| Mr Nobody,
(remember observing which slit it goes through destroys the wave interference pattern)
How did you observe which slit it was going through?
I think the aether is made up of electrons grouped into groups of four to form a specific shape. I think that shape can be represented by warping the energy of the ether into four particles, or balls of equal size placed in the shape of a diamond touching each other, called a virtual particle. Every ball is spinning at the speed of light with opposite balls spinning in opposite directions. Two balls opposite each other must orbit each other at the speed of light on a reference axis running through the center of the other two balls. Every reference axis, of every virtual particle is in a 90-degree reference to all other reference axes in the ether except where it is warped by gravity and magnetic fields. Every pair of virtual quarks is orbiting around a reference axis in the opposite direction to the pair of virtual quarks in the virtual particles next to it. This allows all virtual particles to interlock like gears. But unlike gears that spin on one axis, the quarks of the virtual particle are pumping around each other on two axes, and interlocking like gears in a three dimensional matrix.
As a single electron enters this matrix it will seek out three other free electrons or virtual quarks to build another virtual particle of aether. Nature abhors singularities. build it will find them but in the mean time its momentum absorbs ito the aether and it disappears.
But since the electron traveling through the aether is the same particles the perfect fluid of the aether is made up of, Its path will follow the patterns of fluid dynamics.
If we could remove all warping and outside influences on the interlocking particles that make up the fluid of the aether and the matrix became virtually rigid the electron would follow the same path every time and only one speck would appear on the screen. Unfortunately I don't think there is any where in our universe where the are no electromagnetic waves or gravitational fields.
Brian  |