and equations in continuum mechanics. This new approach leads to the exact point-base definition and derivation of these fundamental parameters and relations in continuum mechanics. By the exact tetrahedron argument we derived the relation for the existence of stress tensor and the general equation of motion, simultaneously. In this new proof, there is no approximating or limiting process and all of the effective parameters are exact values not average values. Also, we show that in this proof, all the challenges on the previous tetrahedron arguments and the proofs for the existence of stress tensor are removed.
Category: Mathematical Physics

[499] viXra:1707.0022 [pdf] replaced on 2017-07-03 00:54:24

A Computer Algebra Solution of Ermakov Equation Corresponding to Diffusion Interpretation of Wave Mechanics

Authors: Victor Christianto, Florentin Smarandache
Comments: 8 Pages. This paper has not been submitted to a journal. Your comments are welcome

It has been long known that a year after Schrödinger published his equation, Madelung also published a hydrodynamics version of Schrödinger equation. Quantum diffusion is studied via dissipative Madelung hydrodynamics. Initially the wave packet spreads ballistically, than passes for an instant through normal diffusion and later tends asymptotically to a sub‐diffusive law. In this paper we will review two different approaches, including Madelung hydrodynamics and also Bohm potential. Madelung formulation leads to diffusion interpretation, which after a generalization yields to Ermakov equation. Since Ermakov equation cannot be solved analytically, then we try to find out its solution with Mathematica package. It is our hope that these methods can be verified and compared with experimental data. But we admit that more researches are needed to fill all the missing details.
Category: Mathematical Physics

[498] viXra:1706.0456 [pdf] replaced on 2017-10-28 10:38:15

The Theory of the Transcendent Reality (TTR)

Authors: Mauro Bernardini
Comments: 45 Pages. this version corrects some accidental writing errors of the previous loaded version.

This is a brief summary of the Theory of Transcendent Reality (TTR), which describes the main postulates and mathematics used to describe and support the rationality of the Alef's model as unique and absolute being container of all the existences. This first issiue allow to describe the real physical composition of all the parallel universes contained in Alef's body. Universes that are logically and rationally constituted exclusively by Particles of Existence with a mass equal to that of a Proton and which generate an "apparent" existence since they are interpreted as existent only by the under-dimensional beings they generate in each single universe. Highlighting therefore that the Particles of Existence present in every universe are in fact 11 dimensional body slices of the Points of Alef, which, in turn, are the only real components of Alef's body: and, therefore, Particles of Existence that never really born nor died.
Category: Mathematical Physics

[497] viXra:1706.0193 [pdf] replaced on 2017-07-15 21:47:18

Lesson 9: Navier-Stokes Equations Solved Simply

Authors: A. A. Frempong
Comments: 19 Pages. Copyright © by A. A. Frempong

Coincidences. The US Supreme Court consists of nine members, one of whom is the Chief Justice of the Court. So also, a one-direction Navier-Stokes equation consists of nine members, one of which is the indispensable gravity term, without which there would be no incompressible fluid flow as shown by the solutions of the N-S equations (viXra:1512.0334). Another coincidence is that numerologically, the number, 9, is equivalent to the 1800's (1 + 8 + 0 + 0 = 9) time period during which the number of the members of the Supreme Court became fixed at 9, while the formulation of the nine-term N-S equations was completed. Also, another coincidence is that the solutions of the N-S equations were completed (viXra:1512.0334) by the author in the year, 2016 (2 + 0 +1+ 6 = 9). Using a new introductory approach, this paper covers the author's previous solutions of the N-S equations (viXra:1512.0334). In particular, the N-S solutions have been compared to the equations of motion and liquid pressure of elementary physics. The N-S solutions are (except for the constants involved) very similar or identical to the equations of motion and liquid pressure of elementary physics. The results of the comparative analysis show that the N--S equations have been properly solved. It could be stated that the solutions of the N-S equations have existed since the time the equations of motion and liquid pressure of elementary physics were derived. A one-direction Navier-Stokes equation has also been derived from the equations of motion and liquid pressure of elementary physics. Insights into the solutions include how the polynomial parabolas, the radical parabolas, and the hyperbolas interact to produce turbulent flow. It is argued that the solutions and methods of solving the N-S equations are unique, and that only the approach by the author will ever produce solutions to the N-S equations. By a solution, the equation must be properly integrated and the integration results must be tested in the original equation for identity before the integration results are claimed as solutions
Category: Mathematical Physics

[496] viXra:1706.0193 [pdf] replaced on 2017-07-03 01:18:21

Lesson 9: Navier-Stokes Equations Solved Simply

Authors: A. A. Frempong
Comments: 19 Pages. Copyright © by A. A. Frempong

Coincidences. The US Supreme Court consists of nine members, one of whom is the Chief Justice of the Court. So also, a one-direction Navier-Stokes equation consists of nine members, one of which is the indispensable gravity term, without which there would be no incompressible fluid flow as shown by the solutions of the N-S equations (viXra:1512.0334). Another coincidence is that numerologically, the number, 9, is equivalent to the 1800's (1 + 8 + 0 + 0 = 9) time period during which the number of the members of the Supreme Court became fixed at 9, while the formulation of the nine-term N-S equations was completed. Also, another coincidence is that the solutions of the N-S equations were completed (viXra:1512.0334) by the author in the year, 2016 (2 + 0 +1+ 6 = 9). Using a new introductory approach, this paper covers the author's previous solutions of the N-S equations (viXra:1512.0334). In particular, the N-S solutions have been compared to the equations of motion and liquid pressure of elementary physics. The N-S solutions are (except for the constants involved) very similar or identical to the equations of motion and liquid pressure of elementary physics. The results of the comparative analysis show that the N--S equations have been properly solved. It could be stated that the solutions of the N-S equations have existed since the time the equations of motion and liquid pressure of elementary physics were derived. A one-direction Navier-Stokes equation has also been derived from the equations of motion and liquid pressure of elementary physics. Insights into the solutions include how the polynomial parabolas, the radical parabolas, and the hyperbolas interact to produce turbulent flow. It is argued that the solutions and methods of solving the N-S equations are unique, and that only the approach by the author will ever produce solutions to the N-S equations. By a solution, the equation must be properly integrated and the integration results must be tested in the original equation for identity before the integration results are claimed as solutions
Category: Mathematical Physics

[495] viXra:1706.0137 [pdf] replaced on 2017-06-14 12:16:22

Exact Gibbs Statistical Mechanics of a System of Quadratic Liénard Type Oscillators

Authors: Marcellin Nonti, Fernando Y. J. Kpomahou, Jean Akande, Damien K. K. Adjaï, Lucas H. Koudahoun, Marc D. Monsia
Comments: 4 pages

Hamiltonian dynamics and exact Gibbs statistical mechanics of a system of quadratic Liénard type oscillators have been investigated. The work has shown that the canonical ensemble for the harmonic oscillator is a particular case of the Gibbs ensemble theory developed in this paper.
Category: Mathematical Physics

[494] viXra:1706.0122 [pdf] replaced on 2017-09-13 15:07:37

The Composition of the Mechanical Force

Authors: Louai Hassan Elzein Bashier
Comments: 21 Pages.

