Electromagnetism: a new perspective Einstein would have like.

Einstein was often quoted as saying “If a new theory was not based on a physical image simple enough for a child to understand, it was probably worthless.” For example in his General Theory of Relativity he derived the causality of gravity in terms of a curvature in the geometry of space and time. One … Read more

Should we allow imagination to define physics?

Should we let imagination define our reality?  If so how much should we allow science to dependent on it? Most if not all explanatory models of reality rely to some extent on ones imagination because they use unobservable quantities to support them. For example Einstein used the concept of a space-time dimension to define gravity.  … Read more

Quantum mechanics as an emergent property of space-time.

Is the quantization of energy/mass a fundamental or an emergent characteristic of reality. Quantum mechanics assumes that it is fundamental because it defines all interactions within it in terms of its quantized properties while one could say that Einstein’s General Theory of Relativity defines it in terms of an emergent property of continuous space-time manifold … Read more

The conservation of space-time.

In physics, the conservation laws state the measurable property of an isolated physical system does not change as the system evolves over time. They include the laws of conservation of energy, linear momentum, angular momentum, and electric charge. However these laws suggest the existence of another more fundamental one that physically defines their causality. For … Read more

Did Einstein predict Quantum Entanglement in 1905?

Quantum entanglement is defined “as a physical phenomenon that occurs when pairs or groups of particles are generated or interact in ways such that the quantum state of each particle cannot be described independently instead, a quantum state may be given for the system as a whole”. Einstein referred to this as “spooky action at … Read more