Instantaneous velocity: The velocity of an object at one moment in time.
Instantaneous speed is the magnitude of the velocity. Velocity also states the [direction] of the speed.
There is average velocity, and there is instantaneous velocity. I don't think "overall velocity" is a concept generally used in physics; please clarify what you mean.
Velocity is always a scalar, instantaneous or average doesn't matter.
The tangent at a point on the position-time graph represents the instantaneous velocity. 1. The tangent is the instantaneous slope. 2. Rather than "average" velocity, the slope gives you "instantaneous" velocity. The average of the instantaneous gives you average velocity.
The slope of a velocity-time graph that shows uniform acceleration is the actual acceleration. Instantaneous velocity is the velocity of a body at a particular moment in time.
Instantaneous velocity: The velocity of an object at one moment in time.
Instantaneous velocity is the velocity in difference displacement in shortest time or specific time interval.
Instantaneous speed is the magnitude of the velocity. Velocity also states the [direction] of the speed.
There is average velocity, and there is instantaneous velocity. I don't think "overall velocity" is a concept generally used in physics; please clarify what you mean.
Instantaneous.
Velocity is always a scalar, instantaneous or average doesn't matter.
The tangent at a point on the position-time graph represents the instantaneous velocity. 1. The tangent is the instantaneous slope. 2. Rather than "average" velocity, the slope gives you "instantaneous" velocity. The average of the instantaneous gives you average velocity.
Mainly, when the velocity doesn't change. Also, in the case of varying velocity, the instantaneous velocity might, for a brief instant, be equal to the average velocity.
v(t) = dsdt This should be the formula for instantaneous velocity.
Instantaneous velocity is a vector quantity representing the velocity Vi at any point.It is the time rate of change in displacement.
The average velocity over an time interval is the average of the instantaneous velocities for all instants over that period. Conversely, as the time interval is reduced, the average velocity comes closer and closer to the instantaneous velocity.