This paper is prepared to show the synthesis of the Newtonian mechanical force and its counter part the inertial force. It is shows that the Newtonian mechanical force splits into two counter forces when it is act upon a rigid body. The paper is also shows the derivation of the momentum and the kinetic energy that occur due to the presence of the inertial force.
Category: Mathematical Physics

[493] viXra:1706.0122 [pdf] replaced on 2017-07-25 08:07:41

The Composition of the Mechanical Force

Authors: Louai Hassan Elzein Bashier
Comments: 21 Pages.

This paper is prepared to show the synthesis of the Newtonian mechanical force and its counter part the inertial force. It is shows that the Newtonian mechanical force splits into two counter forces when it is act upon a rigid body. The paper is also shows the derivation of the momentum and the kinetic energy that occur due to the presence of the inertial force.
Category: Mathematical Physics

[492] viXra:1705.0374 [pdf] replaced on 2017-06-12 02:09:24

Is Mechanics a Proper Approach to Fundamental Physics?

Authors: Zihao Song
Comments: 6 Pages. If one physical quantity can't find where it is originated, it's not a good physical quantity.

Physicists are proposing different mechanics to describe the nature, physical body is measured by intrinsic properties like electric charge, and extrinsic properties being related to space like generalized coordinates or velocities etc., with these properties we can predict what event will happen. We can naturally define the fact of the event and the cause of the event as information, the information grasped by physicist must be originated from something objective, information must have its object container. Intrinsic property information is contained by object itself, but container of extrinsic property information like position is ambiguous, position is a relation based on multiple objects, it's hard to define which one is the information container. With such ambiguity, no mechanics is a complete theory, errors hidden in assumptions are hard to find. Here we show a new theoretical framework with strict information container restriction, on which we can build complete determinism theories to approach grand unification.
Category: Mathematical Physics

[491] viXra:1705.0347 [pdf] replaced on 2017-06-19 04:02:19

About Physical Inadequacy of the Three-Dimensional Navier-Stokes Equation for Viscous Incompressible Fluid

Authors: Preobrazhenskiy Andrey
Comments: 13 Pages.

ABSTRACT. This paper deals with the analysis of physically possible constructions of a viscous incompressible fluid model. Physical principles that allow to create the only possible construction of this model were found. The new model does not use new constants that characterize properties of the fluid and coincides with the Stokes model only in the plane case. Within the framework of this model, new equations for fluid motion were obtained. The new equations coincide with Navier-Stokes system in the plane case, but do not coincide in the three-dimensional one. The model makes it possible to see why the three-dimensional Navier-Stokes equations cannot physically adequately describe fluids motion, and obliquely confirms the finite time for the existence of its regular solutions.
Category: Mathematical Physics

[490] viXra:1705.0347 [pdf] replaced on 2017-05-27 09:01:13

About Physical Inadequacy of the Three-Dimensional Navier-Stokes Equation for Viscous Incompressible Fluid

Authors: Preobrazhenskiy Andrey
Comments: 11 Pages.

ABSTRACT. This paper deals with the analysis of physically possible constructions of a viscous incompressible fluid model. Physical principles that allow to create the only possible construction of this model were found. The new model does not use new constants that characterize properties of the fluid and coincides with the Stokes model only in the plane case. Within the framework of this model, new equations for fluid motion were obtained. The new equations coincide with Navier-Stokes system in the plane case, but do not coincide in the three-dimensional one. The model makes it possible to see why the three-dimensional Navier-Stokes equations cannot physically adequately describe fluids motion, and obliquely confirms the finite time for the existence of its regular solutions.
Category: Mathematical Physics

[489] viXra:1705.0300 [pdf] replaced on 2017-05-23 08:56:56

Mnozenje Vektora I Struktura 3D Euklidskog Prostora

Authors: Miroslav Josipović
Comments: 80 Pages. geometric algebra

This is the translation of the article "Multiplication of Vectors and Structure of 3D Euclidean Space" to Croatian.
Category: Mathematical Physics

[488] viXra:1705.0274 [pdf] replaced on 2017-10-27 14:06:00

A Purely Mathematical Proof/reason for the Existence of the Universe.

Authors: Alexandre Harvey-Tremblay
Comments: 66 Pages.

In this work, I present a minimalist approach to first-order logic and show how it implies an irrefutable equation which connects to our major theories of physics. The minimalist approach is, in many ways, similar to the constructivist project in mathematics but taken to the extreme. The approach starts from first-order logic with no axioms and further removes all rules of inference with the exception of the proof by construction. Although this severely cripples first-order logic it nonetheless gives it the following advantage. From an argument originally made by Plato, I argue that any axioms or rules of inference that are removed increases the "epistemological irrefutability" of the theory. Taken to the extreme, once all axioms and all rules of inference are removed, the theory becomes entirely irrefutable and specifically in the case of this approach, as the first-order logic system is minimal, the epistemological irrefutability of its theorems is maximal. Using this approach, I construct a universal language defined by a small list of first-order sentences. Each of the sentences claims the existence of an object of language which is provable by construction, the only rule of inference allowed by the minimalist system. As a result of being a theorem of a minimal system, the existence of the constructed universal language is therefore maximally irrefutable. This proof closely resembles René Descartes' derivation of the 'cogito ergo sum'. Like Descartes' method, this method also produces a statement that cannot be denied. But, unlike Descartes, as the proof is written in the language of first order logic, the irrefutable statement obtained is an actual equation. Part I is the minimalist derivation of the irrefutable equation. The equation obtained is formulated as a Gibbs ensemble and relates the algorithmic notions of provable-sentences to that of entropy. Part II is the derivation of the physical laws. I recover, from the irrefutable equation, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR) and the holographic principle. These equations are derived entirely from pure reason with no appeal to physical observations. All physical laws obtained are shown to be emergent from informational entropy. Naturally, deriving both the Dirac equation and general relativity from the same theory is highly suggestive that the irrefutable equation should be promoted to a tentative Theory of Everything (ToE)-candidate. This result motivates the ToE claim made in this paper.
Category: Mathematical Physics

[487] viXra:1705.0274 [pdf] replaced on 2017-09-26 08:01:33

A Minimalist Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 66 Pages.

