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New Theories / Does this experiment tell us something about our brain and consciousness?
« on: 29/02/2020 13:35:32 »
This is an experiment I learned about in grade school back in the 1960's. I shall describe the experiment, then the extended version which I believe is direct evidence of how the mind and brain function to some degree. It should not be attempted if you have light sensitivity.
We placed a sheet of typing paper on our desk. Then we stared at a light bulb from several feet away for about thirty seconds so as to over charge a portion of the photon receptors in our eyes. Then we were instructed to look at the sheet of paper on our desk and in a few seconds or so we noticed that there was a dark or shady spot on the blank paper which was not there before.
Our instructor explained that the paper was reflecting photons same as before so the sheet of paper should appear all white without any spot. The reason why we saw the spot was because a portion of our photon receptors were over charged and that meant that these receptors could not absorb the photons reflecting from the paper as quickly as the other receptors and so we observed the deficit or spot. That ended the experiment.
The way that I prefer to run this experiment is from a totally dark room. Over charge your receptors, turn off the light and in a few seconds the spot will be visible not as a spot but as a light suspended out in front of you. Now we need to extend the time that the experiment runs. Sit quietly and observe the spot. It will eventually fade, maybe reappear so do not end the experiment just because the spot of light goes away the first time. Continue to observe and watch for any movement of the spot. It may begin to wobble. It may begin to circle, it may appear to be going down a drain or it may take off and move to the very edge of your vision field. This can be done with the spot on the paper but it is harder to observe.
The overcharged receptors in your eyes should not moving around or circling or taking off and migrating to the edge of the eye so what you are observing is not happening in your eyes but in your brain. The theory is that what you are observing is the energy from the over charge going down an energy drain or velocity gradient in the lowest portion of the brain's energy field.
The theory being that data or energy impulses run through the brain into super fluid drains and then via entanglement properties the cells in the primary visual center know to activate. The data runs into the drains where it is transformed into information via Fourier transform and then the information is distributed to the cells necessary for replication.
When you are watching that light go round and down you are seeing a replication of activity taking place in the super fluid drains. So if that is how the brain handles data with our eyes closed that is how the brain handles data when our eyes are open. It all goes into the drains first and then the brain above is activated to replicate in the physical.
We placed a sheet of typing paper on our desk. Then we stared at a light bulb from several feet away for about thirty seconds so as to over charge a portion of the photon receptors in our eyes. Then we were instructed to look at the sheet of paper on our desk and in a few seconds or so we noticed that there was a dark or shady spot on the blank paper which was not there before.
Our instructor explained that the paper was reflecting photons same as before so the sheet of paper should appear all white without any spot. The reason why we saw the spot was because a portion of our photon receptors were over charged and that meant that these receptors could not absorb the photons reflecting from the paper as quickly as the other receptors and so we observed the deficit or spot. That ended the experiment.
The way that I prefer to run this experiment is from a totally dark room. Over charge your receptors, turn off the light and in a few seconds the spot will be visible not as a spot but as a light suspended out in front of you. Now we need to extend the time that the experiment runs. Sit quietly and observe the spot. It will eventually fade, maybe reappear so do not end the experiment just because the spot of light goes away the first time. Continue to observe and watch for any movement of the spot. It may begin to wobble. It may begin to circle, it may appear to be going down a drain or it may take off and move to the very edge of your vision field. This can be done with the spot on the paper but it is harder to observe.
The overcharged receptors in your eyes should not moving around or circling or taking off and migrating to the edge of the eye so what you are observing is not happening in your eyes but in your brain. The theory is that what you are observing is the energy from the over charge going down an energy drain or velocity gradient in the lowest portion of the brain's energy field.
The theory being that data or energy impulses run through the brain into super fluid drains and then via entanglement properties the cells in the primary visual center know to activate. The data runs into the drains where it is transformed into information via Fourier transform and then the information is distributed to the cells necessary for replication.
When you are watching that light go round and down you are seeing a replication of activity taking place in the super fluid drains. So if that is how the brain handles data with our eyes closed that is how the brain handles data when our eyes are open. It all goes into the drains first and then the brain above is activated to replicate in the physical.