Very interesting experiments regarding gravitomagnetism might lead to a unified theory of quantum mechanics and general relativity. I’ll just link the papers and quote the abstracts, you can read a ‘real’ article at rapidnewswire.com:
Local Photon and Graviton Mass and its Consequences
We show that the presently accepted value of the cosmological constant and a correspondingly small graviton mass leads to considerable gravitomagnetic fields around rotating mass densities, which are not observed. The solution to the problem is found by a graviton mass which depends on the local mass density to ensure the principle of equivalence. This solution, derived from Einstein-Proca equations, has important consequences such as the correct prediction of the dark energy density in the universe solving the “cosmic coincidence” problem, a prediction of the Higgs mass in line with present estimates and a correction term for the Cooper-pair mass anomaly reported by Tate among many others. Perhaps the most interesting results are that the vacuum energy density is then proportional to the energy density of matter in our universe; and that coherent matter can be used to engineer the vacuum. Similar results were obtained for the photon mass which is then proportional to the charge density in matter. For the case of coherent matter the predicted effects have been experimentally observed by the authors.
Experimental Detection of the Gravitomagnetic London Moment
It is well known that a rotating superconductor produces a magnetic field proportional to its angular velocity. The authors conjectured earlier, that in addition to this so-called London moment, also a large gravitomagnetic field should appear to explain an apparent mass increase of Niobium Cooper-pairs. This phenomenon was indeed observed and induced acceleration fields outside the superconductor in the order of about 10^-4 g were found. The field appears to be directly proportional to the applied angular acceleration of the superconductor following our theoretical motivations. If confirmed, a gravitomagnetic field of measurable magnitude was produced for the first time in a laboratory environment. These results may open up a new experimental window on testing general relativity and its consequences using coherent matter.
Dear Sir,
I have solved the 7 Einstein cosmological blunders. Please see
http://www.gravitomagnetism.com
My kindest regards to you,
Joseph
Since the gravitomagnetic force component Fg is not radial, it exerts a moment of force on the two-body system. This moment of force is negative during half cycle A and positive during half cycle B. This moment of force induces a negative rate of change of momentum known as torque during half cycle A and positive one during half cycle B. Thus an alternating torque, hence an alternating rate of change of angular momentum of the two-body system. There is no conservation of angular momentum as stated by the Newton law. The positive moment of force is always greater than the negative one. This explains the mercury perihelion advance. For more details see gravitational waves radiation http://www.gravitomagnetism.com
By using relativity, gravity waves have quantitatively been determined during the solar eclipse. The gravity waves are induce at a supersonic speed (1000m/s), they induce gravitomotive force g.m.f. in gases and liquids, thereby creating masse currents which is converted into sound waves; they also induce electromotive force e.m.f. in electric conductors, plasma, ionosphere and metals thereby creating electric currents.
Since the quasi stationary orthodox gravity shield theories do not offer a global and coherent explanation concerning gravity perturbations, can there be a physical science work of more importance than obtaining an understanding of these perturbations and seeking interaction with the remote forces of gravity?
The facts are there, the facts remain the keystone in which the stability of a theory must be tested.
See http://www.gravitomagnetism.com
Joseph Nduriri, Paris, FRANCE