Careful measurements have been made of Olympic sprinters in the 100 meter dash. A quite realistic model
Question:
Careful measurements have been made of Olympic sprinters in the 100 meter dash. A quite realistic model is that the sprinter’s velocity is given by
vx = a(1 - e-bt)
Where t is in s, vx is in m/s, and the constants a and b are characteristic of the sprinter. Sprinter Carl Lewis’s run at the 1987
World Championships is modeled with a = 11.81 m/s and b = 0.6887 s-1.
a. What was Lewis’s acceleration at t = 0 s, 2.00 s, and 4.00 s?
b. Find an expression for the distance traveled at time t.
c. Your expression from part b is a transcendental equation, meaning that you can’t solve it for t. However, it’s not hard to use trial and error to find the time needed to travel a specific distance. To the nearest 0.01 s, find the time Lewis needed to sprint 100.0 m. His official time was 0.01 s more than your answer, showing that this model is very good, but not perfect?
Step by Step Answer:
a The acceleration is the time derivative of the velocity With 1181 ms and b 06887 s 1 x ...View the full answer
Physics for Scientists and Engineers A Strategic Approach with Modern Physics
ISBN: 978-0133942651
4th edition
Authors: Randall D. Knight
