Suppose the velocity vx of a certain car at any time is given by the following equation: vz(t) = 60.m/s + (0.50m/s³)t² (a) Does this equation incorporate Jerk? yes (b) Find the change in velocity of the car in the time interval between t1 = 1.0s and t2 = 3.0 s. 62 m/s (c) Find the average acceleration in this time interval. 31 m/s^2 (d) Is the car accelerating or decelerating? accelerating (e) Find the instantaneous acceleration at time t1 = 1.0 s by taking At to first be 0.1 s, then 0.01 s, then 0.001 s. What is your conclusion for the instantaneous acceleration at t1 = 1.0 s? type your answer....

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Chapter1: Units, Trigonometry. And Vectors
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Suppose the velocity vx of a certain car at any time is given by the following equation:
v₂ (t) = 60.m/s + (0.50m/s³)t²
(a) Does this equation incorporate Jerk? yes
(b) Find the change in velocity of the car in the time interval between t1 = 1.0 s and t2 = 3.0 s. 62 m/s
(c) Find the average acceleration in this time interval. 31 m/s^2
(d) Is the car accelerating or decelerating?
accelerating
(e) Find the instantaneous acceleration at time t1 = 1.0 s by taking At to first be 0.1 s, then 0.01 s, then 0.001 s. What is your conclusion for the
instantaneous acceleration at t1 = 1.0 s?
type your answer...
Transcribed Image Text:Suppose the velocity vx of a certain car at any time is given by the following equation: v₂ (t) = 60.m/s + (0.50m/s³)t² (a) Does this equation incorporate Jerk? yes (b) Find the change in velocity of the car in the time interval between t1 = 1.0 s and t2 = 3.0 s. 62 m/s (c) Find the average acceleration in this time interval. 31 m/s^2 (d) Is the car accelerating or decelerating? accelerating (e) Find the instantaneous acceleration at time t1 = 1.0 s by taking At to first be 0.1 s, then 0.01 s, then 0.001 s. What is your conclusion for the instantaneous acceleration at t1 = 1.0 s? type your answer...
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