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.
A mass in motion has kinetic energy and momentum. Of course it is all relative, since the mass could be stationary in one frame and moving in another. Kinetic energy = 1.2 mv^2 Momentum = mv
The answer is momentum. :)
inertia is the laziness of an object, or an objects resistance to change its state of motion, or how easy it is to start or stop an object. Mass is the measure of an object's inertia. Therefore with more mass, an object has more inertia.
Nothing on that list has any effect on an object's motion.
All objects resist a change in motion. That is Newton's first law of motion. It requires only that the object have mass. An object that is not acted on by an external force will continue in it previous state of straight line motion. The property that all object have that resists a change in motion is called inertia. The quantitative measure of the inertia of a body is called its mass. This answer applies to movement through space. There is a similar explanation for rotational motion.
motion
No, a force is not a motion. A force may produce motion of a mass.
Momentum: A measure of the motion of a body equal to the product of its mass and velocity.
Volume is the size of a solid and mass is the quantitative measure of inertia, or the resistance of a body to a change in motion.
A quantity used to measure the motion of a body, equal to the product of the body's mass and its velocity.
inertia is the laziness of an object, or an objects resistance to change its state of motion, or how easy it is to start or stop an object. Mass is the measure of an object's inertia. Therefore with more mass, an object has more inertia.
The inertia. This is directly related to the object's mass.
Not exactly, as technically the mass of an object is a measure of its inertia, or resistance to change in state of motion or rest.
only the motion of star toward the observer is measured, not the full motion
Changes in motion are affected by the mass of the object. Newton's Second Law of Motion states that Force = (mass)(acceleration), or F=ma. This can be rewritten as: acceleration = Force/mass, or a=F/m. Acceleration is a measure of the rate of change of velocity of an object. If the same force is used, the objects with a bigger mass will accelerate at a lower rate.
The relationship between mass and motion is given by Newton's Second Law.
Weight is the pull of gravity on a mass, it is measured in a gravity field using a weighing machine (bathroom scales are an example) Mass is an intrinsic property of matter, it is a measure of an object's resistance to acceleration (a change in its state of motion) when a force is applied.
Gravity is not contained, but exerted -- it is a force of acceleration between material objects.But yes, the greater the mass, the greater the mutual attraction to other objects. The property of mass includes both gravity and a resistance to motion or reduction of motion by a force.
Nothing on that list has any effect on an object's motion.