algorithmic subset rough equivalence

[hoola]

within the mathematical body of the IBH model, certain algorithms create particles and energies. The photon has (at least) two main descriptive subset categories, (all) of differing numerical combination orders, but granting the same rough principle of operation. The wave function and the particle function of the photon is an example of the "overdiscripton" of light that allows it to behave both as wave or particle, depending on which main subset dominates an observation. Is there a test that shows the particle and wave functions at the same time? Is the "unobserved" wave pattern actually showing both patterns with the wave result major and the particle result a minor influence on overall test display patterns?

Edited September 16, 2014 by hoola

[studiot]

 

Is there a test that shows the particle and wave functions at the same time?

 

No, but there are some that show exclusively one or the other such as the direction of refraction (wave).

 

http://www.physicsclassroom.com/class/refrn/Lesson-1/The-Direction-of-Bending

or the photoelectric effect (particle)

http://en.wikipedia.org/wiki/Photoelectric_effect

 

You should note that Schrodinger's equation is not strictly a wave equation at all, so quantum explanations need not suffer the demarcation.

Edited September 16, 2014 by studiot