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

**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

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

**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

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

**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

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

**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

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

**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

[1] **viXra:1709.0029 [pdf]**
*replaced on 2018-12-16 04:22:28*

**Authors:** Spiros Konstantogiannis

**Comments:** 18 Pages. Published on the Journal for Foundations and Applications of Physics, vol. 6, No. 1 (2019), pp. 17-34

Among the one-dimensional, real and analytic polynomial potentials, the sextic anharmonic oscillator is the only one that can be quasi-exactly solved, if it is properly parametrized. In this work, we present a new method to quasi-exactly solve the sextic anharmonic oscillator and apply it to derive specific solutions. Our approach is based on the introduction of a quotient polynomial and can also be used to study the solvability of symmetrized (non-analytic) or complex PT-symmetric polynomial potentials, where it opens up new options.

**Category:** Mathematical Physics