motion
The change in position of an object compared to a reference point(another object) is called motion.
Motion is the change in an object's position.
The word for a change in the position or place of something is "displacement." In physics, displacement refers to the vector quantity that represents the change in position of an object, typically measured from its initial position to its final position. It is a crucial concept in understanding motion and calculating distance traveled.
Velocity is change in displacement over time.
Weight
The change in position of an object compared to a reference point(another object) is called motion.
Position refers to the location of an object at a specific point in time, while change represents the difference in position over a period of time. Change is the rate at which an object's position is changing or the displacement from one position to another. Therefore, position and change are related in that change is the measure of how position is shifting over time.
Change of position relative to another object
The change in position of one object compared to another object is called relative motion. This describes the movement of one object relative to the other, taking into account their positions and velocities.
If a scalar, it is the change in distance.
Speed is a measure of how fast an object is moving, while changes in an object's position describe its movement from one location to another. The speed of an object determines how quickly it can cover a particular distance, so a higher speed will result in faster changes in the object's position.
The push or pull action or force on an object causes change in position of an object
No.Mass is always the same, unless broken apart from one another.
motion
motion
Motion of an object is a change in the object's position over time. It describes how an object moves from one location to another.
One can measure the instantaneous velocity of an object by calculating the rate of change of its position at a specific moment in time. This can be done using calculus by finding the derivative of the object's position function with respect to time.