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ask


Registered: Feb 2008
Posts: 2

Hypothesis about a new particle

Imagine electron is as big as moon, we smash it into 10^100 little pieces, smash 1000 electrons. Then we put them in a 10^8 moon sized perfect container (out space, vacuum, nothing can come in or out, the wall will not absorb the little pieces or electron or anything).

Now image we put an electron into the container, shall we see an empty ball around the electron? (Out side the ball are the little charged pieces)

If we knock the electron, shall we see a wave travel in the container? What's the speed?

If we move the electron, shall we see turbulence or vortex? Is that vortex has something to do with magnetic field?

If we put another proton into the container, shall we see it attracts some little pieces and form a dense ball around it? Shall we see a dense ball marry the empty ball and form H atom?


Electron filmed first time. http://www.msnbc.msn.com/id/23336318/


?tron hypothesis

Maybe there is a charged tiny tiny thing exist and fill up the space (like ether). it is too small so we can not detect its mass/charge yet or it has no mass but only charge. Suppose it really exist and carry negative charge and its strength is like e/10^100 (let's call it ?tron).

Then, we can image ?trons attracted by proton/nucleus and form a dense ball around it. Same way ?trons repelled by electron and form an empty ball around it. Because the nucleus attracts electron, the two balls (one dense and one empty ?tron ball) will attract each other and form atom.

In a light atom model, like H, we see two ?tron balls, one is the proton with dense ?trons around it, the other one is empty/loosed ?trons around electron. (kind of like an Earth sized beach ball float on Earth sized ocean. The ocean is the nuclear ball and the beach ball is the electron ball)

The H atom act as an dipole, has to marry another H to form H2 to be stable.

For a heavier atom like carbon, we see a denser nucleus ball with 6 empty electron balls around it.

In a very heavy atom, we see very dense nucleus ball with more layers of electron balls around it.

All the charges in all matters, act each other by electro force. Without ?trons fill up the space, there would be no EM waves.

A magnet's structure is like many layers of atoms partially polarized, one direction is nuclear concentrated and the other direction is electron concentrated.

The electron concentrated plane (south pole) repels near by ?trons and form an empty ?tron layer in space. This empty layer will induce ?trons in the near by space to form a dense ?tron layer and so on so on. The dense/loose ?tron layers will attract each other to form magnetic field. The force strength is defined by the density of the ?tron in the field (1/R^3).

The nucleus concentrated plane (north pole) attracts ?tron and form a dense ?tron layer, it induce near by ?trons to form an empty layer, the two layers attract each other and keep forming magnetic field.

Somehow, between matter/mass and matter, even the + - electrical charges are equal, it's net force is a weak attraction. The strength is defined by total charge (proportional to total mass) / R^2.

This is my best guess/explanation for gravity, magnetism and atom model.

Sorry about my poor English, be highly appreciate any comment/teaching/feedback.

Last edited by ask on 02-28-2008 at 10:34 PM

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