Show your complete solution.Use 3 decimal places throughout your solution and express final answers in 3 decimalplaces. Answers with wrong units will not be considered.Box or highlight your final answers. 1. The motion of a particle is defined by the relation s =t* + 2t³ – 72t² + 280t – 22 ,where s and t are expressed in meters and seconds respectively. Determine thetime, the position, and the velocity when acceleration, a = 0.

motion of the particle s=t4+2t3-72t2+280t-22.................1we know…

1. The motion of a particle is defined by the relation s =t* + 2t³ – 72t² + 280t – 22 , where s and t are expressed in meters and seconds respectively. Determine the time, the position, and the velocity when acceleration, a = 0.

1. The motion of a particle is defined by the relation s =t* + 2t³ – 72t² + 280t – 22 , where s and t are expressed in meters and seconds respectively. Determine the time, the position, and the velocity when acceleration, a = 0.

Engineering Fundamentals: An Introduction to Engineering (MindTap Course List)

5th Edition

ISBN:9781305084766

Author:Saeed Moaveni

Publisher:Saeed Moaveni

Chapter6: Fundamental Dimensions And Units

Section: Chapter Questions

Problem 46P

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Show your complete solution.
Use 3 decimal places throughout your solution and express final answers in 3 decimal
places. Answers with wrong units will not be considered.
Box or highlight your final answers.

1. The motion of a particle is defined by the relation s =t* + 2t³ – 72t² + 280t – 22 ,
where s and t are expressed in meters and seconds respectively. Determine the
time, the position, and the velocity when acceleration, a = 0.

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