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b. The motion of a particle is defined by the elation x=t^(2)-(t-2)^(3) , where x is in meters and t is in seconds. i. Determine
b. The motion of a particle is defined by the elation
x=t^(2)-(t-2)^(3)
, where
x
is in meters and
t
is in seconds.\ i. Determine when the velocity is zero\ ii. The total distance traveled from
t=0
to
t=4s
.\ iii. The average acceleration of the particle from
t=1
to
t=4s
.
b. The motion of a particle is defined by the elation x=t2(t2)3, where x is in meters and t is in seconds. i. Determine when the velocity is zero ii. The total distance traveled from t=0 to t=4s. iii. The average acceleration of the particle from t=1 to t=4s. b. The motion of a particle is defined by the elation x=t2(t2)3, where x is in meters and t is in seconds. i. Determine when the velocity is zero ii. The total distance traveled from t=0 to t=4s. iii. The average acceleration of the particle from t=1 to t=4s
b. The motion of a particle is defined by the elation
x=t^(2)-(t-2)^(3)
, where
x
is in meters and
t
is in seconds.\ i. Determine when the velocity is zero\ ii. The total distance traveled from
t=0
to
t=4s
.\ iii. The average acceleration of the particle from
t=1
to
t=4s
.
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