0 Members and 1 Guest are viewing this topic.
Nothing can only increase Energy is attracted to nothing because nothing has no temperature
Quote from: Starlight on 29/03/2020 15:40:59Nothing can only increase Energy is attracted to nothing because nothing has no temperature Did you intend that to make some sort of sense?
An ''empty'' point of space has the maximum gravitational potential. ALL matter would be attracted to this
Matter is attracted to other matter, not to empty space.It doesn't help that something is simple, if it is also wrong.It might be better if you learned some stuff.
additionally which I have pointed out , there is spatial gravity
Quite clearly you need to go learn some stuff !
The natural nature
Quote from: Starlight on 29/03/2020 17:45:26additionally which I have pointed out , there is spatial gravity... which is an imaginary thing you made up.Quote from: Starlight on 29/03/2020 17:45:26Quite clearly you need to go learn some stuff ! OK, so the first thing you need to learn is how science works.
For a forum that supposed to represent a great university such as Cambridge
Quote from: Starlight on 29/03/2020 16:29:15The natural natureDoes natural nature come from the Department of Redundancy Department?This absolutely must be a troll account.
Of course it is. It is thebox posting crap as per usual.
E0=F(G)
Quote from: StarlightE0=F(G)TheBox can't think outside the box...
Quote from: Starlight on 29/03/2020 19:41:01For a forum that supposed to represent a great university such as CambridgeIt isn't.Now, what was that you were saying about poor knowledge?
Quote from: Kryptid on 29/03/2020 18:14:26Quote from: Starlight on 29/03/2020 16:29:15The natural natureDoes natural nature come from the Department of Redundancy Department?This absolutely must be a troll account.Of course it is. It is thebox posting crap as per usual.
Quote from: Starlight on 29/03/2020 16:29:15An ''empty'' point of space has the maximum gravitational potential. ALL matter would be attracted to thisMatter is attracted to other matter, not to empty space.It doesn't help that something is simple, if it is also wrong.It might be better if you learned some stuff.
Quote from: Bored chemist on 29/03/2020 17:36:21Quote from: Starlight on 29/03/2020 16:29:15An ''empty'' point of space has the maximum gravitational potential. ALL matter would be attracted to thisMatter is attracted to other matter, not to empty space.It doesn't help that something is simple, if it is also wrong.It might be better if you learned some stuff.A lump of mass, at maximum distance from another lump of mass has the highest gravitational potential per uint of mass. The gravitational potential lowers as matter get closer and closer. Force, like energy, goes from higher to lower potential. In the case of gravity, the center of gravity of the two lumps of mass, at maximum potential, could be located in empty space. Relative to space-time, since the separated masses are at highest potential, and each mass separately, curves space-time less than when the two masses has combined, this implies that the expansion of space-time is heading in the direction of higher gravitational potential. Expanded space-time, where time runs faster, is at higher potential than when time runs slow. The speed of light reference is at lowest potential since it implies time runs the slowest of all. Ironically, with special relativity, as we increase velocity toward C, time slows, which means we are lowering potential via space-time. This is became C is the ground state of the universe.If gravity is a force, since it acts like a force by creating pressure on matter, and the lowering of potential is hooked into the conservation of energy, what is the exothermic output of the gravitational force when the gravitational potential lowers energy? Is it dark energy? It is not going into the local space-time since slow time is at lower potential. When a force lowers potential, for example the EM force, it gives off energy to reflect the change of potential; energy conservation. The energy output quanta released can reverse the EM force elsewhere. Isn't this what dark energy does with respect to the gravity of the universe? One important thing that the exothermic output of the gravitational force and dark energy have in common is nobody has seen either one in the lab. Is this a coincidence or a correlation? Both will add up to the same affects. Galaxies rotate and do not collapse, even with central black holes, because star formation and other means to lower gravitational potential are exothermic. This release of energy from the lowering of the gravitational force reverse gravity elsewhere. The affects will be opposite of what is needed for a collapse. While the excess energy that leaves the galaxy and enters space expands the galaxies relative to each other. Dark energy is a double imaginary variable, since it cannot be measure in the lab and has no tangible source seen in the lab. The exothermic output of gravity is a single imaginary variable that does the same things but has a force source. This is an upgrade. I am sorry if it spoils the double imaginary math game engines.There are spirial galaxies in the universe with more turns that should be, based on the time available and existing theory. If we add the exothermic output of gravity, this is not a big deal. It would reflect a very rapid star condensation occurring very early in the universe. Dark energy needs too much faith in an imaginary thing that stems from an imaginary thing. I go tried of one of the imaginaries for you.
A lump of mass, at maximum distance from another lump of mass has the highest gravitational potential per uint of mass. The gravitational potential lowers as matter get closer and closer. Force, like energy, goes from higher to lower potential. In the case of gravity, the center of gravity of the two lumps of mass, at maximum potential, could be located in empty space.
My work is well liked elsewhere
My work is factual