The strength of the gravitational forces between two objects depends on
the product of their masses. In fact, it's directly proportional to the product
of their masses.
Mass is not affected by gravity. Weight is the result of the force of gravity acting on mass.
mass and distance
Mass does not depend on gravity. At zero gravity the object will have the same mass as at a higher gravity. What changes is the object's weight. The fact that the object still has mass can be ascertained from its inertia - it will take a force to make it move, or to stop it.Mass does not depend on gravity. At zero gravity the object will have the same mass as at a higher gravity. What changes is the object's weight. The fact that the object still has mass can be ascertained from its inertia - it will take a force to make it move, or to stop it.Mass does not depend on gravity. At zero gravity the object will have the same mass as at a higher gravity. What changes is the object's weight. The fact that the object still has mass can be ascertained from its inertia - it will take a force to make it move, or to stop it.Mass does not depend on gravity. At zero gravity the object will have the same mass as at a higher gravity. What changes is the object's weight. The fact that the object still has mass can be ascertained from its inertia - it will take a force to make it move, or to stop it.
Gravity is a force.
The mass of an object depends on the materials out of which it is made.
Mass is not affected by gravity. Weight is the result of the force of gravity acting on mass.
mass and distance
Mass does not depend on gravity. At zero gravity the object will have the same mass as at a higher gravity. What changes is the object's weight. The fact that the object still has mass can be ascertained from its inertia - it will take a force to make it move, or to stop it.Mass does not depend on gravity. At zero gravity the object will have the same mass as at a higher gravity. What changes is the object's weight. The fact that the object still has mass can be ascertained from its inertia - it will take a force to make it move, or to stop it.Mass does not depend on gravity. At zero gravity the object will have the same mass as at a higher gravity. What changes is the object's weight. The fact that the object still has mass can be ascertained from its inertia - it will take a force to make it move, or to stop it.Mass does not depend on gravity. At zero gravity the object will have the same mass as at a higher gravity. What changes is the object's weight. The fact that the object still has mass can be ascertained from its inertia - it will take a force to make it move, or to stop it.
Gravity is a force but has no mass.
The mass of an object doesn't depend on the gravitational force on the object.
Gravity is a force.
The mass of an object depends on the materials out of which it is made.
The force of gravity on one object due to another object depends on the mass of each object and their separation distance.
gravity.
The force of gravity on an object is called its weight.Note that mass is what CAUSES this force of gravity.
No. Mass is independent of gravity, but weight is a function of gravity and mass.
As compared to Earth, you mean? If an object doesn't change its shape, the center of mass doesn't depend on gravity - and the center of gravity hardly does so.