Investigating a Quadratic Relationship
Introduction
A diver jumps off a springboard from a height of 3 meters off the water.
The Data
Plot the ordered pairs that correspond to diver's height and time. (Use the Point tool or input the ordered pairs)
What is her rate of change (speed) during the first 0.2 seconds of her jump? Use the Line and Slope tools or write an equation. Then write your solution below.
How fast is she going during the NEXT 0.2 seconds? Use the Line and Slope tools or write an equation. Then write your solution below.
About what time does she reach the top of her jump? Explain your reasoning. Hint: What will be her speed at that time?
Now the points are plotted for you. Use the line tool to connect the points.
Now use the graph to estimate what time she hits the surface of the water. Hint: What will be her height at that time?
Use your estimate to determine how fast she is moving when she hits the water. Use the Line and Slope tools or write an equation. Then write your solution below.
Move the sliders for a, b, and c to find a quadratic equation that matches the graphed points.
Since the diver's height (h) is a function of time (t), we can model her motion with the basic quadratic equation: h(t)=at2+bt+c Based on the values you found for a, b, and c in your graph, what is the equation that fits her motion? Write your equation below. Remember, you can right click on the orange line to display your equation.
Now use your equation and find: a) the time she reaches the top of her jump b) the time she hits the water c) her speed as she hits the water
Describe how your estimated answers above compare with the results the equation gave you.