One of the biggest problems in theoretical cosmology is understanding why we have been unable to observe the Graviton or the quantum of gravitational force. Some have attributed this to the fact that its interaction with matter is not strong enough to be detected by modern instrumentation. However the reason may be because gravity is … Read more
Both Einstein’s General and Special Theories of Relativity define macroscopic properties of energy/mass in terms of the continuous properties of four dimensional space-time while quantum mechanics defines its microscopic properties in terms of the discontinuous properties of three-dimensional space. However finding a way of conceptually integrating them has proven to be extremely difficult for two … Read more
Is it possible to define the physical “reality” of a Quantum field? We think so. Many including Albert Einstein and Erin Schrödinger, had difficulty accepting the “reality” of quantum mechanics because many of its concepts appear to contradict those of our observable universe. For example in a quantum system Schrödinger’s wave equation defines the field … Read more
Is our universe made up of particles or fields? On the one hand quantum physics tells that the universe is made up of discrete units of energy/mass while relativistic physics tells us it is composed of a continuous field of space-time Unfortunately these two ideas do not work well together because a continuous field by … Read more
We have shown throughout this blog and its companion book “The Reality of the Fourth *Spatial* Dimension” there would be many theoretical advantages to defining space in terms four *spatial* dimensions instead of four-dimensional space-time. One of them is that it would allow one to understand the classical origins of Heisenberg’s Uncertainty Principle by extrapolating … Read more