In this work, I present a minimalist approach to first-order logic and show how it implies an equation which necessarily bounds any possible Theory of Everything (ToE). The bound is of sufficient strength to recover actual laws of physics including general relativity and the Dirac equation. The minimalist approach is, in many ways, similar to the constructivist project in mathematics but taken to the extreme. The approach starts from first-order logic with no axioms and further removes all rules of inference with the exception of the proof by construction. Although this severely cripples first-order logic it nonetheless gives it the following advantage. From an argument originally made by Plato, I argue that any axioms or rules of inference that are removed increases the "epistemological irrefutability" of the theory. Taken to the extreme, once all axioms and all rules of inference are removed, the theory becomes entirely irrefutable and specifically in the case of this approach, as the first-order logic system is minimal, the epistemological irrefutability of its theorems is maximal. Using this approach, I construct a universal language defined by a small list of first-order sentences. Each of the sentences claims the existence of an object of language which is provable by construction, the only rule of inference allowed by the minimalist system. As a result of being a theorem of a minimal system, the existence of the constructed universal language is therefore maximally irrefutable. On the grounds that any ToE must at the very least recover all maximally irrefutable knowledge, I recover a strong restriction applicable to any possible ToE candidate. Part I is the minimalist derivation of the ToE restriction. From this derivation I obtain a master equation formulated as a Gibbs ensemble and relating the algorithmic notions of provable-sentences to that of entropy. PartII is the derivation of the physical laws. I recover, from the master equation, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR) and the holographic principle. These equations are derived entirely from pure reason with no appeal to physical observations. All physical laws obtained are shown to be emergent from informational entropy. Naturally, deriving both the Dirac equation and general relativity from the same theory is highly suggestive that the ToE-restriction should be promoted to a ToE-candidate. This result motivates the ToE claim made in this paper.
Category: Mathematical Physics

[486] viXra:1705.0274 [pdf] replaced on 2017-09-25 12:31:29

A Minimalist Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 65 Pages.

In this work, I present a minimalist approach to first-order logic and show how it implies an equation which necessarily bounds any possible Theory of Everything (ToE). The bound is of sufficient strength to recover actual laws of physics including general relativity and the Dirac equation. The minimalist approach is, in many ways, similar to the constructivist project in mathematics but taken to the extreme. The approach starts from first-order logic with no axioms and further removes all rules of inference with the exception of the proof by construction. Although this severely cripples first-order logic it nonetheless gives it the following advantage. From an argument originally made by Plato, I argue that any axioms or rules of inference that are removed increases the "epistemological irrefutability" of the theory. Taken to the extreme, once all axioms and all rules of inference are removed, the theory becomes entirely irrefutable and specifically in the case of this approach, as the first-order logic system is minimal, the epistemological irrefutability of its theorems is maximal. Using this approach, I construct a universal language defined by a small list of first-order sentences. Each of the sentences claims the existence of an object of language which is provable by construction, the only rule of inference allowed by the minimalist system. As a result of being a theorem of a minimal system, the existence of the constructed universal language is therefore maximally irrefutable. On the grounds that any ToE must at the very least recover all maximally irrefutable knowledge, I recover a strong restriction applicable to any possible ToE candidate. Part I is the minimalist derivation of the ToE restriction. From this derivation I obtain a master equation formulated as a Gibbs ensemble and relating the algorithmic notions of provable-sentences to that of entropy. PartII is the derivation of the physical laws. I recover, from the master equation, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR) and the holographic principle. These equations are derived entirely from pure reason with no appeal to physical observations. All physical laws obtained are shown to be emergent from informational entropy. Naturally, deriving both the Dirac equation and general relativity from the same theory is highly suggestive that the ToE-restriction should be promoted to a ToE-candidate. This result motivates the ToE claim made in this paper.
Category: Mathematical Physics

[485] viXra:1705.0274 [pdf] replaced on 2017-09-17 15:07:54

A Minimalist Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 64 Pages.

In this work, I present a minimalist approach to first-order logic and show how it implies a restriction on any possible Theory of Everything in physics (ToE) of sufficient strength to recover actual laws of physics. The minimalist approach is, in many ways, similar to the constructivist project in mathematics but taken to the extreme. The approach starts from first-order logic with no axioms and further removes all rules of inference with the exception of the proof by construction. Although this severely cripples first-order logic it nonetheless impairs it with the following advantage. From an argument originally made by Plato, I argue that each axioms or rules of inference that are removed increases the "epistemological irrefutability" of the theory. Taken to the extreme, once all axioms and all rules of inference are removed, the theory becomes entirely irrefutable and specifically in the case of this approach, as the first-order logic system is minimal, the epistemological irrefutability of its theorems is maximal. Using this approach, I construct a universal language defined by a small list of first-order sentences. Each of these sentences claims the existence of an object of language which is provable by construction, the only rule of inference allowed by the minimalist system. As a result of being a theorem of a minimal system, the existence of the constructed universal language is therefore maximally irrefutable. On the grounds that any ToE must at the very least recover all maximally irrefutable knowledge, I recover a strong restriction applicable to any possible ToE candidate. Part I is the minimalist derivation of the ToE restriction. From this derivation I obtain a master equation formulated as a Gibbs ensemble and relating the algorithmic notions of provable-sentences to that of entropy. Part II is the derivation of the physical laws. I recover, from the master equation, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR) and the holographic principle. These equations are derived entirely from pure reason with no appeal to physical observations. All physical laws obtained are shown to be emergent from informational entropy. Naturally, deriving both the Dirac equation and general relativity from the same theory is highly suggestive that the ToE-restriction should be promoted to a ToE-candidate. This result motivates the ToE claim made in this paper.
Category: Mathematical Physics

[484] viXra:1705.0274 [pdf] replaced on 2017-09-12 09:43:06

An Axiomless Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 71 Pages.

