gravitons
29 Nov '14 14:52Why arent there any gravitons? The answer is gravity is in another dimension and only weakly affects us.
29 Nov '14 17:41Originally posted by woadmanGravity is an incredibly weak force at everyday energy scales. The charge to mass ratio of an electron is 175 gigacoulombs per Kilogram. This means that it is incredibly difficult to detect in particle physics experiments, you'd need a beam energy approaching the Planck mass which is 2.435 × 10^18 GeV/c2. The maximum collision energy at LHC is 14,000 GeV, so there's a 13 orders of magnitude energy gap. When they switch it back on again they'll be hoping to see supersymmetric particles or some hints of Grand Unification, they won't be expecting to see gravitons.
What's so hard about finding a graviton? The Higgs boson was found...
29 Nov '14 18:07Originally posted by woadmanThe Higgs boson explains why particles have mass, not how the force of gravity works.
What's so hard about finding a graviton? The Higgs boson was found...
29 Nov '14 22:29Originally posted by woadmanJust a thought, but your second statement refers to brane worlds. The notion is that our universe is one of two boundaries of a higher dimensional space, the extra dimension is small. All matter and fields except for gravity are restricted to a single brane (i.e. universe). At very short distance scales the gravitational force is strong, but it has to travel through the brane so it goes as 1/r³ until it saturates the bulk, when it propagates with the normal 1/r² rule. Nice idea, but there is no empirical evidence for it other than gravity being weak. It's a hypothesis so don't confuse its status with strongly validated theories like the standard model of particle physics or General relativity.
Why arent there any gravitons? The answer is gravity is in another dimension and only weakly affects us.
01 Dec '14 01:54Originally posted by woadmanOne experiment going on now is to detect the effects (if any) of higher dimensions, where you test for the famous inverse square law of gravity. The idea is to test that concept at closer and closer distances. I think they are measuring the gravity force now down to about 100 microns, so far no deviation from inverse square but they are trying to get down to 1 micron, measuring if there are deviations that close. If so, they think it would be due to extra dimensions curled up so small we don't notice them in everyday circumstances but gravity might change at distances very close together. News at 11.
If branes are "floating" around super close to each other why doesn't their gravity pull them together? All those multi-verse ideas are garbage and unprovable.
01 Dec '14 05:10 02 Dec '14 13:49Originally posted by woadmanIf there were deviations from the inverse square law, that would be solid evidence of hidden curled up dimensions. What it proves? That the universe is more than we see for sure. It would be Nobel prize material for one thing.
what sort of deviations ? what would that prove..only that it is so small it doesnt matter. Like the many universes idea where every time you make a decision (a measurement), a new universe just P-O-P-S into existance ..uhh, ok where is it? Some say it is occupying the exact same space & time. Garbage idea....like TIME all being in existance at once (past, present,future).
04 Dec '14 20:25Originally posted by woadmanScience advances regardless of whether or not we find the graviton, if it exists. A tiny minority of scientists is working on quantum gravity. Heck, a tiny minority of scientists working in quantum physics work on quantum gravity.
So its gravity that is holding back the advancement of science ? It seems that many different theories are thwarted by not being able to (mathematically) include gravity. Once the graviton is found and understood, the theory of everything (big & small) will follow immediately.
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