1). the product of both their masses
2). the distance between the centers of both objects
Distance and mass
The strength of the force of Gravity depends on the mass of the object exerting the gravitational force and the distance between the two objects. Gravity is the inverse of the square of the distance between the two objects, times the two masses. F = (G * m1 * m2)/(r squared) G is the universal gravitational constant G = 6.6726 x 10 -11 N-m 2 /kg 2
Newton's law of gravitation,which is a veryy accurate working model in most situation says that gravitational attraction between two bodies of mass M1 and M2,lying r distance apart is given by F=G*M1*M2/(r^2), where G is the universal gravitational constant however,the correct theory of gravity is currently Einstein's general relativity which explains gravitation as curvature in space and time and according to Einstein's field equation this curvature (or gravity) is determined by the mass and energy density of an object.
as long as sun doesn't changes its gravitational force
the second law of motion states the relationship between force, mass and acceleration. acceleration= force/mass
Force and mass. Isaac Newton's second law of motion tells us that force equals mass times acceleration.
The masses of the two objects and the distance between them.
The same factors that determine the force of gravity between ANY objects. (1) The masses involved, (2) the distance between the masses.
-- the masses of both objects -- the distance between their centers of mass
1). The product of their masses 2). The distance between their centers of mass
The force of gravity between any two objects depends on the mass of the first object and the distance of the second object.
The motion of the particles and the strength of attraction between the particles determine a material's state of matter.
The mass of the objects and the distance between them.
The mass of the two bodies and the distance between them are determining factors of their gravitational attraction.
The two factors are the amount of mass an object has and the distance between the two objects.
-- the massses of the two masses that are being pulled together by gravity -- the distance between them
The mass of each of the objects, and the distance between them.
The strength of the gravitational forces between two masses depend on . . .-- The product of the masses of the two masses, and-- The distance between their centers of mass.