In this work, I present a formal construction of the axiomless position as originally argued by Plato. This construction ultimately leads to a theory of everything in physics (ToE). The purpose of this paper is to first derive the ToE from the axiomless position, then to derive sufficient physics from it so as to establish the soundness of the methodology. Part I is the axiomless derivation of the ToE. From this derivation I obtain a master equation formulated as a Gibbs ensemble and relating the algorithmic notions of program-observables to that of physical entropy. Part II is the derivation of the physical laws. I recover, in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR). These equations are derived entirely from pure reason with no appeal to physical observations. All physical laws are emergent. Naturally, deriving both the Dirac equation and general relativity from the same theory is highly suggestive of a ToE candidate. This result motivates the ToE claim made in this paper.
Category: Mathematical Physics

[483] viXra:1705.0274 [pdf] replaced on 2017-09-11 12:00:42

An Axiomless Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 70 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). The purpose of this paper is to first derive the ToE from the axiomless position, then to derive sufficient physics from it so as to convince the skeptical reader of the validity of the methodology. Part I is the axiomless derivation of the ToE. From this derivation I obtain, in part II, a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the derivation of physical laws so as to provide evidence that it is the ToE. I recover, in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR). These equations are derived entirely from pure reason with no appeal to physical observations. Deriving both QM and GR as necessary consequences and limiting cases of this equation is suggestive of unification.
Category: Mathematical Physics

[482] viXra:1705.0274 [pdf] replaced on 2017-08-16 20:21:03

An Axiomless Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 71 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). The purpose of this paper is to first derive the ToE from the axiomless position, then to derive sufficient physics from it so as to convince the skeptical reader of the validity of the methodology. Part I is the axiomless derivation of the ToE. From this derivation I obtain, in part II, a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the derivation of physical laws so as to provide evidence that it is the ToE. I recover, in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR). These equations are derived entirely from pure reason with no appeal to physical observations. Deriving both QM and GR as necessary consequences and limiting cases of this equation is suggestive of unification.
Category: Mathematical Physics

[481] viXra:1705.0274 [pdf] replaced on 2017-08-14 10:34:44

An Axiomless Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 71 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). The purpose of this paper is to first derive the ToE from the axiomless position, then to derive sufficient physics from it so as to convince the skeptical reader of the validity of the methodology. Part I is the axiomless derivation of the ToE. From this derivation I obtain, in part II, a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the derivation of physical laws so as to provide evidence that it is the ToE. I recover, in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR). These equations are derived entirely from pure reason with no appeal to physical observations. Deriving both QM and GR as necessary consequences and limiting cases of this equation is suggestive of unification.
Category: Mathematical Physics

[480] viXra:1705.0274 [pdf] replaced on 2017-07-26 08:04:32

A Theory of Everything from Pure Reason

Authors: Alexandre Harvey-Tremblay
Comments: 74 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). The purpose of this paper is to first derive the ToE from the axiomless position, then to derive sufficient physics from it so as to convince the skeptical reader of the validity of the methodology. Part I is the axiomless derivation of the ToE. From this derivation I obtain, in part II, a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the derivation of physical laws so as to provide evidence that it is the ToE. I recover, in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR). These equations are derived entirely from pure reason with no appeal to physical observations. Deriving both QM and GR as necessary consequences and limiting cases of this equation is suggestive of unification.
Category: Mathematical Physics

[479] viXra:1705.0274 [pdf] replaced on 2017-07-26 07:05:11

A Theory of Everything from Pure Reason

Authors: Alexandre Harvey-Tremblay
Comments: 74 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). The purpose of this paper is to first derive the ToE from the axiomless position, then to derive sufficient physics from it so as to convince the skeptical reader of the validity of the methodology. Part I is the axiomless derivation of the ToE. From this derivation I obtain, in part II, a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the derivation of physical laws so as to provide evidence that it is the ToE. I recover, in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR). These equations are derived entirely from pure reason with no appeal to physical observations. Deriving both QM and GR as necessary consequences and limiting cases of this equation is suggestive of unification.
Category: Mathematical Physics

[478] viXra:1705.0274 [pdf] replaced on 2017-07-25 19:07:22

A Theory of Everything from Pure Reason

Authors: Alexandre Harvey-Tremblay
Comments: 75 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). The purpose of this paper is to first derive the ToE from the axiomless position, then to derive sufficient physics from it so as to convince the skeptical reader of the validity of the methodology. Part I is the axiomless derivation of the ToE. From this derivation I obtain, in part II, a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the derivation of physical laws so as to provide evidence that it is the ToE. I recover, in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR). These equations are derived entirely from pure reason with no appeal to physical observations. Deriving both QM and GR as necessary consequences and limiting cases of this equation is suggestive of unification.
Category: Mathematical Physics

[477] viXra:1705.0274 [pdf] replaced on 2017-07-25 12:50:01

A Theory of Everything from Pure Reason

Authors: Alexandre Harvey-Tremblay
Comments: 75 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). The purpose of this paper is to first derive the ToE from the axiomless position, then to derive sufficient physics from it so as to convince the skeptical reader of the validity of the methodology. Part I is the axiomless derivation of the ToE. From this derivation I obtain, in part II, a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the derivation of physical laws so as to provide evidence that it is the ToE. I recover, in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR). These equations are derived entirely from pure reason with no appeal to physical observations. Deriving both QM and GR as necessary consequences and limiting cases of this equation is suggestive of unification. These are some suggestive results that may indicate that this idea, while not yet fully completed*, could be a promising area of future research. *As of the last revision date of this paper, a derivation of the elementary particles from this theory as per the standard model has not yet been investigated by the author.
Category: Mathematical Physics

