Relativistic Mass of Gravitational Field

Abstract: It is discovered that the gravitational field on the surface of a neutron star is with a relativistic mass density of 2.65*1016~5.87*1018kgm-3 which can be larger than the mass density of the neutron star (~1017kgm-3). And, the total relativistic mass of the gravitational field of the Sun is ~107 times the mass of the Sun. For different stars, the relativistic mass of the gravitational field is larger as the mass density of the star is larger. In the Milky Way, the total relativistic mass of the gravitational … Show more

“…It is omitted in current theory of gravity while it should be very important to judge the dark energy. [24,25] Third, a galaxy is always moving. Then, how is this galaxy moving?…”

The Mass of the Center of the Milky Way Revalued from the Fastest Orbits around the Center and the Circular Velocity Curve of the Milky Way

“…It is omitted in current theory of gravity while it should be very important to judge the dark energy. [24,25] Third, a galaxy is always moving. Then, how is this galaxy moving?…”

The Mass of the Center of the Milky Way Revalued from the Fastest Orbits around the Center and the Circular Velocity Curve of the Milky Way

“…Second, the gravitational field is with a very tremendous energy and energy density. It is omitted in current theory of gravity while it should be very important to judge the dark energy [18,19]. Third, a galaxy is always moving.…”

The Mass of the Center of the Milky Way Revalued from the Fastest Orbits around the Center and the Circular Velocity Curve of the Milky Way

“…Strong gravitational field and new theory of gravity. [20][21][22][23] These conclusions were obtained from strong field: The gravitational field is much more fundamental for that the relativistic mass of the gravitational field of a neutron star is almost 10 21 times the mass of the neutron star. And, it is astonishing that the relativistic mass density of the gravitational field on the surface of a neutron star can be larger than the mass density of the neutron star.…”

“…On another hand, in recent, the strong gravitational field was studied. [20][21][22][23] It is found that there is not such a kind of vacuum in which the energy of the gravitational field is zero and the measurement cannot be affected by gravity. And, the fundamental physical constants, such as the speed of light with the electric constant and magnetic constant, measured on the surface of the Earth with weak field shall be greatly different from that measured in a super strong field.…”

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