[6] **viXra:1511.0287 [pdf]**
*submitted on 2015-11-29 18:02:29*

**Authors:** Fu Yuhua

**Comments:** 32 Pages.

Based on fractal landscapes of various waves, and fifteen kinds of waves caused by four fundamental interactions (forces), this paper discusses nuclear (force) waves (strong interaction wave and weak interaction wave) and related problems; such as: application of fractal method, properties of nuclear waves, certainty-uncertainty principles, conservation of parity and nonconservation of parity, a revision toGödel's incompleteness theorem, partial and temporary unified theory of four fundamental interactions so far, partial and temporary unified theory of nuclear (force) waves so far, and partial and temporary unified theory of natural science so far.
Key words: Nuclear force, strong interaction, weak interaction, nuclear (force) wave, strong interaction wave, weak interaction wave, fractal, certainty-uncertainty principles, conservation of parity and nonconservation of parity, Gödel's incompleteness theorem, partial and temporary unified theory so far

**Category:** Nuclear and Atomic Physics

[5] **viXra:1511.0276 [pdf]**
*submitted on 2015-11-29 01:59:59*

**Authors:** Seamus McCelt

**Comments:** 2 Pages.

Glue or stickiness is a large scale group process. Nothing like that could be happening at a quantum
level. Whatever is going on has to be happening between only one or two fundamental particles.

**Category:** Nuclear and Atomic Physics

[4] **viXra:1511.0181 [pdf]**
*submitted on 2015-11-19 20:22:09*

**Authors:** U. V. S. Seshavatharam1, B. Ramanuja Srinivas2, T. Rajavardhanarao3, P. Kalyanai4

**Comments:** 9 Pages.

Boldly it is possible to show that, 1) There exists a strong interaction elementary charge of magnitude, es~4.720586603E-19 C and squared ratio of electromagnetic and strong interaction charges is equal to the strong coupling constant. 2) Like quarks, the strong interaction elementary charge is experimentally undetectable and can be called as ‘invisible elementary nuclear charge’. 3) There exists a gravitational constant associated with strong interaction, Gs~3.329561213E28 m3/kg/sec2; 4) There exists a gravitational constant associated with electromagnetic interaction, Ge~2.374335685E37 m3/kg/sec2; Considering the proposed strong interaction elementary charge, magnetic moments of proton and neutron can be understood. Considering the proposed electromagnetic and strong gravitational constants currently believed quantum constants can be quantified and can be shown to be secondary physical constants. Based on these points, in this paper, an attempt is made to understand the mystery of origin of elementary particle rest masses, magnetic moments and quantum nature of electron in hydrogen atom. Proceeding further, the authors developed simple procedure for understanding stable atomic nuclides’ mass number and their corresponding nuclear binding energy.

**Category:** Nuclear and Atomic Physics

[3] **viXra:1511.0122 [pdf]**
*replaced on 2015-11-15 17:53:15*

**Authors:** Seamus McCelt

**Comments:** 2 Pages.

Electrons are actually particles but they (the strings they are made from)form a mesh-like cage around the nucleus. They are also held in place by string connections to the protons.

An electron is actually not moving... only the vibrations that are traveling around the strings are moving... and that's what everyone mistakenly thinks an electron is.

Check the larger noble gases: Argon 18, Krypton 36, Xenon 54, Radon 86, the amount of electrons in outermost shells will always sum to 18, the first three even have atomic numbers that are multiples of eighteen.

**Category:** Nuclear and Atomic Physics

[2] **viXra:1511.0117 [pdf]**
*submitted on 2015-11-14 10:43:20*

**Authors:** Seamus McCelt

**Comments:** 1 Page.

If you were holding a rope and I was holding the other end... we are connected.

If you have a rope and so do I and we exchange ropes... nothing is connected and we will fly apart.

**Category:** Nuclear and Atomic Physics

[1] **viXra:1511.0092 [pdf]**
*replaced on 2018-01-12 21:57:13*

**Authors:** Robert Kardien Vanderhoek

**Comments:** 6 Pages.

A Classical model based on computer analyzed linear accelerator data discovered about 10 years after the conception of the quark hypothesis, the known laws of electrodynamics and its positively charged compliment, along with Einstein's energy-mass equivalence formula, the physical shape of a spherical containment and the forward progression of time.

**Category:** Nuclear and Atomic Physics