gravitational force is directly proportional to mass ie it increases with the increase in mass. it is indirectly proportional to distance ie it decreases with the increase in distance.
as distance increases gravity's force decreases as mass increases gravity's force increases
Mass and distance.
The more massive the mass, the larger the force of gravity The further the distance, the smaller the force of gravity, however gravity is infinite so no matter how far away from any size mass an object is it will always feel the force of gravity from that mass
mass and distance
Mass and distance.
as distance increases gravity's force decreases as mass increases gravity's force increases
Increase mass, increase gravity. Increase distance, decrease gravity (although you never reach zero). The formula for calculating force of gravity is: Fg=(G*m1*m2)/d^2 where Fg is force of gravity, G is the universal gravity constant, m1 and m2 are the masses of the two objects, and d is the distance between the two objects
mass and distance
Mass and distance.
Gravity.
The more massive the mass, the larger the force of gravity The further the distance, the smaller the force of gravity, however gravity is infinite so no matter how far away from any size mass an object is it will always feel the force of gravity from that mass
Bigger masses mean a bigger force of gravity. Bigger distances mean smaller forces. Mathematically, the force is directly proportional to the product of the masses, and inversely proportional to the square of the distance.
The greater the mass, the stronger the gravity, but the distance does not affect the amount of gravity.
Mass and distance alter gravity Mass is directly proportional to the gravitational force, but distance is inversely proportional. (In other words, greater mass means greater force, and greater distance means less force)
mass and distance
It doesn't. Mass and distance affects the force of gravity.
gravity