The force of "strong force" increases with distance, unlike gravity and electromagnetism which do the opposite.
Force due to gravity is inversely related to the square of the distance.
as distance increases gravity's force decreases as mass increases gravity's force increases
No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.
Assuming you mean the force of gravity. As the distance increases, the force of gravity is reduced exponentially. Double the distance between two bodies, the gravitational force is reduced four times.
The force of "strong force" increases with distance, unlike gravity and electromagnetism which do the opposite.
There's no limit to the distance over which the force of gravity extends.
Of course it does.
Force due to gravity is inversely related to the square of the distance.
as distance increases gravity's force decreases as mass increases gravity's force increases
No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.
Gravity is one such force.
Assuming you mean the force of gravity. As the distance increases, the force of gravity is reduced exponentially. Double the distance between two bodies, the gravitational force is reduced four times.
The electric force, the magnetic force and gravity, all act at a distance.The electric force, the magnetic force and gravity, all act at a distance.The electric force, the magnetic force and gravity, all act at a distance.The electric force, the magnetic force and gravity, all act at a distance.
At greater distances, the force of gravity becomes less.
Force = G(m1m2)/r2As you see the force of gravity is inversely proportional to the distance between two objects. So, make the distance between the two objects measured for their gravitational force greater and the force of gravity will become weaker.
Force is inversely related to the square of the distance. Hence as the distance increases the force decreases.