(a) Explanation Assume that the x axis is along the tail section of the snake. It is given that I runs directly from the tail to the head. The displacement of I can be expressed as the sum of the displacements in the first straight side and that in the second side. Since the x axis is assumed along the tail section of length 240 m , the displacement along this section will be vector in x direction with length 240 m . The length of the second section is 420 m − 240 m = 180 m . The displacement along the second section of the snake will have both x and y component since it is at an angle of ( 180 ° − 105 ° = 75 ° ) with the x axis. The diagram is shown below. Write the equation for the displacement of I. d → I = 240 m i ^ + ( 180 m ) cos75 ° i ^ − ( 180 m ) sin75 ° j ^ = 287 m i ^ − 174 m j ^ Here, d → I is the displacement of I. The magnitude of d → I gives the distance travelled by I. Find the distance travelled by I. d I = ( 287 m ) 2 + ( − 174 m ) 2 = 335 m Here, d I is the distance travelled by I. Write the equation for speed. v = d t (I) Here, v is the speed, d is the distance and t is the time. Rewrite the above equation for Δ t . t = d v (II) Use equation (II) to write the expression for the time taken by I to complete the run. t I = d I v I (III) Here, t I is the time taken by I complete the run and v I is the speed of I (b) To determine The speed with which O must run to reach the end of the snake at the same time as I.

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN: 9781133104261

Author: Raymond A. Serway, John W. Jewett

Publisher: Cengage Learning

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Chapter 2, Problem 45P

(a)

To determine

The time difference between I and O reaching the head of the snake.

(b)

To determine

The speed with which O must run to reach the end of the snake at the same time as I.

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Chapter 2, Problem 44P

Chapter 2, Problem 46P

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