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URU, if you were asking about black holes why didn't you mention them in the original post?
"The amount of energy (or vibration) in a system isn't given by its density"Isnt density why we use uranium for energy?
It's a bit hard to define the density of a single atom; it hasn't got a properly defined radius so you can't calculate the volume for it.
I understand the problems in defining the density of an atom, yet hypothetically the density should be able to determined by the quantity of particles in a given space.I imagine such an experiment would have to be on paper, or maybe a computer model, but it would have to determine if fusion can take place at low temperature at high pressure.If I knew the formulas, I would do the math my self.
Quote from: Geezer on 13/05/2010 07:41:30Quote from: UndergroundRisingUnited on 13/05/2010 01:45:00atoms are energyHow true. As Woody Allen put it, "It's like anything else."play with this one in your mind;1+1=1
Quote from: UndergroundRisingUnited on 13/05/2010 01:45:00atoms are energyHow true. As Woody Allen put it, "It's like anything else."
atoms are energy
I think this states the question better....
Dark matter accounts for the universal weakness of gravity, because gravity alone is not strong enough to hold everything together, we use the variable of extra gravity from dark matter to make standard physics work. I wonder, if the vibration of the atoms can account for gravities weakness and help explain why matter coalesces.Is what makes this awesome gravity called a black hole a form of mass with particles so tightly condensed they almost stop vibrating from super gravity it forms super gravity?Super dense matter with minimal kinetic energy, formed when gravity overcomes high temp. fusion and begins low temp. fusion with shear mass compression as the engine?
Boolean Algebra 1+1=1 equivalant to 1 or 1 results 1Gate to Electronics.Quote from: UndergroundRisingUnited on 13/05/2010 19:35:51Quote from: Geezer on 13/05/2010 07:41:30Quote from: UndergroundRisingUnited on 13/05/2010 01:45:00atoms are energyHow true. As Woody Allen put it, "It's like anything else."play with this one in your mind;1+1=1
Quote from: UndergroundRisingUnited on 19/05/2010 12:19:54I think this states the question better....Indeed it does. Thank you for clarifying.QuoteDark matter accounts for the universal weakness of gravity, because gravity alone is not strong enough to hold everything together, we use the variable of extra gravity from dark matter to make standard physics work. I wonder, if the vibration of the atoms can account for gravities weakness and help explain why matter coalesces.Is what makes this awesome gravity called a black hole a form of mass with particles so tightly condensed they almost stop vibrating from super gravity it forms super gravity?Super dense matter with minimal kinetic energy, formed when gravity overcomes high temp. fusion and begins low temp. fusion with shear mass compression as the engine? I'm not sure I follow this. Are you proposing that the usual theory of gravity needs to be modified so that gravity not only depends on the mass of an object, but also on how much it's vibrating? In other words, if I had something the mass of the sun that was hot, and something the mass of the sun that was cold, the cold sun would have more gravity than the hot sun due to the gravitational force depending on the vibration (heat) of the matter?
Taking a guess at a formula to describe this theory...probably need help to refine it....energy = matter, condensed squared right?e=mc2
e=mc2=DxVwhere D is atomic density and V is Vibration, and mc2 describes the atomic level; while DxV describes particles at the sub atomic level.
Quote from: UndergroundRisingUnited on 18/05/2010 22:20:59I understand the problems in defining the density of an atom, yet hypothetically the density should be able to determined by the quantity of particles in a given space.I imagine such an experiment would have to be on paper, or maybe a computer model, but it would have to determine if fusion can take place at low temperature at high pressure.If I knew the formulas, I would do the math my self.BC might contradict me on what I posted above about determining density of a single atom, since he knows his chemistry a lot better than I do. Let's say you could determine the density of a single atom. What would you use that number for? How does fusion come into it? And black holes? And what does this have to do with dark matter? I'm not trying to pick on you here, but I'm confused about how to answer your question and what you're asking about.
Quote from: UndergroundRisingUnited on 22/05/2010 03:33:54Instead of gravity made from dark matter, the vibration of the element is what repels and attracts at a subatomic level.gravity is there, but weaker than vibration!Yep by the theory says, dark matter has mass therefore it has gravity Are you quoting your statement?OrAre you agreeing with my intended change within my interpretation? Quote from: UndergroundRisingUnited on 22/05/2010 02:30:30yes, but there is also the factor of the big bangs residual effects which accounts for matter dispersal.(1/0)?where was the big bang?if 1/infinity is zero would it be safe to say 1/0 = infinity Where was the big bang you say? We all know thata definite answer to this question is not a requirement to be made a fool of.I always was, I always be! Na-Mr. Sodium! I will ammuse the rest of the populated real estate, only because this existing Form is the best yet forum I have seen since the Last Millenium! [ Invalid Attachment ] Maybe the Big Bang was within Tachyon Belt just behind the transparent viscous of the Cloud NebulaII's membrain of the Dark Matter, estimating of a coarse path, in a close proximity of the biforkated Parallel Multiverse. [8] [] Maybe someday the properties of dark matter will be called the probability of Dr. Seuss's "Whose Properties" []
Instead of gravity made from dark matter, the vibration of the element is what repels and attracts at a subatomic level.gravity is there, but weaker than vibration!
yes, but there is also the factor of the big bangs residual effects which accounts for matter dispersal.(1/0)?where was the big bang?