[476] viXra:1705.0274 [pdf] replaced on 2017-07-24 06:58:20

A Theory of Everything from Pure Reason

Authors: Alexandre Harvey-Tremblay
Comments: 73 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). The purpose of this paper is to first derive the ToE from the axiomless position, then to derive sufficient physics from it so as to convince the skeptical reader of the validity of the methodology. Part I is the axiomless derivation of the ToE. From this derivation I obtain, in part II, a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the derivation of physical laws so as to provide evidence that it is the ToE. I recover, in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR). These equations are derived entirely from pure reason with no appeal to physical observations. Deriving both QM and GR as necessary consequences and limiting cases of this equation is suggestive of unification. These are some suggestive results that may indicate that this idea, while not yet fully completed*, could be a promising area of future research. *As of the last revision date of this paper, a derivation of the elementary particles from this theory as per the standard model has not yet been investigated by the author.
Category: Mathematical Physics

[475] viXra:1705.0274 [pdf] replaced on 2017-07-23 13:00:22

A Theory of Everything from Pure Reason

Authors: Alexandre Harvey-Tremblay
Comments: 74 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). The purpose of this paper is to first derive the ToE from the axiomless position, then to derive sufficient physics from it so as to convince the skeptical reader of the validity of the methodology. Part I is the axiomless derivation of the ToE. From this derivation I obtain, in part II, a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is to convince the skeptical reader that this master equation is indeed the ToE. To show evidence of that, I recover, again in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR). These equations are derived entirely from pure reason with no appeal to physical observations. Deriving both QM and GR as necessary consequences and limiting cases of this equation is suggestive of unification. These are some suggestive results that may indicate that this idea, while incomplete*, could be a promising area of future research. *As of the last revision date of this paper, a derivation of the elementary particles from this theory as per the standard model has not yet been investigated by the author.
Category: Mathematical Physics

[474] viXra:1705.0274 [pdf] replaced on 2017-07-22 05:29:56

A Theory of Everything from Pure Reason

Authors: Alexandre Harvey-Tremblay
Comments: 72 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to a candidate for the theory of everything in physics (ToE). Part I is the axiomless derivation of the ToE-candidate. From this derivation I obtain, in part II, a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the thesis that this master equation is indeed a credible ToE-candiate. To convince you of that, I recover, again in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GR). These equations are derived entirely from pure reason with no appeal to physical observations. Deriving both QM and GR from this equation is considered strong evidence that they are unified in it. Using this unification, we also propose a quantum mechanical description of black holes, and derive laws specific to it.
Category: Mathematical Physics

[473] viXra:1705.0274 [pdf] replaced on 2017-07-21 13:53:03

On the Origin of Physics from Mathematical Logic

Authors: Alexandre Harvey-Tremblay
Comments: 71 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to a candidate for the theory of everything in physics (ToE). Part I is the axiomless derivation of the ToE-candidate. From this derivation I obtain, in part II, a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the thesis that this master equation is indeed a credible ToE-candiate. To convince you of that, I recover, again in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics (QM), special and general relativity (GM). These equations are derived entirely from pure reason with no appeal to physical observations. Deriving both QM and GM from this equation is considered strong evidence that they are unified in it. Using this unification, we also propose a quantum mechanical description of black holes, and derive laws specific to it.
Category: Mathematical Physics

[472] viXra:1705.0274 [pdf] replaced on 2017-07-12 07:20:57

On the Origin of Physics from Mathematical Logic

Authors: Alexandre Harvey-Tremblay
Comments: 66 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). Part I is the axiomless derivation of the ToE. From this derivation I obtain a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the thesis that this master equation is indeed the ToE. To convince you of that, I recover, again in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics, special and general relativity. These equations are derived entirely from pure reason with no appeal to physical observations. \end{abstract}
Category: Mathematical Physics

[471] viXra:1705.0274 [pdf] replaced on 2017-07-11 20:36:09

On the Origin of Physics from Mathematical Logic

Authors: Alexandre Harvey-Tremblay
Comments: 66 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). Part I is the axiomless derivation of the ToE. From this derivation I obtain a master equation formulated as a Gibb's ensemble and relating the algorithmic notions of program-observables to that of entropy. Part III is the thesis that this master equation is indeed the ToE. To convince you of that, I recover, again in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics, special and general relativity. These equations are derived entirely from pure reason with no appeal to physical observations.
Category: Mathematical Physics

[470] viXra:1705.0274 [pdf] replaced on 2017-05-26 07:05:40

An Axiomless Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 48 Pages.

In this work, I present a formal construction of the axiomless position. This construction ultimately leads to the theory of everything in physics (ToE). Part I of this work is the axiomless derivation of the ToE. From this derivation I obtain a master equation relating the notions of truth, knowledge and information to that of entropy. Part II is the thesis that this master equation is indeed the ToE. To convince you of that, I recover, again in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics, special and general relativity. These equations are derived entirely from pure reason with no appeal to physical observations. The work here can also be interpreted as a constructive proof of René Descartes' cogito ergo sum. Where-as he proved the existence of the thinking self by contradiction, it is here proven by construction.
Category: Mathematical Physics

[469] viXra:1705.0274 [pdf] replaced on 2017-05-23 14:09:54

An Axiomless Derivation of the Theory of Everything

Authors: Alexandre Harvey-Tremblay
Comments: 48 Pages.

Plato recognized that most of the disagreement in philosophy is ultimately linked to the choice of axioms made by the parties involved. He believed that by grinding away at the assumptions made for any argument, one could recover a kind universal truth. He believed that this universal truth, comprised of whatever survives the grinding process, could ultimately be used to build a logical framework in a manner that is entirely irrefutable. This is the axiomless position. In this work, I present such a derivation. Part I of this work is the axiomless derivation of the theory of everything in physics. From this derivation I obtain a master equation relating the notions of truth, knowledge and information to that of entropy. Part II is the thesis that this master equation is indeed the theory of everything in physics. To convince you of that, I recover, again in an axiomless manner, the exact mathematical formulation of the major theories of physics; including statistical mechanics, quantum mechanics, special and general relativity. These equations are entirely derived from pure reason with no appeal to physical observations. The work here can also be interpreted as a constructive proof of René Descartes' cogito ergo sum. Where-as he proved the existence of the thinking self by contradiction, it is here proven by construction.
Category: Mathematical Physics

[468] viXra:1705.0274 [pdf] replaced on 2017-05-18 12:57:31

A Derivation of the Theory of Everything from the 'cogito Ergo Sum'

Authors: Alexandre Harvey-Tremblay
Comments: 46 Pages.

