Want this question answered?
That is called "work"; it refers to a transfer of mechanical energy.
it would be in the process of moving It depends on your perspective. If you were also moving in the same direction and at the same speed, is the object moving?
It will decrease if the object moves upward; decrease if the object moves downward.
Classically speaking, heat always moves from a hot object to a colder object.
If an object moves with time in comparison with any other still object which can be considered as a reference object then the first object is a moving one.
Movement Occurs When an Object moves Relative to a Stationary Object
Its speed.
I think it's important to know if your reference point moves because your reference point is the object that's not supposed to move and if it moves it will mess up your hypothesis of thinking that your 1st object moves. It takes a while to completely understand the answer, or even the question
That is called "work"; it refers to a transfer of mechanical energy.
no, speed is a scalar quantity. forces is a vector quantity that measures the strength and states the direction. speed tells you how fast an object moves in specific instant. :)
it would be in the process of moving It depends on your perspective. If you were also moving in the same direction and at the same speed, is the object moving?
Speed occurs when a body moves with respect to some frame of reference.
NO it moves from a warm object to a cool object
It will decrease if the object moves upward; decrease if the object moves downward.
Classically speaking, heat always moves from a hot object to a colder object.
If an object moves with time in comparison with any other still object which can be considered as a reference object then the first object is a moving one.
The simple answer is that the object moves at a constant velocity (or remains stationary if it wasn't moving). This is known as Newton's First Law.However, Newton's Laws only apply in what is known as an inertial reference frame. Unfortunately, the definition of an inertial reference frame is a reference frame in which Newton's Laws apply. But, in principle, if you took an object far away from everything, then the simple answer above would, in principle, be correct.