no i think it just changes location because it still has the same amount of matter in it...right?
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.
The product of an object's mass and velocity is the object's momentum.
Mass doesn't like to move. Rather, it doesn't like to be forced to move. The first law of motion by Newton states that an object in motion will stay in motion until an external force is acted upon it. The second law of motion by Newton states that force is equal to mass multiplied by acceleration. The more something weighs, or the more mass it has, the more acceleration or force is required to move it. So to answer your question shortly, increase in mass affects how much acceleration or force is needed to move that mass.
According to Newton's first law, a mass will remain at rest and a mass in motion will remain in motion in a straight line at constant velocity unless acted on by an unbalanced force. So the relationship between mass and motion is that in order to change a mass's motion, you must apply an unbalanced force.
No, a force is not a motion. A force may produce motion of a mass.
Translational motion . . .The object's center of mass winds up at a different locationcompared to where it was when the motion began.Rotational motion . . .The location of the object's center of mass doesn't change, butthe object turns, spins, whirls, tumbles, or rotates around it.
Motion of something determined by its mass and velocity
Momentum
The relationship between mass and motion is given by Newton's Second Law.
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.
The product of an object's mass and velocity is the object's momentum.
changing mass and volume
The product of an object's mass and velocity is the object's momentum.
No. Mass is independent of shape. The mass, as measured by weight, will be the same. If the material is compressible and you change the volume as a result of changing the shape, the density will change although the mass will not.
Mass doesn't like to move. Rather, it doesn't like to be forced to move. The first law of motion by Newton states that an object in motion will stay in motion until an external force is acted upon it. The second law of motion by Newton states that force is equal to mass multiplied by acceleration. The more something weighs, or the more mass it has, the more acceleration or force is required to move it. So to answer your question shortly, increase in mass affects how much acceleration or force is needed to move that mass.
No, a force is not a motion. A force may produce motion of a mass.
According to Newton's first law, a mass will remain at rest and a mass in motion will remain in motion in a straight line at constant velocity unless acted on by an unbalanced force. So the relationship between mass and motion is that in order to change a mass's motion, you must apply an unbalanced force.