The ratio of the force of gravity which these objects exert on some other objects are equal to the ratio of the masses. Otherwise, if you want to know the difference in absolute terms (subtracting one force minus the other), you would also have to know the mass of the other object on which they act, as well as the distance.
Regarding only the force of gravity ON these two objects . . .
-- Assume both objects are in the same place, and that place is
on or near the Earth's surface.
-- The force of gravity on the more-massive object is (Mbig G) = (23.5)(9.8)
-- The force of gravity on the less-massive object is (Mlittle G) = (14.7)(9.8)
-- The difference between the two forces is (23.5 - 14.7)(9.8) = 86.3 newtons (about 19.4 pounds).
The force of gravity on an object is called its weight.Note that mass is what CAUSES this force of gravity.
Mass is a measure of the amount of matter in an object. Weight is the effect of the force of gravity on the mass of an object.
mass of object *force of gravity
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.
The object that exerts gravity is an object with mass.
The force of gravity on an object is called its weight.Note that mass is what CAUSES this force of gravity.
Mass is a measure of the amount of matter in an object. Weight is the effect of the force of gravity on the mass of an object.
No. The force of gravity acting on an object's mass is weight.
mass of object *force of gravity
IF you test that force with the same test object, and IF you place the testobject exactly the same distance from the center each time, THEN the mutualforce of gravity between the test object and the 23.5 kg mass will be 1.6 timesas strong as the mutual force of gravity between it and the 14.7 kg mass.
The object has mass, and the force of gravity gives that object weight, which is mass in a gravimetric field.
No. Mass, as a quantity, is independent of gravity.
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.
Mass
The object that exerts gravity is an object with mass.
The force of gravity at Pluto's surface on an object with a mass of 100kg is approximately 58N .
The mass of an object depends on the materials out of which it is made.