Average Velocity
The average velocity of any body is the ratio of total displacement to the total time taken. It is a vector quantity, with the same unit as the velocity. It is the rate with which an object changes its position from one place to another, in a time frame. Its standard unit is meters per second, but can also be convertible to other units such as miles per hour (mph) or kilometres per hour (mph).
Calculating Average Velocity
It is that single velocity with which the object can travel the same length in the same time as it generally does with varying velocity. The average speed of a body, at any specified time instance, is strictly greater than the magnitude of the average velocity.
Average Velocity = [Tex]\frac{Total\ displacement}{Total\ time\ taken}[/Tex]
[Tex]\displaystyle \overrightarrow{V}_{av}=\frac{\Delta \overrightarrow x}{\Delta t}[/Tex]
Speed and Velocity
Mechanics can be termed as the branch of physics concerned with the concepts of energy and forces and their effect on bodies. It governs the relationships related to the motion of objects, that is, between matter, force, and its associated energy. It is responsible for the motion of bodies and the action of forces on these bodies as well. Practically, mechanics involve the design, construction, or operation of machines or tools. For instance, the distance covered by a car to stop travelling at a speed of 30 km/h.
The branch of classical mechanics concerned with the motion of points, object groups and systems, holding no reference to the motion of these objects, is called Kinematics, often termed the “Geometry of Motion.”
The sub-branch of physical science which is related to the motion of material objects under the effect of the physical factors affecting them, that is force, mass, momentum, and energy is called the Dynamics.
Rest
Anybody is said to be at a rest position if there is no change in its position (distance, displacement) with time, concerning its surroundings or a reference point.
Motion
The change in the position of anybody concerning time can be termed as motion. Any object under motion can be visualized by the naked eye by determining the change in the positional coordinates and then, associating it through the eye of the arbitrary observer. Motion can be computed in terms of both the position vectors, that is, the displacement, and distance, and taking into consideration the speed factors, that is, velocity, acceleration, speed, and time.
For instance, a spring ball attached to one end of a rod swinging at different time frames can be assumed to be in motion.