yes it is a contributing factor. lets say you were given the weight of a ball in Newtons, lets say 8 Newtons . you would multiply 9.8 0r 10(if you are rounding) by the number of Newtons(8) and you would get your answer in Kilograms. If you are given the Kilograms it is not a contributing factor to weight.
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 weight of an object is the force of gravity.
weight, The weight of an object is the force of gravity acting on it.
The mutual force with which every two masses attract each other because of gravity is referred to as the "weight" of the objects.
The force of gravity between the Earth and an object on its surface is what we call the object's "weight". What is not generally appreciated is that the object attracts the Earth toward it with the same force. This means that whatever your weight is on Earth, it's the same as the Earth's weight on you.
The scientific definition of weight is that it is the the force of gravity acting on an object.
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 weight of an object is the force of gravity.
weight, The weight of an object is the force of gravity acting on it.
Weight = Mass * Acceleration of gravity. Weight = force of gravity on particular object. Weight = force of gravity on an object; Gravity = attracts all objects toward each other
The mutual force with which every two masses attract each other because of gravity is referred to as the "weight" of the objects.
The force of gravity depends directly on weight.
The force of gravity between the Earth and an object on its surface is what we call the object's "weight". What is not generally appreciated is that the object attracts the Earth toward it with the same force. This means that whatever your weight is on Earth, it's the same as the Earth's weight on you.
force of gravity
The force of gravity on an object is called its weight.Note that mass is what CAUSES this force of gravity.
The weight of an object is the force with which gravity (usually, Earth's gravity) attracts it. Weight is measured in units of force; in SI units, this is the Newton.
No. The force of gravity acting on an object's mass is weight.