Jeff Yee

Jeff Yee
Vizaport

B.S. Mechanical Engineering, M.S. Management

About

21
Publications
66,760
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Introduction
Jeff Yee currently works at Vizaport
Skills and Expertise

Publications

Publications (21)
Preprint
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Neutrons play a crucial role in the decay of atoms, exerting direct influence over radioactive elements with wide-ranging implications in nuclear physics and practical applications like nuclear waste management and medical diagnostics. This study delves into the dynamics of free neutron decay, examining its variability in transitioning to protons a...
Preprint
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The electron’s orbital distance, ionization energy and shape can be modeled based on classical mechanics when the recently-discovered pentaquark structure is used as the model of the proton. This paper accurately models atomic orbital distances based on this five-quark structure of the proton, in which the orbiting electron is both attracted by an...
Preprint
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In the first part of this paper, we discuss the effect of a fundamental particle on the evolution of the universe and propose an alternative model for the origin of the universe. In the second part, we propose the electron neutrino as the fundamental particle and examine the effect of neutrino oscillation on solar neutrinos as they exit the solar s...
Preprint
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A particle's standing wave is modeled as a combination of two waves: incoming spherical waves that are reflected to produce outgoing spherical waves. The combination creates standing waves to the particle's radius, where such standing waves cease to form and then transition to traveling waves. This paper models wavelength distances that decrease fr...
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The geometry of the proton is unique relative to its same-charge counterpart known as the positron. The proton's structure and its forces on an electron are modeled in this paper, analyzing why the proton has the ability to create an atom necessary for molecules and life to form, when the positron of identical charge annihilates with an electron an...
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Using the conservation of energy principle, gravity and magnetism are related by the energy required for particle spin. Properties of the electron, including its magnetic moment, its gravitational coupling constant and the gravitational constant (G) are all derived in this paper from this principle.
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The speed at which sound travels is known to be related to the elasticity and density of the medium in which it propagates. The same principles of sound are applied to a universe with a substance, referred to as an aether, to describe the speed of light with the same equations that apply to sound.
Preprint
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Using the physics of sound waves as a foundation, subatomic particles and their behaviors are modeled with classical mechanics to calculate the Planck energy, the electron's energy and the energy levels of the first two atoms: hydrogen and helium. Five different methods are used to calculate energies, including spring-mass systems and wave systems,...
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Originally proposed in 1899 by Max Planck, the Planck unit system simplifies equations in physics, yet the meaning of each constant in the system is not well understood. The Planck mass is far heavier than an electron or proton while the Planck length is orders of magnitude smaller than these same particles. What do these units mean? When using wav...
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In this paper, a spacetime structure consisting of a body-centered cubic lattice is modeled classically as a spring-mass system, where the components of each unit cell in the lattice are based on the fundamental units discovered by Max Planck, and the common forces that govern the motion of particles in spacetime is defined and unified by geometric...
Preprint
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In this paper, subatomic particles are described by the formation of standing waves of energy as a result of energetic oscillations in the spacetime lattice. The creation of new particles with higher energies, or the decay of particles to lower energies, are described by the formation of wave center points that cause an increase or decrease in stan...
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In this paper, the fine structure constant is derived from a geometric ratio of surface areas, as a result of vibrations in a lattice with a body-centered cubic arrangement.
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In this paper, the mole and charge are related by deriving Avogadro's number from three constants: the Bohr radius, the Planck length and Euler's number.
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In this paper, the two distinct properties of particle mass and charge are related, unifying equations for classical mechanics and electromagnetism that use mass and charge as variables for the electron.
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In this paper, the electric nature of the universe is revealed by applying the language of electronics to the energy and forces acting upon subatomic particles.
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Ohm's law relates voltage, current and resistance in electrical systems as V=IR. Newton's 2nd law relates force, mass and acceleration as F=ma. Although electrical and mechanical systems are supported by different equations to describe these relationships today, it will be shown that the laws of Ohm and Newton are related and are built from the sam...
Conference Paper
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In this article, the most important equations in classical physics, including Einstein's energy-mass equivalence , Coulomb's law and Newton's laws, are compared to and validated against a set of force equations developed by independent researcher Robert Distinti. These results are further validated against Jeff Yee's equations from his wave model o...
Preprint
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The universe is vast, chaotic and it contains an incredible number of stars and planets-all of which are formed from atomic elements that can be further divided into subatomic particles. Although the universe appears to be a complex mix of particles, a simpler definition is possible when the components of the universe are split into fundamental par...
Preprint
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The relativistic nature of matter has never been well understood. Equations accurately model relativity without an explanation for why it occurs. At relativistic speeds (closer to the speed of light), an object’s mass increases significantly, but where does this energy come from? Time slows for objects at relativistic speeds, but how is time relate...
Preprint
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A new structure is proposed for the organization of subatomic particles, based on a format familiar to science, the Periodic Table of Elements. When particles are organized into a periodic structure, similarities are found between subatomic particles and atomic elements. This paper introduces the new Periodic Table of Particles, which includes part...
Article
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In this paper, we take the first steps of simplifying particles into a linear function that organizes particles based on their particle number, similar to how atoms are arranged by atomic number. This repeats the method that was used to organize atomic elements and create the Periodic Table of Elements in the 1800s. The solution to linearize partic...

Questions

Question (1)
Question
I'm looking for data from neutrino experiments with energy values for potentially new neutrinos (beyond the electron neutrino, muon neutrino and tau neutrino) to fit into a model. Potentially the search for sterile neutrinos. Unverified data is okay at this stage for the model. Can anyone recommend a good source?

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Cited By
    • International Academy of System Studies - IASS, Moscow http://www.maci.ru/ https://www.blogger.com/profile/03427189015718990157