total mass and distance between
a=(G*tm)/d^2
a=total acceleration
G= newtons gravitational constant
tm= total mass kg
d= distance between in metres
(1) The masses involved, (2) the distance between the masses.
Speed or acceleration have no effect on gravity.
Air has no effect on gravity. But the presence of air can change the response of an object to the force of gravity alone.
The variables of gravity are mass and radius- the distance from the center masses of the two masses considered for attraction.
Gravity really is one of the four main forces of the Universe. gravity is an effect and not the cause of anything, no gravitation's, no gravity waves, none of it. gravity is a dynamic effect. the acceleration of the underlying for of energy focused to the center of a mass. there is no separate force called gravity, just a dynamic effect we call 'gravity'
(1) The masses involved, (2) the distance between the masses.
The gravitational force between two objects is directly proportional to the product of their masses and inversely proportional to the square of the distance between their centers.
Speed, Size and strength
'Known' Variables
Speed or acceleration have no effect on gravity.
Every speck of mass in the universe has 'gravity power'. The strength of the sun's gravity and the strength of the gravity of the lint in your shirt pocket can be calculated with exactly the same simple formula.
Mass, and volume? sorry i dont really knwo but i gave it a shot!
Acceleration does not effect gravity. It is rather the other way round. Gravity can affect the rate of acceleration.
Air has no effect on gravity. But the presence of air can change the response of an object to the force of gravity alone.
No mass is not affected by gravity, weight is.
It doesn't. Mass and distance affects the force of gravity.
It is really the other way round - gravity has an effect on weight. The more gravity, the more weight.