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New Theories / Why some antigravity experiments fail
« on: 02/03/2014 17:09:30 »
Why so many anti-gravity experiments fail. Let’s look at eugeny podkltnov’s experiment. He took a liquid nitrogen cooled superconductor, put it above a magnetic field, and spun it. This should have blocked planetary gravitation, and allow the test weight to be partially suspended. He claims the experiment worked, NASA tryied the experiment and said it failed. For an experiment to work for one and not the other there must be some difference, if eugeny performed the experiment in a darkened room it would probably have worked. NASA probably performed the experiment in a well lit room, and this is probably the difference why it worked for one and not the other.
The photon is the force carrier for the graviton, by having this experiment well lit you add photons to the material and gravitons at the same time, this defeats the purpose of the experiment. For the experiment to succeed, the best bet would be to have a darkened room, with a suspended test weight. It would be best if it was electrically heated, to red-hot so it could radiate photons away from it. When it’s hot and radiating photons the electricity would need to be stopped so that it would prevent electrical photons of gravitons from coming in This should create a reduced gravity affect.
The photon is the force carrier for the graviton, by having this experiment well lit you add photons to the material and gravitons at the same time, this defeats the purpose of the experiment. For the experiment to succeed, the best bet would be to have a darkened room, with a suspended test weight. It would be best if it was electrically heated, to red-hot so it could radiate photons away from it. When it’s hot and radiating photons the electricity would need to be stopped so that it would prevent electrical photons of gravitons from coming in This should create a reduced gravity affect.