Semjase Posted November 20, 2012 Posted November 20, 2012 Magnetic fields are responsible for gravity contrary to Einstein. All charged particles with spin have a magnetic field around them. If you analyze two magnetic fields closely at the same distance apart at all possible orientations to each other you will find a net attraction between the two, this is what is responsible for gravity not mass bending of space. An experiment to confirm this you take a horizontal beam of electrons and accelerate it to relativistic velocities in a straight line and when it leaves the accelerator you measure its deflection angle due to gravity. Since the spin magnetic field around the accelerated electron does not increase, the gravitational attraction due to magnetic field does not increase. With the increased mass of the accelerated electron the downward accelerating speed of the electron due gravity will be proportionally decreased. Under Einsteins relativity the increased mass would produce increased gravitational attraction and therefore there would be greater downward acceleration from gravity than from the magnetic field theory. Further supporting evidence can be found below http://www.enterprisemission.com/antigrav.html
John Cuthber Posted November 20, 2012 Posted November 20, 2012 "If you analyze two magnetic fields closely at the same distance apart at all possible orientations to each other you will find a net attraction" Nope, At best you find the magnetic equivalent to the dipole dipole interactions. However, since that falls much more quickly than 1/r^2, we know it isn't gravity. At very high energies the em force and gravitational force may be aspects of some other "unifying" force, but that's another matter.
swansont Posted November 20, 2012 Posted November 20, 2012 Magnetic fields are responsible for gravity contrary to Einstein. All charged particles with spin have a magnetic field around them. Why then is gravitational force proportional to mass and not spin?
Unity+ Posted November 20, 2012 Posted November 20, 2012 Why then is gravitational force proportional to mass and not spin? Maybe because particles spin proportional to their mass due to interaction between one mass and another?
swansont Posted November 20, 2012 Posted November 20, 2012 Maybe because particles spin proportional to their mass due to interaction between one mass and another? Do they? Protons, neutrons and electrons are all spin 1/2, but they don't have the same mass.
Unity+ Posted November 20, 2012 Posted November 20, 2012 (edited) Do they? Protons, neutrons and electrons are all spin 1/2, but they don't have the same mass. Yes, but it that could account for varience in gravitational fields, for a gravitational field is not always constant, with very, very slight variance. For example, the Earth's gravitational acceleration could be at first 9.810000000000000 then it is 9.810000000000000000000000000001. Tell me if I misunderstood your point. Edited November 20, 2012 by Unity+
swansont Posted November 20, 2012 Posted November 20, 2012 Yes, but it that could account for varience in gravitational fields, for a gravitational field is not always constant, with very, very slight variance. For example, the Earth's gravitational acceleration could be at first 9.810000000000000 then it is 9.810000000000000000000000000001. Tell me if I misunderstood your point. Two particles in same location (same g) feel a force proportional to their mass, not their spin. The force on a proton is 1800 times the force on an electron, because the mass is 1800 times greater. Not equal. We're not talking about a small variation here, we're talking about a huge difference that should exist, but doesn't. This conjecture is DOA in a number of ways; proposing it is an immediate blow to one's credibility. 2
Unity+ Posted November 20, 2012 Posted November 20, 2012 Two particles in same location (same g) feel a force proportional to their mass, not their spin. The force on a proton is 1800 times the force on an electron, because the mass is 1800 times greater. Not equal. We're not talking about a small variation here, we're talking about a huge difference that should exist, but doesn't. This conjecture is DOA in a number of ways; proposing it is an immediate blow to one's credibility. You make a great point here. +1 But yet we are to realize why this proportionality exists between the mass and the gravitational forces of the mass. There is still room for consideration. -1
swansont Posted November 20, 2012 Posted November 20, 2012 You make a great point here. +1 But yet we are to realize why this proportionality exists between the mass and the gravitational forces of the mass. There is still room for consideration. That's completely irrelevant to the claim that gravity depends on spin. It so obviously does not that it strains credulity to find that it was proposed. 1
Unity+ Posted November 20, 2012 Posted November 20, 2012 That's completely irrelevant to the claim that gravity depends on spin. It so obviously does not that it strains credulity to find that it was proposed. I just wanted to contribute to the debate. But I have to give you another +1 for that.
John Cuthber Posted November 20, 2012 Posted November 20, 2012 Meanwhile, back in reality. We know what the average interaction between dipoles looks like and it would have the same form for magnetic dipoles as it does for electric ones. http://en.wikipedia.org/wiki/Keesom_force#Dipole-dipole_interactions Now if you actually do the maths (like Keesom did) you find that the interaction falls as the 6th power of the distance between the items. but gravity falls as the 2nd power. So gravity isn't a dipole-dipole interaction.
Semjase Posted November 20, 2012 Author Posted November 20, 2012 Relativity was incorrect explain this. http://www.sciencedaily.com/releases/2006/03/060325232140.htm I'd like to further add this.
John Cuthber Posted November 20, 2012 Posted November 20, 2012 (edited) You don't seem to understand. There's no need to add anything here. You need to explain the stuff that we have already. Gravity obeys an inverse square law. Dipole dipole interactions don't So gravity isn't a dipole dipole interaction. So you were wrong to say "If you analyze two magnetic fields closely at the same distance apart at all possible orientations to each other you will find a net attraction between the two, this is what is responsible for gravity not mass bending of space." The web page from 2006 says " 'If confirmed, this would be a major breakthrough,' says Tajmar, " Has it been confirmed? If not it's not really science. The bloke in the video seems to have expensively and pointlessly repeated this observation. Modern buildings have structural steelwork that conducts. Edited November 20, 2012 by John Cuthber
timo Posted November 20, 2012 Posted November 20, 2012 Actually, given that the net force between two two dipoles averaged over all orientations is zero the proposal technically does quality as an inverse square law (if you interpret "two magnetic fields" as "two magnetic dipoles"). Characterizing a zero vectorial force as a "net attractive force" seems more debatable. I'd rather call it non-repulsive and colorless. And since gravity is also non-repulsive and colorless it is obvious that gravity must come from magnetism.
Semjase Posted November 20, 2012 Author Posted November 20, 2012 I think that Boyd Bushmans experiment should be repeated under controlled conditions then we may have a conclusive result that defies known physics.
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