no
Force does not change mass. Mass is a measure of the amount of matter in an object and remains constant regardless of the force applied to it. Force can change an object's motion or shape, but not its mass.
Force is the rate of change of momentum. When a force acts on an object, it causes the object's momentum to change. The greater the force applied, the greater the change in momentum experienced by the object.
The mass of an object does not change when the gravitational force changes. Mass is a measure of the amount of matter in an object and is independent of the gravitational force acting on it.
If you change the mass of an object, you also change its weight. Weight is the force of gravity acting on an object, and it is directly proportional to the mass of the object.
Force = Mass * Acceleration (F = m * a)Therefore, if the mass of an object is increased, then the force required to accelerate to a given velocity will be greater. If the mass is decreased, then the force required to accelerate that object to a given velocity will become smaller.
Force does not change mass. Mass is a measure of the amount of matter in an object and remains constant regardless of the force applied to it. Force can change an object's motion or shape, but not its mass.
Force is the rate of change of momentum. When a force acts on an object, it causes the object's momentum to change. The greater the force applied, the greater the change in momentum experienced by the object.
The mass of an object does not change when the gravitational force changes. Mass is a measure of the amount of matter in an object and is independent of the gravitational force acting on it.
If you change the mass of an object, you also change its weight. Weight is the force of gravity acting on an object, and it is directly proportional to the mass of the object.
Gravitational force does not change the mass (kilograms)of an object. It merely changes the force at which one object is attracted to the other. This means it's weight (newtons) is raised. The formula for weight is Mass x Force of Gravity, which is why thing seem to weigh less on the moon, their mass does not change, only their apparent weight.
Force = Mass * Acceleration (F = m * a)Therefore, if the mass of an object is increased, then the force required to accelerate to a given velocity will be greater. If the mass is decreased, then the force required to accelerate that object to a given velocity will become smaller.
It takes no force to 'move' an object. There are trillions of objects that are moving right now with no forces acting on them. It only takes force to 'accelerate' an object ... to change its motion, by changing its speed or the direction of its motion. force=mass*acceleration As mass increases, so does the force needed to change the object's motion.
No, the mass of an object remains constant regardless of changes in gravity. Mass is an intrinsic property of an object and does not change with gravitational influence. The weight of an object, however, can change with variations in gravity, as weight depends on the gravitational force acting on the object.
You can change the weight of an object by altering its mass or the force acting on it. Increasing the mass of the object will increase its weight, while decreasing the force acting on it will decrease its weight.
If the object is in free-space, and any force applied over a period of time will change the velocity of an object. Force = mass * acceleration. Acceleration = velocity / time. Therefore, Force = mass * velocity/time.
If you increase the mass of an object and keep the force constant, the acceleration of the object will decrease because the force-to-mass ratio decreases. Conversely, if you increase the force applied to an object while keeping the mass constant, the acceleration of the object will increase because the force-to-mass ratio increases.
No. Mass is a property of the object and doesn't change, no matter where the object goes or what's happening to it. The force of gravity on the object is its "weight" and that can change. It depends on, for example, what planet the object is on.