The relevance of classical mechanics to a quantum environment.

Presently there is disconnect between our understanding of the probabilistic world of quantum mechanics and the classical one of causality because it can predict with precision the future position of an object while the other cannot. However this may just be an illusion resulting from a lack of understanding of the quantum environment. One of … Read more

Finding the graviton

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

Quantum numbers: a classical interpretation

Quantum mechanics defines the spatial orientation of electrons in atoms only in terms of the probabilistic values associated with Schrödinger wave equation. In other words in a quantum system Schrödinger wave equation plays the role of Newtonian laws in that it predicts the future position or momentum of a electron in terms of a probability … Read more

The relative masses of a proton and electron

We have shown throughout this blog there would be many theoretical advantages to defining space in terms of a continuous non-quantized field of energy/mass and four *spatial* dimensions instead of four dimensional space-time. One is that it would allow one to understand why a proton and an election have different masses even though the absolute magnitude … Read more