Whether Einsteins Field equations are solved? or verified?
2007-04-05 03:51:55 · 5 answers · asked by Smss 1 in Science & Mathematics ➔ Physics
E=Faith^2
2007-04-05 04:05:01 · answer #1 · answered by culverhouserobert 2 · 0⤊ 0⤋
The equations given so far are descriptive of what it does but not what it is. Try and plug the present equations in for only a single mass and see what you come up with - nothing.
Newton described the force of gravity between earth and its moon - which is no small thing. But he assumed that all mass generates the force of gravity. This is not true notice that the force of gravity requires an energy source in order for it to exist. Stephen Hawking in “A Brief History of Time,” page 92, paragraph 3, states; “Like light, gravitational waves carry energy away from the objects that emit them.” In that the force of gravity performs work, it must have an energy source. This means there is a depletion of energy from the object emitting these waves. Our sun expends 665 lbs. sec in form of gravitational waves in order to keep the planets in place, and our planet expends 0.00444 kg. sec.
The physics trilogy describes the basis of our existence. This trilogy is: E = mc2, m = E/c2, and c2 = E/m. The last equation is that for a field of physical time or that of a field of gravity. Notice that it is a particular form of energy that comes into existence by reason of a mass/energy relationship.
Were our planet to have its heat energy removed, then our planet would have no gravitational field. Were the heat energy within our planet to increase, then the gravitational field of earth would increase.
So, then, what is the gravity equation for a single mass. It is F = m Q^2. The force of gravity is equal to that of mass times the heat energy within squared. The explanation of this is able to be found at http://360.yahoo.com/noddarc "An Experiment You Are Able to Help With" (by means of asking an influential person to have it performed). It is short and easy to read.
2007-04-05 05:16:03 · answer #2 · answered by Anonymous · 0⤊ 0⤋
The force of gravity between two objects is governed by the equation
G*(m1 * m2/R^2)
where G is the gravitational constant
m1 is the mass of the first object
m2 is the mass of the second object
r is the distance between their center of mass.
2007-04-05 04:25:45 · answer #3 · answered by beatdawookie 2 · 0⤊ 0⤋
Gravitational force between two bodies =
G x m1 x m2
-----------------
r^2
Where G is universal gravitational constant which is equal to 6.6 x 10^-11 Nm^2/kg^2
m1 and m2 are the masses of two bodies
r is distance between them.
Caution: When measuring distance of spherical bodies, the distance between the centres of the spheres should be taken.
Gravitational force is one of the weakest forces in nature.
I hope the above information will be useful to you.
2007-04-05 04:34:27 · answer #4 · answered by Vani Tripathi 1 · 0⤊ 0⤋
To the best I can decode your awkward phrasing and non-scientific reference, verified by many tests.
2007-04-05 04:06:41 · answer #5 · answered by Mike1942f 7 · 0⤊ 0⤋