Does gravitational force depend on shape?
The gravitational force of attraction between any two objects does not depend upon. Gravitational force does not depend upon size and shape of objects.
What does the gravitational force of an object depend on?
The size of the gravitational force depends on the mass of the objects involved. The greater the mass, the greater the gravitational force. Furthermore, if the gravitational force is to be detectable on a human scale, then one of the objects must be as massive as a planet.
Is gravitational force independent or dependent?
It depends on nature of force. 1. The force of gravity depends on mass hence acceleration becomes independent of it. It means two bodies dropped from a height will have same acceleration irrespective their masses.
What are the three factors that gravitational force is dependent upon?
Gravitational force depends on: The masses of the two bodies involved The distance between the two bodies
- The masses of the two bodies involved.
- The distance between the two bodies.
What is the shape of gravitational force?
For objects larger than approximately one fifth the size of Earth, gravity (rather than electrostatic forces, for example) will be the dominant force determining their shape. As gravity pulls matter towards other matter, a sphere forms.
Does the gravitational force change with mass of an object?
Since the gravitational force is directly proportional to the mass of both interacting objects, more massive objects will attract each other with a greater gravitational force. So as the mass of either object increases, the force of gravitational attraction between them also increases.
Why gravity is not dependent on the mass of an object?
Mass is intrinsic to matter, but weight is the force of gravity on that mass. Remember, F=ma. The acceleration due to gravity does not depend on the mass of the object falling, but the force it feels, and thus the object’s weight, does.
Is g dependent on mass?
Why g is not dependent on mass?
g=GM/R^2 where g is acceleration due to gravity, G is gravitational constant, M is mass of the earth (or any other heavenly body), and R is the distance between the the centre of the earth and the object under consideration. Hence g does not depend on the mass of the object.