Using the cogito ergo sum as a starting point, I introduce a methodology which allows non-trivial knowledge to be obtained without the formal introduction of axioms. Using this methodology which I formalize, I then obtain a theory of everything (ToE) in physics. This method allows me to avoid the self-referential problem of a ToE which I argue is the core difficulty of any ToE built upon formal axioms. The theory obtained has enough generality to recover both general relativity and quantum field theory. Some of the new physics derived herein include a hard arrow time, an explanation of the quantum mechanical measurement, and a thermodynamic proof that the speed of light is maximal.
Category: Mathematical Physics

[467] viXra:1705.0262 [pdf] replaced on 2017-10-24 07:14:41

Solutions of the Duffing and Painleve-Gambier Equations by Generalized Sundman Transformation

Authors: D.K.K. Adjaï, L. H. Koudahoun, J. Akande, Y.J.F. Kpomahou, M. D. Monsia
Comments: 12 pages

This paper shows that explicit and exact general periodic solutions for various types of Lienard equations can be computed by applying the generalized Sundman transformation. As an il- lustration of the efficiency of the proposed theory, the cubic Duffing equation and Painleve- Gambier equations were considered. As a major result, it has been found, for the first time, that equation XII of the Painleve-Gambier classication can exhibit, according to an appropriate parametric choice, trigonometric solutions, but with a shift factor.
Category: Mathematical Physics

[466] viXra:1705.0262 [pdf] replaced on 2017-08-24 03:38:22

On Analysis of a Class of Quadratic Lienard Type Equations Exhibiting Exact Periodic Solutions

Authors: D.K.K. Adjaï, L. H. Koudahoun, J. Akande, Y.J.F. Kpomahou, M. D. Monsia
Comments: 10 pages

This paper exhibits a generalization of the theory of linearizing quadratic Lienard type equa- tions introduced earlier by the authors of the current work and its application to determine the general periodic solutions for the cubic Dung equation and for some equations of Painleve- Gambier classication as illustrative examples. The mathematical equivalence between the cubic Dung equation and the Painleve-Gambier XIX equation has been also highlighted us- ing the present generalized theory.
Category: Mathematical Physics

[465] viXra:1705.0035 [pdf] replaced on 2017-05-04 02:31:50

Solving Numerically a System of Coupled Riccati ODEs for Incompressible Non-Stationary 3D Navier-Stokes Equations

Authors: Victor Christianto, Sergey Ershkov
Comments: 11 Pages. This paper is to be submitted to Royal Society Open Access journal. Your comments are welcome.

In a recent paper, Ershkov derived a system of two coupled Riccati ODEs as solution of non-stationary incompressible 3D Navier-Stokes equations. Now in this paper, we solve these coupled Riccati ODEs using: a) Maxima and b) Mathematica 11 computer algebra packages. The result seems to deserve further investigation in particular in comparison with rigid body motion, which will be discussed elsewhere.
Category: Mathematical Physics

[464] viXra:1704.0264 [pdf] replaced on 2017-06-06 07:20:18

Preliminary Evidence That a Neoclassical Model of Physics (L3) Might Be Correct

Authors: Paul Werbos
Comments: 15 Pages. 15p, 36 eq. typos corrected -- eq 7, refs to eqs 26 and 27.

Today’s standard model of physics treats the physical masses of elementary particles as given, and assumes that they have a bare radius of zero, as in the older classical physics of Lorentz. Many physicists have studied the properties of the Yang-Mills-Higgs model of continuous fields in hopes that it might help to explain where elementary particles (and their masses) come from in the first place. This paper reviews some of the important prior work on Yang-Mills-Higgs and solitons in general, but it also shows that stable particles in that model cannot have intrinsic angular momentum (spin). It specifies four extensions of Yang-Mills Higgs, the Lagrangians L1 through L4, which are closer to the standard model of physics, and shows that one of the four (L3) does predict/explain spin from a purely neoclassical theory. The paper begins by summarizing the larger framework which has inspired this work, and ends by discussing two possibilities for further refinement.
Category: Mathematical Physics

[463] viXra:1704.0199 [pdf] replaced on 2017-04-28 10:55:41

Theory of Exact Trigonometric Periodic Solutions to Quadratic Liénard Type Equations

Authors: J. Akande, D. K. K. Adjaï, L. H. Koudahoun, Y. J. F. Kpomahou, M. D. Monsia
Comments: 16 pages

The problem of finding exact trigonometric periodic solutions to non-linear differential equations is still an open mathematical research field. In this paper it is shown that the Painlevé-Gambier XVIII equation and its inverted version may exhibit exact trigonometric periodic solutions as well as other quadratic Liénard type equations but with amplitude-dependent frequency. Other inverted Painlevé-Gambier equations are also shown to admit exact periodic solutions.
Category: Mathematical Physics

[462] viXra:1704.0199 [pdf] replaced on 2017-04-17 09:28:29

Theory of Exact Trigonometric Periodic Solutions to Quadratic Liénard Type Equations

Authors: J. Akande, D.K.K. Adjaï, L.H. Koudahoun, Y.J.F. Kpomahou, M.D. Monsia
Comments: 16 pages

The problem of finding exact trigonometric periodic solutions to non-linear differential equations is still an open mathematical research field. In this paper it is shown that the Painlevé-Gambier XVIII equation and its inverted version may exhibit exact trigonometric periodic solutions as well as other quadratic Liénard type equations but with amplitude-dependent frequency. Other inverted Painlevé-Gambier equations are also shown to admit exact periodic solutions.
Category: Mathematical Physics

[461] viXra:1704.0108 [pdf] replaced on 2017-05-06 15:26:07

Closed-Form Solution for the Nontrivial Zeros of the Riemann Zeta Function

Authors: Frederick Moxley
Comments: 14 Pages.

In the year 2017 it was formally conjectured that if the Bender-Brody-M\"uller (BBM) Hamiltonian can be shown to be self-adjoint, then the Riemann hypothesis holds true. Herein we discuss the domain and eigenvalues of the Bender-Brody-M\"uller conjecture. Moreover, a second quantization of the BBM Schr\"odinger equation is performed, and a closed-form solution for the nontrivial zeros of the Riemann zeta function is obtained. Finally, it is shown that all of the nontrivial zeros are located at $\Re(z)=1/2$.
Category: Mathematical Physics

[460] viXra:1704.0108 [pdf] replaced on 2017-04-25 23:28:28

Closed-Form Solution for the Nontrivial Zeros of the Riemann Zeta Function

Authors: Frederick Moxley
Comments: 15 Pages.

