Legend: Believers in superliminal causality face their worst nightmare, caught in the headlights of binary mechanics.
by James J Keene PhD
Journal of Binary Mechanics, 21st century physics with quantized space, time and energy
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Sunday, December 20, 2015
Bell Inequality Violation Myth Debunked
The myth that Bell inequality violation establishes superluminal causality is debunked. Entanglement experiments designed to demonstrate non-local effects apparently all rely on Bell's theorem also known as the Bell inequality. However, Bell himself stated, "There is a way to escape the inference of superluminal speeds and spooky action at a distance. But it involves absolute determinism in the universe..." (ref. 5 in [1]). Therefore, according to Bell, the exact time-development laws called bit operations [2] [3] [4] in binary mechanics (BM) [5] prevent particle entanglement experiments from demonstrating non-local "spooky action at a distance". This inescapable conclusion debunks the myth that the Bell inequality can be used in entanglement experiments to demonstrate superluminal effects and implies that quantum mechanics (QM) assumptions that system time-evolution is fundamentally probabilistic (not exact) are questionable. In short, use of the Bell inequality in entanglement experiments acts to establish that legacy QM formalism has been hopelessly flawed, no doubt including the unjustified assumption of continuous space-time.
Fig. 1: Unintended Result Surprises Investigators
Legend: Believers in superliminal causality face their worst nightmare, caught in the headlights of binary mechanics.
Legend: Believers in superliminal causality face their worst nightmare, caught in the headlights of binary mechanics.
Monday, December 14, 2015
Binary Mechanics Lab Simulator Update
The Binary Mechanics Lab Simulator (BMLS) software has been updated. Fig. 1 shows a screen shot of a "laser" experiment. Basic information has been presented previously [1], and might best be consulted first. In addition, further evidence is presented that light velocity c equals bit velocity v / π.
Fig. 1: BMLS Screen Shot