Interpreting the derivative Find the derivative of each function at the given point and interpret the physical meaning of this quantity. Include units in your answer.
Suppose the speed of a car approaching a stop sign is given by v (t) = (t-5)², for 0 ≤ t ≤ 5, where t is measured in seconds and v(t) is measured in meters per second. Find v′(3).

The derivative of a function measures the rate at which the function's value changes at a given point. In the context of motion, it represents the instantaneous rate of change of position with respect to time, which is the velocity. For the function v(t) = (t-5)², the derivative v'(t) will provide the speed of the car at any specific time t.

In physics, the derivative of a position function with respect to time gives the velocity of an object. This interpretation is crucial for understanding motion; for example, if v(t) represents the speed of a car, then v'(t) indicates how that speed is changing at a specific moment. This can inform us about acceleration or deceleration as the car approaches a stop sign.

When calculating derivatives in a physical context, it is essential to include units to convey meaningful information. In this case, time is measured in seconds and velocity in meters per second. When finding v'(3), the result should be expressed in appropriate units to reflect the physical quantity being measured, ensuring clarity in interpretation.