The magnetic charge concept is further developed to define the vibrational motion of a charged particle moving in the ether/dark matter. The angular momentum of the resulting motion is derived to be ħ/2 at all velocit...The magnetic charge concept is further developed to define the vibrational motion of a charged particle moving in the ether/dark matter. The angular momentum of the resulting motion is derived to be ħ/2 at all velocities. The vibrational motion also provides additional justification for the Coulomb and gravitational forces not having a singularity. Additional insights into antimatter composition and annihilation are also developed.展开更多
The concept of magnetic charge is further developed. The fundamental equations relating magnetic charge and magnetic fields are defined. A better photon model is developed. The ground state vibrations of particles are...The concept of magnetic charge is further developed. The fundamental equations relating magnetic charge and magnetic fields are defined. A better photon model is developed. The ground state vibrations of particles are investigated and indicate that longitudinal waves in the ether are responsible for gravity while vortex waves can explain the Coulomb interaction. Finally, Einstein’s equation for rest mass energy is derived using electromagnetic theory. A laboratory experiment is proposed to validate the theory.展开更多
The concept of magnetic charge is further developed to explain the electron/proton magnetic bonding that forms the neutron. The derivation leads to a minimum range for the Coulomb force of 2.35 fm that explains the la...The concept of magnetic charge is further developed to explain the electron/proton magnetic bonding that forms the neutron. The derivation leads to a minimum range for the Coulomb force of 2.35 fm that explains the lack of the Coulomb force in the nucleus. Further investigation into the nature of gravity leads to the possibility that dark matter is a byproduct of stars.展开更多
A simple assumption for dark matter leads to magnetic-monopole-like terms to Maxwell’s Equations, a photon model with wave-particle duality, nuclear stability, a decelerating expansion of the universe, and a dark-mat...A simple assumption for dark matter leads to magnetic-monopole-like terms to Maxwell’s Equations, a photon model with wave-particle duality, nuclear stability, a decelerating expansion of the universe, and a dark-matter relativity that defines the origin of space and time.展开更多
文摘The magnetic charge concept is further developed to define the vibrational motion of a charged particle moving in the ether/dark matter. The angular momentum of the resulting motion is derived to be ħ/2 at all velocities. The vibrational motion also provides additional justification for the Coulomb and gravitational forces not having a singularity. Additional insights into antimatter composition and annihilation are also developed.
文摘The concept of magnetic charge is further developed. The fundamental equations relating magnetic charge and magnetic fields are defined. A better photon model is developed. The ground state vibrations of particles are investigated and indicate that longitudinal waves in the ether are responsible for gravity while vortex waves can explain the Coulomb interaction. Finally, Einstein’s equation for rest mass energy is derived using electromagnetic theory. A laboratory experiment is proposed to validate the theory.
文摘The concept of magnetic charge is further developed to explain the electron/proton magnetic bonding that forms the neutron. The derivation leads to a minimum range for the Coulomb force of 2.35 fm that explains the lack of the Coulomb force in the nucleus. Further investigation into the nature of gravity leads to the possibility that dark matter is a byproduct of stars.
文摘A simple assumption for dark matter leads to magnetic-monopole-like terms to Maxwell’s Equations, a photon model with wave-particle duality, nuclear stability, a decelerating expansion of the universe, and a dark-matter relativity that defines the origin of space and time.
