Abstract

 
 
 With a clever new interpretation of the Schrödinger equation, those quantum experiments that allegedly prove that the quantum world is weird, no longer do so. When we approach the math from an unexpected angle, experiments that appeared to prove that time can go backwards in the quantum world, no longer say that. Experiments that appeared to demonstrate that a particle can be in two places at the same time, no longer say that. This requires that we take a counter-intuitive approach to the math, rather than a counter-intuitive approach to the quantum world. QM makes sensible assumptions and discovers that the quantum world is weird. Our math from the Theory of Elementary Waves (TEW) makes weird assumptions and discovers that the quantum world is sensible. We pay the weirdness tax up front. QM does not pay the weirdness tax and is penalized with a permanent misperception of the quantum world. This article is paired with a lively YouTube video that explains the same thing in 18 minutes: “New Schrödinger wave mathematics changes experiments from saying there is, to denying there is quantum weirdness.” That video can be found at the website ElementaryWave.com.
 
 
Highlights
Many experiments appear to portray the quantum world as weird, that changes when we adopt a new approach to the mathematics of a Schrődinger wave packet
We will first present the new approach to the Schrődinger wave packet, apply that math to five quantum experiments to demonstrate that it works, and at the end of this article we will reveal how this solution was arrived at.[8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27, 37,38,39]
When we change to the Theory of Elementary Waves (TEW) mathematics we find that the quantum world is not weird
Summary
Many experiments appear to portray the quantum world as weird, that changes when we adopt a new approach to the mathematics of a Schrődinger wave packet. The defining feature of an elementary wave is that it carries an intrinsic trigger mechanism for a Schrődinger wave packet to emerge, moving in the opposite direction. Such a trigger is activated when the Æ encounters a particle with precisely the right characteristics. The wave packet ΨR carries zero energy, as we said earlier, but it carries amplitudes for momentum Variables such as ER, pR and kR exist only on the right side of Fig. 1. Note that the ingredients with which to build a Schrődinger wave equation only exist to the right of x0
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