Iain17
Aug 21st, 2000, 08:16 AM
Time to throw some new fuel on the fire.
I was talking to my brother last night, and he brought up some interesting new points. This has to do with the uncertainty principle, and parallel universes.
Did you know they have made a monitor that can project an image without firing any electrons! I certainly did not till last night. The way they do this is bloody clever, and bloody stupid at the same time. Obviously my first reaction was, "pull the other one, its got bells on", but he insisted that he was deadly serious. So obviously my first question was, How?
They do it using parallel universes. Electrons in the parallel universe cause an interference in ours. This interference is detectable somehow. I am not sure how up on parallel universes everyone is, so a little explanation may be in order. Parallel universes are considered to be the same universe as ours that went down a different path. Every choice that can be made produces two or more parallel universe with all the possible outcomes for this choice. So in another universe, i will not be typing this post.
Back to the monitor. Even though the monitor does not fire any electrons in out universe, it must have an electron gun. If it has an electron gun, then there are two or more things that can happen. The electron gun can fire, or it could not fire, or it could blow up, or it could decide to "tunnel" its way to Australia.
The way it works is that in this universe the Gun is not fired. Yet according to the way parallel universes work, the Gun has fired in another universe. Somehow, i have no idea how, we can detect the interference caused in our universe by the electrons firing in the other universe.
Now this principle could be used to find out the exact position of an electron in our universe. You all know about the uncertainty principle, well this negates it. We set up our electron detector, and we do not fire the guns. Yet in another universe the guns were fired. This means that we can detect the interference of the electron that we hit, and know the exact position of said electron in our world, because the electron in our world did not get hit.
I was talking to my brother last night, and he brought up some interesting new points. This has to do with the uncertainty principle, and parallel universes.
Did you know they have made a monitor that can project an image without firing any electrons! I certainly did not till last night. The way they do this is bloody clever, and bloody stupid at the same time. Obviously my first reaction was, "pull the other one, its got bells on", but he insisted that he was deadly serious. So obviously my first question was, How?
They do it using parallel universes. Electrons in the parallel universe cause an interference in ours. This interference is detectable somehow. I am not sure how up on parallel universes everyone is, so a little explanation may be in order. Parallel universes are considered to be the same universe as ours that went down a different path. Every choice that can be made produces two or more parallel universe with all the possible outcomes for this choice. So in another universe, i will not be typing this post.
Back to the monitor. Even though the monitor does not fire any electrons in out universe, it must have an electron gun. If it has an electron gun, then there are two or more things that can happen. The electron gun can fire, or it could not fire, or it could blow up, or it could decide to "tunnel" its way to Australia.
The way it works is that in this universe the Gun is not fired. Yet according to the way parallel universes work, the Gun has fired in another universe. Somehow, i have no idea how, we can detect the interference caused in our universe by the electrons firing in the other universe.
Now this principle could be used to find out the exact position of an electron in our universe. You all know about the uncertainty principle, well this negates it. We set up our electron detector, and we do not fire the guns. Yet in another universe the guns were fired. This means that we can detect the interference of the electron that we hit, and know the exact position of said electron in our world, because the electron in our world did not get hit.