Final answer:
The slope of the tangent line to the curve at t = 25 s is calculated by determining the endpoints of the tangent, which are the positions at 19 s and 32 s, and then using these to calculate the rate of change of position over time, yielding a slope of 140 m/s.
Step-by-step explanation:
Finding the Slope of the Tangent Line to a Curve
To find the slope of the tangent line to the curve at a specific point, in this case at t = 25 s, we need to follow these steps:
- Locate the point on the curve at which we desire the tangent line.
- Determine the endpoints of the tangent line. For our scenario, the endpoints are given as a position of 1,300 m at 19 s and a position of 3,120 m at 32 s.
- Calculate the slope 'v' by using the coordinates of these endpoints in the slope formula: (change in position)/(change in time). Therefore, the slope v is calculated as:
((3,120 m - 1,300 m) / (32 s - 19 s)) which simplifies to (1,820 m / 13 s), resulting in a slope of 140 m/s.
This slope corresponds to the velocity at t = 25 s since velocity is the derivative of position with respect to time.