A bungee jumper dives from a tower at time t = 0. Her height h (measured in feet) at time t (in seconds) is given by the graph on the 2nd page. In this problem, you may base your answers on estimates from the graph or use the fact that the jumper's height function is given by s(t) = 75 cos(0.9x) e-0.3x + 60. If you would like to view the graph on Desmos, you will find it here: https://www.desmos.com/calculator/yozi9dijkd 0 and t = 16? 1. What is the change in vertical position of the bungee jumper between t = You may estimate using the graph or use the function. If you use the function, round to 1 decimal place. In either case, be sure to show all work as to how you arrived at the solution. 2. Estimate the jumper's average velocity on each of the following time intervals: [0,16] and [36] Include the units and appropriate positive/negative sign.

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A bungee jumper dives from a tower at time t = 0. Her height h (measured in feet) at time t (in seconds) is given by the graph on the 2nd page. In this problem, you may base your answers on estimates from the graph or use the fact that the jumper's height function is given by s(t)= 75 cos (0.9x) · e-0.3x + 60. If you would like to view the graph on Desmos, you will find it here: https://www.desmos.com/calculator/yozi9dijkd 1. What is the change in vertical position of the bungee jumper between t = 0 and t = 16? You may estimate using the graph or use the function. If you use the function, round to 1 decimal place. In either case, be sure to show all work as to how you arrived at the solution. 2. Estimate the jumper's average velocity on each of the following time intervals: [0,16] and [3,6]. Include the units and appropriate positive/negative sign.