Program Explanation Given information: The car starts from noon and reaches at point C that is 35 mi away and the velocity is 60 mi/h . Calculation: The final position is x ( t ) = 35 mi and the velocity is 60 mi/h . The initial velocity is v 0 = 0 . Therefore, the velocity function can be expressed as, d x d t = a t Now, integrate the above equation to obtain the position function. ∫ d x = ∫ a t d t x ( t ) = a t 2 2 + C The car starts from rest therefore the initial position is x 0 = 0 . Now, apply the initial condition of position function as, 0 = a ( 0 ) 2 2 + C C = 0 Therefore, the position function is x ( t ) = a t 2 2 . The velocity function can be expressed as v ( t ) = a t

MyLab Math with Pearson eText -- 24-Month Standalone Access Card -- For Differential Equations and Boundary Value Problems: Computing and Modeling Tech Update

5th Edition

ISBN: 9780134872971

Author: Edwards, C., Penney, David, Calvis

Publisher: PEARSON

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Question

Chapter 1.2, Problem 38P

Program Plan Intro

To calculate: The time to reach from point A to Cwhere the rest point is A and the final point is C.

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Chapter 1.2, Problem 37P

Chapter 1.2, Problem 39P

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Chapter 1 Solutions

MyLab Math with Pearson eText -- 24-Month Standalone Access Card -- For Differential Equations and Boundary Value Problems: Computing and Modeling Tech Update

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Knowledge Booster

The time to reach from point A to Cwhere the rest point is A and the final point is C.

Solution Summary: The author calculates the time to reach from point A to C where the rest point is A and the final point, C, is t=70mins.

To calculate: The time to reach from point A to Cwhere the rest point is A and the final point is C.

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Chapter 1 Solutions