Quantum Chromodynamics a subset of the Standard Model of Particle Physics gives a very accurate mathematical description of the strong force that hold quarks together in protons and neutrons in terms of a gauge theory with the symmetry group of SU(3). However it does not define how that force physically interacts with them to do … Read more
Quantum Chromodynamics, which is an integral part of the Standard Model of Particle Physics, defines how quarks interact with themselves and each other to form particles such as protons and neutrons. The word quantum stands for the fact that interactions (forces between particles) on this level can be represented as things that occur only in … Read more
Presently the Standard Model of Particle Physics links the quantum properties of the Gravitron with electromagnetism through mathematics However, for the past 50 years brightest minds in the scientist community have been unable to observe the Gravitron or the particle it assumes it responsible for the force of gravity. Some say this is because it … Read more
We have shown throughout the this blog and its companion book “The Reality of the Fourth *Spatial* Dimension” there would many theoretical advantages to defining the universe in terms of four *spatial* dimensions instead of four dimensional space time. One is that it would allow one to derive a physical link between gravity and the strong … Read more
We have shown throughout this blog there would be many theoretical advantages to defining the universe in terms of four *spatial* dimensions instead of four dimensional space-time. One of them is that it would allow for theoretically defining a common mechanism for gravity and the color charge of quarks by extrapolating observations made in a three-dimensional … Read more