In the year 2017 it was formally conjectured that if the Bender-Brody-M\"uller (BBM) Hamiltonian can be shown to be self-adjoint, then the Riemann hypothesis holds true. Herein we discuss the domain and eigenvalues of the Bender-Brody-M\"uller conjecture. Moreover, a second quantization of the BBM Schr\"odinger equation is performed, and a closed-form solution for the nontrivial zeros of the Riemann zeta function is obtained. Finally, it is shown that all of the nontrivial zeros are located at $\Re(z)=1/2$.
Category: Mathematical Physics

[459] viXra:1704.0108 [pdf] replaced on 2017-04-12 02:44:54

Closed-Form Solution for the Nontrivial Zeros of the Riemann Zeta Function

Authors: Frederick Moxley
Comments: 12 Pages.

In the year 2017 it was formally conjectured that if the Bender-Brody-M\"uller (BBM) Hamiltonian can be shown to be self-adjoint, then the Riemann hypothesis holds true. Herein we discuss the domain and eigenvalues of the Bender-Brody-M\"uller conjecture. Moreover, a second quantization of the BBM Schr\"odinger equation is performed, and a closed-form solution for the nontrivial zeros of the Riemann zeta function is obtained.
Category: Mathematical Physics

[458] viXra:1704.0108 [pdf] replaced on 2017-04-11 09:55:38

Closed-Form Solution for the Nontrivial Zeros of the Riemann Zeta Function

Authors: Frederick Moxley
Comments: 12 Pages.

In the year 2017 it was formally conjectured that if the Bender-Brody-M\"uller (BBM) Hamiltonian can be shown to be self-adjoint, then the Riemann hypothesis holds true. Herein we discuss the domain and eigenvalues of the Bender-Brody-M\"uller conjecture. Moreover, a second quantization of the BBM Schr\"odinger equation is performed, and a closed-form solution for the nontrivial zeros of the Riemann zeta function is obtained.
Category: Mathematical Physics

[457] viXra:1704.0108 [pdf] replaced on 2017-04-10 10:53:56

Closed-Form Solution for the Nontrivial Zeros of the Riemann Zeta Function

Authors: Frederick Moxley
Comments: 11 Pages.

In the year 2017 it was formally conjectured that if the Bender-Brody-M\"uller (BBM) Hamiltonian can be shown to be self-adjoint, then the Riemann hypothesis holds true. Herein we discuss the domain and eigenvalues of the Bender-Brody-M\"uller conjecture. Moreover, a second quantization of the BBM Schr\"odinger equation is performed, and a closed-form solution for the nontrivial zeros of the Riemann zeta function is obtained.
Category: Mathematical Physics

[456] viXra:1704.0108 [pdf] replaced on 2017-04-10 02:23:55

Closed-Form Solution for the Nontrivial Zeros of the Riemann Zeta Function

Authors: Frederick Moxley
Comments: 11 Pages.

In the year 2017 it was formally conjectured that if the Bender-Brody-M\"uller (BBM) Hamiltonian can be shown to be self-adjoint, then the Riemann hypothesis holds true. Herein we discuss the domain and eigenvalues of the Bender-Brody-M\"uller conjecture. Moreover, a second quantization of the BBM Schr\"odinger equation is performed, and a closed-form solution for the nontrivial zeros of the Riemann zeta function is obtained.
Category: Mathematical Physics

[455] viXra:1704.0108 [pdf] replaced on 2017-04-09 09:26:07

Closed-Form Solution for the Nontrivial Zeros of the Riemann Zeta Function

Authors: Frederick I Moxley
Comments: 11 Pages.

In the year 2017 it was formally conjectured that if the Bender-Brody-M\"uller (BBM) Hamiltonian can be shown to be self-adjoint, then the Riemann hypothesis holds true. Herein we discuss the domain and eigenvalues of the Bender-Brody-M\"uller conjecture.
Category: Mathematical Physics

[454] viXra:1704.0064 [pdf] replaced on 2017-06-09 07:25:29

Draft on a Problem in Euler and Navier-Stokes Equations

Authors: Valdir Monteiro dos Santos Godoi
Comments: 7 Pages. My next paper will be "On a Problem in Euler and Navier-Stokes Equations", complementing this one.

A brief draft respect to a problem found in the equations of Euler and Navier-Stokes, whose adequate treatment solves a centennial problem about the solution of these equations and a most correct modeling of fluid movement.
Category: Mathematical Physics

[453] viXra:1704.0064 [pdf] replaced on 2017-06-03 13:32:33

Draft on a Problem in Euler and Navier-Stokes Equations

Authors: Valdir Monteiro dos Santos Godoi
Comments: 7 Pages.

A brief draft respect to a problem found in the equations of Euler and Navier-Stokes, whose adequate treatment solves a centennial problem about the solution of these equations and a most correct modeling of fluid movement.
Category: Mathematical Physics

[452] viXra:1704.0064 [pdf] replaced on 2017-04-29 20:24:09

Draft on a Problem in Euler and Navier-Stokes Equations

Authors: Valdir Monteiro dos Santos Godoi
Comments: page 6, change parabolic type by elliptic type. Sorry.

A brief draft respect to a problem found in the equations of Euler and Navier-Stokes, whose adequate treatment solves a centennial problem about the solution of these equations and a most correct modeling of fluid movement.
Category: Mathematical Physics

[451] viXra:1704.0064 [pdf] replaced on 2017-04-12 13:08:28

Draft on a Problem in Euler and Navier-Stokes Equations

Authors: Valdir Monteiro dos Santos Godoi
Comments: 6 Pages.

A brief draft respect to a problem found in the equations of Euler and Navier-Stokes, whose adequate treatment solves a centennial problem about the solution of these equations and a most correct modeling of fluid movement.
Category: Mathematical Physics

[450] viXra:1704.0064 [pdf] replaced on 2017-04-09 10:06:32

Draft on a Problem in Euler and Navier-Stokes Equations

Authors: Valdir Monteiro dos Santos Godoi
Comments: 6 Pages.

A brief draft respect to a problem found in the equations of Euler and Navier-Stokes, whose adequate treatment solves a centennial problem about the solution of these equations and a most correct modeling of fluid movement.
Category: Mathematical Physics

[449] viXra:1703.0282 [pdf] replaced on 2017-06-05 11:58:12

Selfinteraction of Adiabatic Systems

Authors: Hans Detlef Hüttenbach
Comments: 11 Pages.

