-- The size (strength, magnitude) of gravitational force can be anything more than zero.
-- The direction of gravitational force is always in both directions between the centers of
two masses, attracting them toward each other.
-- The distance of gravitational force can be anything more than zero. There is no limit,
and the force between two masses is never zero, no matter how far apart they are.
One disadvantage of gravitational force is that it becomes weaker as distance between objects increases, leading to a decrease in its effect over long distances. Additionally, gravitational force is always attractive and cannot be repulsive, which limits the range of interactions it can facilitate.
The weak nuclear force is stronger than the gravitational force, but it is weaker than the electromagnetic force and the strong nuclear force. The weak force is responsible for processes such as radioactive decay and plays a crucial role in determining the structure of matter at the subatomic level.
No, there is no mass there to have any gravitational force.
If the gravitational force is less than the buoyant force, the drag force will act in the opposite direction of the gravitational force.
no gravitational force is a non contact... a simple proof to that is that the Earth's centre is attracting you towards itself without you being in contact with it... also Sun is able to attract the planets from such a large distance....
One disadvantage of gravitational force is that it becomes weaker as distance between objects increases, leading to a decrease in its effect over long distances. Additionally, gravitational force is always attractive and cannot be repulsive, which limits the range of interactions it can facilitate.
Because there is no range limit on the gravitational force, the gravitational force of the earth is only zero in the exact centre of the earth, where it cancels itself out. Realistically, the force is so small outside the immediate vicinity of earth, that it may as well be zero.
The weak nuclear force is stronger than the gravitational force, but it is weaker than the electromagnetic force and the strong nuclear force. The weak force is responsible for processes such as radioactive decay and plays a crucial role in determining the structure of matter at the subatomic level.
No, there is no mass there to have any gravitational force.
If the gravitational force is less than the buoyant force, the drag force will act in the opposite direction of the gravitational force.
how is weight affected by gravitational force?
Gravitational force is the strongest when you are the closest to a mass.
= What is the gravitational force called gravity? =
Mars has a gravitational force of 3.7m/s2.
no gravitational force is a non contact... a simple proof to that is that the Earth's centre is attracting you towards itself without you being in contact with it... also Sun is able to attract the planets from such a large distance....
The gravitational force between two objects increases with their masses; the larger the masses, the stronger the force. Additionally, the gravitational force decreases with distance; the farther apart the objects are, the weaker the force between them.
Two main reasons. Firstly gravitation is the weakest of the four known forces by several orders of magnitude. Secondly it is dependant on the mass of the objects and inversely proportional to the square of the distance between the objects. The masses in the nucleus are incredibly small and even if their the distance apart is tiny it is huge compared to their size