Figure P2.24 represents part of the performance data of a car owned by a proud physics student.

(a) Calculate from the graph the total distance traveled.

(b) What distance does the car travel between the times t = 10 s and t = 40 s?

(c) Draw a graph of its acceleration versus time between t = 0 and t= 50 s.

(d) Write an equation for x as a function of time for each phase of the motion, represented by (i) 0a, (ii) ab, (iii) bc.

(e) What is the average velocity of the car between t = 0 and t = 50 s?

(a) Calculate from the graph the total distance traveled.

(b) What distance does the car travel between the times t = 10 s and t = 40 s?

(c) Draw a graph of its acceleration versus time between t = 0 and t= 50 s.

(d) Write an equation for x as a function of time for each phase of the motion, represented by (i) 0a, (ii) ab, (iii) bc.

(e) What is the average velocity of the car between t = 0 and t = 50 s?

Copyright © 2019 SolutionInn All Rights Reserved