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7/31/14

Particle Interactions on Quantum Level.

Particles spread in Space.

Can particles be modelled as 'pixels' in Stitie Space?

As not too far as i know it seems they are Objects in Space with Physical Properties, that determine what they are.

Example of such is a Photon, which has no mass, no electric charge, and is stable. in empty space, the photon moves at c (the speed of light) and its energy and momentum are related by E = pc, where p is the magnitude of the momentum vector p...

But perhaps it's oversimplification.

Still trying to explore related world of ideas enough.


Probabilistic Quantum Thinking.

As not too far as i know, in Physics on quantum level the outcomes of many physical processes are not precisely determined, and the best we can do is to predict the likehood or 'probability' of various possible events.

'Wave function' plays an important role in determining these probabilities: for example, it's strength, or intensity, at any point represents the probability that we would detect a particle at or near that point.


Particle Interactions.

There is a small probability, when two photons of sufficient energy interact, that they can undergo reverse annihilation and create an electron positron pair.

Electron–positron annihilation occurs when an electron (e−) and a positron (e+, the electron's antiparticle) collide. the result of the collision is the annihilation of the electron and positron, and the creation of gamma ray photons or, at higher energies, other particles...

Electrons & Positrons have mass (9.10938291 × 10-31 kilograms, either of them), a Photon is massless.


Energy & Mass.

'matter is form of energy'.

'matter is basically massive. the distinction separates it from the unmassive stuff that propagates at light speed'.

Mass can be converted to energy and vice versa, as in the famous E = m · c 2 equation by Albert Einstein.


Probabilistic Finite State Objects & Stitie Space.

Perhaps Physical System on Quantum Level can be modelled as Finite State Objects in Stitie Space, that when observed give probabilistic results, either Summaries with Probabilities, or a random Values from their Random Event Spaces.

Statistics then can be used.


See also: [28], [29], Stitie Machine 1.1 'Sunsail' for Stitie Space, Quantum Physics Energy Engine, Energy, Matter, Particle, Wave.

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