The position of a particle which moves along a straight line is defined by the relation: x = "w"t³ — "x"t² — "y"t + "z", where x is expressed in feet and t in seconds. Determine: A. Time at which the velocity will be zero B. The position and displacement achieved by the particle at that time C. Acceleration of the particle at that time
The position of a particle which moves along a straight line is defined by the relation: x = "w"t³ — "x"t² — "y"t + "z", where x is expressed in feet and t in seconds. Determine: A. Time at which the velocity will be zero B. The position and displacement achieved by the particle at that time C. Acceleration of the particle at that time
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Transcribed Image Text:Problem #5
The position of a particle which moves along a straight line is defined by the
relation: x = : "w"t³ — "x"t² — "y"t + "z", where x is expressed in feet and t in
seconds. Determine:
A. Time at which the velocity will be zero
B. The position and displacement achieved by the particle at that
time
C. Acceleration of the particle at that time
D. Draw the x-t, v-t, and a-t diagram
SID: 2018- abcdef w=2(a + b)
x = c + d
y = 3(e + f)
z = d+f
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