Not sure how to get part B. Part AAn object is moving along the a-axis. At t = 0 it hasvelocity vor = 19.0 m/s. Starting at time t = 0 it has accelerationaz = -Ct, where C has units of m/s.What is the value of C if the object stops in 8.00 s after t = 0?C = 0.594 m/sSubmitPrevious AnswersCorrectPart BFor the value of C calculated in the previous part, how far does the object travel during the 8.00 s?Express your answer with the appropriate units.HA?x - xo =ValuemSubmitPrevious Answers Request Answer

Name: Not sure how to get part B. Part AAn object is moving along the a-axis
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Description: Not sure how to get part B. Part AAn object is moving along the a-axis. At t = 0 it hasvelocity vor = 19.0 m/s. Starting at time t = 0 it has accelerationaz = -Ct, where C has units of m/s.What is the value of C if the object stops in 8.00 s after t

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Part A An object is moving along the -axis. At t = 0 it has velocity vor = 19.0 m/s. Starting at time t = 0 it has acceleration az = -Ct, where C has units of m/s. What is the value of C if the object stops in 8.00 s after t = 0? C = 0.594 m/s³ Submit Previous Answers v Correct Part B For the value of C calculated in the previous part, how far does the object travel during the 8.00 s? Express your answer with the appropriate units. HA ? * - 20 = Value Submit Previous Answers Request Answer

Part A An object is moving along the -axis. At t = 0 it has velocity vor = 19.0 m/s. Starting at time t = 0 it has acceleration az = -Ct, where C has units of m/s. What is the value of C if the object stops in 8.00 s after t = 0? C = 0.594 m/s³ Submit Previous Answers v Correct Part B For the value of C calculated in the previous part, how far does the object travel during the 8.00 s? Express your answer with the appropriate units. HA ? * - 20 = Value Submit Previous Answers Request Answer

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter4: Motion In Two And Three Dimensions

Section: Chapter Questions

Problem 82AP: A race car entering the curved part of the track at the Daytona 500 drops its speed from 85.0 m/s to...

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