8:20 Four years ago i posted something really important, about the possibility of using semiconductors to create an real electronic version of Maxwell's thought experiment.
The ideas were there but it was so badly written it is almost impossible to understand even by myself today. In the meantime, i was honing my writing skills, started to become more focused. I recon, i am covering lots and lots of things and is not always easy to get to the core.
There was a gif animation in there i can't find anymore where it came from. I will re-post it here and start with it.
Unlike in metals, electrons are not shared by all atoms to form a cloud of moving electrons. That is the reason metals are readily conductive while pure semiconductors have much more resistivity.
As seen in the animation, electrons jump from one atom to another under the influence of an external electric field, always in the same direction.
Here is another image taken from a site showing the moving of electrons in a metal conductor also under the influence of an external electric field (battery). Not animated but with little vectors attached to electrons.
The are saying the electrons are moving in all directions zig-zagging among atoms and the whole "cloud" drifting in the direction of the field. The drifting speed can be calculated and is in the order of m/s, and that of individual electrons can't be much faster, otherwise the conductor will heat because of it.
Finally, down to the issue. Let's say we put the piece of metal above to the left of the silicon one in the animation on top and apply the same electric field. The whole cloud of electrons in metal will start drifting to the right and once entered in the silicon matrix, will start to jump from atom to atom.
But some will flow backwards hitting an atom of metal right before the junction, increasing the density of those in the metal bar next to junction.
Also those which hit the silicon matrix too fast will get repelled, cause they can't penetrate deeper than one atom. Statistically the electrons extracted are selected to certain speeds and directions. The speed distribution in the cloud next to the junction will not be a normal one anymore and we will probably have a cooling effect.
9:28 Recently i wrote about the possibility the so called mass defect that counts for the energy "created" during a fission reaction to be actually coming from difference in relativistic speeds of electrons on some levels that get rearranged in different configuration (and speeds) after the reaction.
In about the same time i found out that the color yellow of gold, unique among metals is due to relativistic speeds of electrons on level 6. What we need to understand is, due to collisions, not all electrons have the same speed on a level, and some could temporarily get much closer to the speed of light.
This could also mean they have an enormous amount of energy. If we could harvest it, we would have much better sources than the current based on fission of naturally decaying elements. But first we'd have to get our theories straight and get rid of the ridiculous mass defect concept.
I would assume this is the reason the aliens steal our gold while keeping us in the dark with fake theories.
Thinking of the enormous amount of gold amassed by Romans from the mines of Dacia and elsewhere, which measured in hundreds of tones a year for hundreds of years and yet they went bankrupt.
I once wrote about the possibility of gold to be accelerated at speeds close to speed of light and beamed in space.
11:05 Ok m-am prins. Până azi am crezut că X vine de la Xenu. Dar nu mai (no more), azi încep să cred că vine de la XXX.