The mass of each object (more mass=stronger gravitational force) and the distance between the objects (the closer they are the stronger the force.
it depends on mass and distance between the two objects
It depends on how much mass is in an object. The bigger the object is the more mass is in the object.
(i knew myself...YAY!)
It depends on the size of the force and the distance from the pivot to where the force is applied .
There is no difference. Gravity and gravitational force are simply two different ways of describing force by which bodies pull on each other relative to their size (gravity!).
Since gravity is basically a force then, it is determined by both mass and size. Also weight.
The force of gravity depends on the masses involved. Weight is a force ascribed to gravity.
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.
apples
Yes because it had a force of gravity
Weight is the force due to gravity. It depends on the size of the two masses concerned and the distance between them.
It depends on the size of the force and the distance from the pivot to where the force is applied .
There is no difference. Gravity and gravitational force are simply two different ways of describing force by which bodies pull on each other relative to their size (gravity!).
The force of gravity depends directly on weight.
There is no difference. Gravity and gravitational force are simply two different ways of describing force by which bodies pull on each other relative to their size (gravity!).
gravity
Since gravity is basically a force then, it is determined by both mass and size. Also weight.
The larger the mass of the planet, the greater the force of its gravity.
The acceleration of gravity at the surface of Mercury is 3.7 m/sec2. The force on a mass on the planet's surface depends on the size of the mass. The magnitude of the force, in newtons, is (3.7) times (the object's mass).
It depends. Two surfaces which are pressed together will show a frictional force resisting any sliding. If they are pressed together by gravity (e.g. such as for a book lying on a table), then the frictional force resisting a horizontal push will depend on the weight of the book, which depends on the force of gravity.