A Classical Quantum environment

Many scientists assume that we must define the “realty” or non-reality of our classical world based on the concepts defined by quantum mechanics.  For example the Copenhagen interpretation tells us that a particle is spread out as a wave over the entire universe and only appears in a specific place when a conscience observer looks … Read more

Faraday’s fields in four *spatial* dimensions

The concept of a field was developed when physicists learned that they could simplify the calculations of the forces involved in planetary motion by assuming or imagining the existence of a continuous gravitational field. They defined this field in such a way that if another planet were put at any point in that field the … Read more

Is time eternal?

Is time an eternity or does it have a beginning and end? This question is very difficult to answer because current theories are only able to describe what happened after the beginning of our universe.  In other words how the universe came about and whether there is any meaning to a “before” or “after” is … Read more

The "reality" behind wave—particle duality

Is it possible to define the “reality” behind the quantum world in terms of the classical laws of physics. For example the paradoxical wave–particle behavior of energy/mass, one of the fundamental concepts defining Quantum mechanics defies the “reality” of a classical world because of its inability to describe/define how quantum-scale objects can simultaneously exist as … Read more

Linking gravitational and electrical forces

Richard Feynman on pages 24 and 25 of his book “The Character of Physical Laws” describes how both gravitational and electrical forces are linked in terms of a common relationship with respect to the inverse square law. “The inverse square law appears again in the electrical laws, for instance, electricity also exerts forces inversely as … Read more