12. The electron
Electron-positron pair annihilation produces two gamma rays
of .51Mev. Where do those gamma rays come from ? From the electron.
The electron will now be presented as a curled up gamma ray(12.a).
Imagine this gamma ray curled up in two, with it's nodes on the
axis of motion(12.b). As such, it is two lumps of time speed, a
lower and a higher time speed lump in opposite positions with
respect to the axis of motion(12.c).First thing you notice is
that IT HAS to spin because a higher time speed always runs after
a lower time speed(12.d)(Actually it was presented earlier as the
definition of momentum). If you look at the position of the
magnetic vectors, you see that, by the rule of right hand, this
structure, along with the possibility of inverting the nodes
positions, can lead to four types of "electrons". Two positive
with counterspins, and two negative with counterspins(12.e).
To change the charge of the "electron", you either change the
spin direction or change the position of the nodes(12.f).
The De broglie wave has an electrical coupling between the front
and back end of the wave(12.g) like the EM wave(9.3). When the
electron is in movement, this coupling (+) goes from the back
end of it's momentum wave to the electron (-) in the front end(12.h);
this leaves one extra negative line sticking out at the back end(12.i)
which gives the electron an asymetry that is revealed, as we know, in
a perpendicular magnetic field were it causes the electron to turn
on one side(12.j). Actually it is this extra negative line that stears
the high time speed back end of the wave(12.k) and changes the
direction of the momentum. This would work also for particles with
a positive charge. This description is not final as electric and
magnetic fields even as true concepts, actually represent more
complex aspects of the speed of time(variation and changes of direction).
fig 12.1 one curled up gamma ray
fig 12.2 four different electrons
fig 12.3 electron in momentum wave