Explanation Given: Time is “t” Position of the vector of the particle “R” R ( t ) = ( 2 cos t ) i + t 2 j + ( 2 sin t ) k , t = π 2 Calculation: Let’s consider the position of the vector, R ( t ) = ( 2 cos t ) i + t 2 j + ( 2 sin t ) k , t = π 2 Calculation of the velocity of the particle, V = d R ( t ) d t = d d t ( ( 2 cos t ) i + t 2 j + ( 2 sin t ) k ) = ( − 2 sin t ) i + 2 t j + ( 2 cos t ) k The velocity of the particle, when t = π 2 , V ( π 2 ) = ( − 2 sin t ) i + 2 t j + ( 2 cos t ) k = ( − 2 sin ( π 2 ) ) i + 2 ( π 2 ) j + 2 cos ( π 2 ) 3 k = − 2 i + π j So the velocity is, ( − 2 i + π j ) Now, calculation the acceleration of the particle is, A = d V ( t ) d t = d d t ( ( − 2 sin t ) i + 2 t j + ( 2 cos t ) k ) = ( − 2 cos t ) i + 2 j − 2 sin t k At the time of t = π 2 , the acceleration of the particle is, A ( π 2 ) = ( − 2 cos t ) i + 2 j − 2 sin t k = − 2 ( cos ( π 2 ) ) i + 2 j − 2 ( sin ( π 2 ) ) k = 2 j − 2 k So, the acceleration is 2 j − 2 k The speed of the particle is,

7th Edition

ISBN: 9781524916817

Author: SMITH KARL J, STRAUSS MONTY J, TODA MAGDALENA DANIELE

Publisher: Kendall Hunt Publishing

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Chapter 10.2, Problem 18PS

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To calculate: the particle’s velocity and acceleration vectors, the speed and the motion for the given value is to be determined.

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Chapter 10.2, Problem 17PS

Chapter 10.2, Problem 19PS

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the particle’s velocity and acceleration vectors , the speed and the motion for the given value is to be determined.

Solution Summary: The author calculates the particle's velocity and acceleration vectors, the speed and motion for the given value.

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To calculate: the particle’s velocity and acceleration vectors, the speed and the motion for the given value is to be determined.

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Chapter 10 Solutions