(a) Explanation Given: Time elapsed in pursuit of car by police is 2 s . Acceleration of police’s motorcycle is 4.2 m / s 2 . Final speed of police’s motorcycleis 110 km / h . Distance covered by police from intersection to catch the car is 1.4 km . Formula used: Total time taken to catch the car is summation of elapsed time by police, time when police’s motorcycle is accelerating and time for which police’s motorcycle is moving with constant velocity. Write the expression of total time taken to catch the car by police. t = t 1 + t 2 + t 3 ........(1) Here, t is total time to catch the car , t 1 is elapsed time , t 2 is time for which police car was accelerating and t 3 is time for which police’s motorcycle is moving with constant velocity of 110 km / h . Write the expression for time taken during acceleration in terms of final velocity and acceleration. t 2 = v 1 a ........(2) Here, v 1 is final constant velocity. Write the expression for distance covered during acceleration. s 1 = v 0 t 2 + 1 2 a t 2 2 ........(3) Here, s 1 is distance covered during acceleration, v 0 is initial velocity and a is acceleration of police’s motorcycle. Write the expression for time taken to cover distance with constant velocity. t 3 = s 2 v 1 ........(4) Here, s 2 is distance covered with constant velocity. Calculation: Convert unit of final constant velocity into m / s . 110 km / hr = 30.56 m / s . Substitute 30.56 m / s for v 1 and 4 (b) To determine Velocity of preceding car

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Chapter 2, Problem 86P

(a)

To determine

Time taken by officer to catch the car.

(b)

To determine

Velocity of preceding car

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Chapter 2, Problem 85P

Chapter 2, Problem 87P

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Time taken by officer to catch the car.

Solution Summary: The author explains the formula used for total time taken by police to catch the car, which is summation of elapsed time, time when police's motorcycle is accelerating, and time for which police’s motorbike

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Time taken by officer to catch the car.

Velocity of preceding car

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