There will be a change in the area/volume, depending on the direction of the force applied.
Because it depends on things that can change.The force of gravity between two masses is proportional to the product of themasses and inversely proportional to the square of the distance between theircenters. If either of their masses changes, or the distance between their centerschanges, then the gravitational force between them changes. If not, then theforce is constant.
It remains constant
When you increase the distance the force is decreased, and when you decrease the distance you increase the force.
The force changes in the direction opposite to the change in distance. More distance ==> less force, and less distance ==> more force. That's why the gravitational force between the sun and you is small, even though the sun has a lot more mass than the earth has.
The impulse is equal to the constant force so the impulse is also quintupled. The resting change in momentum has increased the exact same as well.
Because it depends on things that can change.The force of gravity between two masses is proportional to the product of themasses and inversely proportional to the square of the distance between theircenters. If either of their masses changes, or the distance between their centerschanges, then the gravitational force between them changes. If not, then theforce is constant.
It remains constant
It remains constant
Gravitational force is not something that changes, it is a constant. The Earth's gravitational force is roughly 9.8 meters per second squared.
When you increase the distance the force is decreased, and when you decrease the distance you increase the force.
The simple answer to work done on an object is Force * distance. This only works if there was a constant force acting on the object. If the force changes, then you need to integrate the force function F(x)*dx, where x is the distance, and F(x) is the function that gives the force at position x.
The force changes in the direction opposite to the change in distance. More distance ==> less force, and less distance ==> more force. That's why the gravitational force between the sun and you is small, even though the sun has a lot more mass than the earth has.
The force changes in the direction opposite to the change in distance. More distance ==> less force, and less distance ==> more force. That's why the gravitational force between the sun and you is small, even though the sun has a lot more mass than the earth has.
Nothing changes. When no force acts on an object moving with constant velocity, the body continues its motion with uniform velocity, or if the object is at rest, it will remain at rest.
The impulse is equal to the constant force so the impulse is also quintupled. The resting change in momentum has increased the exact same as well.
The gravitational force is equal to mass1 x mass2 / (the square of the distance); all this must be multiplied with a constant, known as the gravitational constant.
Nothing particular happens specifically to the distance.