Given an adiabatic system of particles as defined in [4], the problem is whether and to what degree one can break it into its constituents and describe their mutual interaction.
Category: Mathematical Physics

[448] viXra:1703.0282 [pdf] replaced on 2017-05-19 15:20:23

Selfinteraction of Adiabatic Systems

Authors: Hans Detlef Hüttenbach
Comments: 11 Pages.

Given an adiabatic system of particles as defined in [4], the problem is whether and to what degree one can break it into its constituents and describe their mutual interaction.
Category: Mathematical Physics

[447] viXra:1703.0282 [pdf] replaced on 2017-04-16 12:35:39

Selfinteraction of Adiabatic Systems

Authors: Hans Detlef Hüttenbach
Comments: 10 Pages.

Given an adiabatic system of particles as defined in [4], the problem is whether and to what degree one can break it into its constituents and describe their mutual interaction.
Category: Mathematical Physics

[446] viXra:1703.0282 [pdf] replaced on 2017-04-04 11:14:46

Selfinteraction of Adiabatic Systems

Authors: Hans Detlef Hüttenbach
Comments: 10 Pages.

Given an adiabatic system of particles as defined in [4], the problem is whether and to what degree one can break it into its constituents and describe their mutual interaction.
Category: Mathematical Physics

[445] viXra:1703.0282 [pdf] replaced on 2017-04-01 02:37:45

Selfinteraction of Adiabatic Systems

Authors: Hans Detlef Hüttenbach
Comments: 10 Pages.

Given an adiabatic system of particles as defined in [4], the problem is whether and to what degree one can break it into its constituents and describe their mutual interaction.
Category: Mathematical Physics

[444] viXra:1702.0244 [pdf] replaced on 2017-02-26 21:01:18

Solving Coupled Riccati ODEs as Solution of Incompressible Non-Stationary 3D Navier-Stokes Equations

Authors: Victor Christianto
Comments: 4 Pages. This paper has been submitted to Prespacetime Journal

In a recent paper, Ershkov derived a system of two coupled Riccati ODEs as solution of non-stationary 3D Navier-Stokes equations. Now in this paper, we will solve these coupled Riccati ODEs using Maxima computer algebra package. The result seems to deserve further investigation in particular for finding non-stationary 3D Navier-Stokes equations for real fluid.
Category: Mathematical Physics

[443] viXra:1702.0098 [pdf] replaced on 2017-02-10 03:21:43

The First Task of PHPR: From String Theory to Topological Strings in Metaspace

Authors: Miguel A. Sanchez-Rey
Comments: 3 Pages.

From string theory to topstringy.
Category: Mathematical Physics

[442] viXra:1701.0523 [pdf] replaced on 2017-04-26 09:09:52

Draft Introduction to Abstract Kinematics

Authors: Grushka Ya.I.
Comments: 208 Pages. Mathematics Subject Classification: 03E75; 70A05; 83A05; 47B99. DOI: 10.13140/RG.2.2.24968.62720

This work lays the foundations of the theory of kinematic changeable sets ("abstract kinematics"). Theory of kinematic changeable sets is based on the theory of changeable sets. From an intuitive point of view, changeable sets are sets of objects which, unlike elements of ordinary (static) sets, may be in the process of continuous transformations, and which may change properties depending on the point of view on them (that is depending on the reference frame). From the philosophical and imaginative point of view the changeable sets may look like as "worlds" in which evolution obeys arbitrary laws. Kinematic changeable sets are the mathematical objects, consisting of changeable sets, equipped by different geometrical or topological structures (namely metric, topological, linear, Banach, Hilbert and other spaces). In author opinion, theories of changeable and kinematic changeable sets (in the process of their development and improvement), may become some tools of solving the sixth Hilbert problem at least for physics of macrocosm. Investigations in this direction may be interesting for astrophysics, because there exists the hypothesis, that in the large scale of Universe, physical laws (in particular, the laws of kinematics) may be different from the laws, acting in the neighborhood of our solar System. Also these investigations may be applied for the construction of mathematical foundations of tachyon kinematics. We believe, that theories of changeable and kinematic changeable sets may be interesting not only for theoretical physics but also for other fields of science as some, new, mathematical apparatus for description of evolution of complex systems.
Category: Mathematical Physics

[441] viXra:1701.0309 [pdf] replaced on 2017-02-04 13:13:24

Inversions And Invariants Of Space And Time

Authors: Hans Detlef Hüttenbach
Comments: 5 Pages.

This paper is on the mathematical structure of space, time, and gravity. It is shown that electrodynamics is neither charge inversion invariant, nor is it time inversion invariant.
Category: Mathematical Physics

[440] viXra:1701.0309 [pdf] replaced on 2017-01-22 10:51:37

Inversions And Invariants Of Space And Time

Authors: Hans Detlef Hüttenbach
Comments: 5 Pages. added comment on mass gap + corrected function=>functional.

This paper is on the mathematical structure of space, time, and gravity. It is shown that electrodynamics is neither charge inversion invariant, nor is it time inversion invariant.
Category: Mathematical Physics

[439] viXra:1701.0309 [pdf] replaced on 2017-01-08 17:30:17

Inversions And Invariants Of Space And Time

Authors: Hans Detlef Hüttenbach
Comments: 5 Pages. added comment on mass gap.

This paper is on the mathematical structure of space, time, and gravity. It is shown that electrodynamics is neither charge inversion invariant, nor is it time inversion invariant.
Category: Mathematical Physics

[438] viXra:1701.0299 [pdf] replaced on 2017-01-15 11:21:14

A Child's Guide to Spinors

Authors: William O. Straub
Comments: 13 Pages. Finalized, with typos fixed in Equations (6.2.2) and (6.3.2)

A very elementary overview of the spinor concept, intended as a guide for undergraduates.
Category: Mathematical Physics

[437] viXra:1701.0299 [pdf] replaced on 2017-01-11 00:10:53

A Child's Guide to Spinors

Authors: William O. Straub
Comments: 13 Pages. Expanded and slightly revised in v2

A very elementary overview of the spinor concept, intended as a guide for undergraduates.
Category: Mathematical Physics