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If the masses do not change, but the objects are moved farther apart, the gravitational force becomes weaker, due to the distance between the objects.
Answer The Universal Law of Gravitation states the gravitational force between any two objects of mass can be calculated with the equation F=G*(m_1*m_2)/r^2. As a result, increasing the mass of one or both objects increases the gravitational force. Increasing the distance between the two objects decreases the gravitational force. Notice the distance between them is squared so if you keep the masses the same and double the distance between them the gravitational force will decrease by four times.
The gravitational potential energy does not change if the desk is horizontal. The work done is in overcoming the friction between the object and the desk.
Because of the inverse-square law, doubling the distance will change the gravitational force by a factor of 1/4 (calculated as 1 divided by 2 squared).
If the mass of both of the objects is doubled, then the force of gravity between them is quadrupled; and so on. Since gravitational force is inversely proportional to the square of the separation distance between the two interacting objects, more separation distance will result in weaker gravitational forces.
If the masses do not change, but the objects are moved farther apart, the gravitational force becomes weaker, due to the distance between the objects.
As you get farther from the Earth, you attract the Earth with less gravitational force, and the Earth attracts you with less gravitational force. The two forces remain equal as they both decrease.
The gravitational force would be 1/25 of the current value. Gravitational force is inversely proportional to the square of the distance.
distance
Answer The Universal Law of Gravitation states the gravitational force between any two objects of mass can be calculated with the equation F=G*(m_1*m_2)/r^2. As a result, increasing the mass of one or both objects increases the gravitational force. Increasing the distance between the two objects decreases the gravitational force. Notice the distance between them is squared so if you keep the masses the same and double the distance between them the gravitational force will decrease by four times.
It increases
The gravitational forces between two objects are proportional to the productof the two masses. So if either mass decreases and the distance between theobjects doesn't change then the gravitational forces between them also decrease.
my classmate hack my dragonfable
Yes. Exactly the same way, and described by the exact same math, as the change in the gravitational force between masses as the distance between them changes.
The gravitational potential energy does not change if the desk is horizontal. The work done is in overcoming the friction between the object and the desk.
Inertial mass is a quantitative measure of an object's resistance to the change of its speed. Gravitational mass is the property of the mass of an object that produces a gravitational field in the space surrounding the object.
It would also increase fourfold ... as long as the distance between them didn't change.