Quantum Entaglement Entropy Produces Energy by Info- Entropy Fields Forces

Volume 2 - Issue 1

Robert Skopec*

Received: August 20, 2019;   Published: August 29, 2019

DOI: 10.32474/MAMS.2018.02.000126

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Abstract

Sometimes, if you want to understand how nature truly works, you need to break things down to the simplest levels imaginable. The macroscopic world is composed of particles that are - if you divide them until they can be divided no more - fundamental. They experience forces that are determined by the exchange of additional particles (or the curvature of spacetime, for gravity), and react to the presence of objects around them. At least, that’s how it seems. The closer two objects are, the greater the forces they exert on one another. If they’re too far away, the forces drop off to zero, just like your intuition tells you they should. This is called the principle of locality, and it holds true in almost every instance. But in quantum mechanics, it’s violated all the time. Locality may be nothing but a persistent illusion and seeing through that facade may be just what physics needs.

Keywords: Quantum Gravity; Principle of Non-Locality; Einstein’s General Theory of Relativity; Quantum Entanglement Entropy (QEE); Schrödinger’s Cat; Superposition; Information about its Entangled Partner; Teleport Information; Quantum Physics as Fundamentally a Non-Local Theory

Abstract| Introduction| Spacetime is Built from Quantum Entanglement| Karma and Quantum Mechanics| How Do I Get What I Want?| The Bigger the Challenge, the Bigger the Effort is Required| Nothing Takes The Place of Committed All-In Action Every Day| Schrödinger’s Cat| Quantum Entanglement Entropy Plays a Key Role| The Interface between Quantum Gravity and Information Science| Conclusion| References|