Absolute rest is commonly called absolute zero. To cool something by extracting energy it must be placed in an environment with less average energy than it contains; this requires the environment to be already at or below absolute zero, which requires something to make it that temperature. This thing must be at or below absolute zero as well... and we enter a causality loop where being able to do one thing requires it to have been done. Thus it is impossible.
not without violating special relativity. Einstein posited that you cannot define absolute rest because you cannot know that you are in motion if there is no acceleration. you can declare a relative state of rest, but there is no such thing as absolute rest or absolute motion. if you could declare an absolute velocity, then you must know how fast you are going, and that would violate the first postulate
An object changes its state of motion when it accelerates or decelerates, usually caused by a force.
the state of rest is also called the state of motion in which the speed is zero.
Resting state
Inertia. An object at rest, tends to stay at rest, while an object in motion tends to stay in motion.
Inertia resists acceleration. Inertia resists a change in the state of motion of a particle or rigid body. For instance, in order for the state of motion of an object to change, there must be a net external force exerting on the object, which is defined as mass times acceleration. Resistance to this net external force would therefore have to resist the object's acceleration, and that is inertia.
Accelerate it. Be aware that any change in motion (slower, faster, different course) is defined as acceleration. Newton defined force (simply) as that which alters a state of motion, i.e. f = ma.
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.
Motion just stop at absolute zero.
An object changes its state of motion when it accelerates or decelerates, usually caused by a force.
because every ---------------------------- is in a stae of motion
the state of rest is also called the state of motion in which the speed is zero.
Resting state
Inertia. An object at rest, tends to stay at rest, while an object in motion tends to stay in motion.
Inertia resists acceleration. Inertia resists a change in the state of motion of a particle or rigid body. For instance, in order for the state of motion of an object to change, there must be a net external force exerting on the object, which is defined as mass times acceleration. Resistance to this net external force would therefore have to resist the object's acceleration, and that is inertia.
the weight of an object makes the maintain same state of motion that is wrong inertia is the correct answer. look it up in the dictionary
Inertia. An object at rest, tends to stay at rest, while an object in motion tends to stay in motion.
it takes an unbalanced force to change an object's state of motion