The motion of a particle is defined by the relation x=6r*-21³-121² +3t+3, where x and t are expressed in meters and seconds, respectively. Determine the time, the position, and the velocity when a = 0. t=3.667 (s), x = 3.259 (m), v= -8.56 (m/s) O t=2.667 (s), x = 2.259 (m), v= -8.56 (m/s) O t=1.667 (s), x = 1.259 (m), v= -8.56 (m/s) O t=0.667 (s), x = 0.259 (m), v= -8.56 (m/s) O
The motion of a particle is defined by the relation x=6r*-21³-121² +3t+3, where x and t are expressed in meters and seconds, respectively. Determine the time, the position, and the velocity when a = 0. t=3.667 (s), x = 3.259 (m), v= -8.56 (m/s) O t=2.667 (s), x = 2.259 (m), v= -8.56 (m/s) O t=1.667 (s), x = 1.259 (m), v= -8.56 (m/s) O t=0.667 (s), x = 0.259 (m), v= -8.56 (m/s) O
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:The motion of a particle is defined by the relation x=6r*-2³-121² +3t+3, where x and I are expressed in
meters and seconds, respectively. Determine the time, the position, and the velocity when a = 0.
t=3.667 (s), x = 3.259 (m), v= -8.56 (m/s) O
t=2.667 (s), x = 2.259 (m), v= -8.56 (m/s) O
t=1.667 (s), x = 1.259 (m), v= -8.56 (m/s) O
t=0.667 (s), x = 0.259 (m), v= -8.56 (m/s) O
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