A race car moves such that its position fits the relationship x = (4.0 m/s)t + (

Question

A race car moves such that its position fits the relationship

x = (4.0 m/s)t + (0.80 m/s3)t3

where x is measured in meters and t in seconds.

(a) A plot of the car's position versus time is which of the following?

(b) Determine the instantaneous velocity of the car at

t = 4.5 s,

using time intervals of 0.40 s, 0.20 s, and 0.10 s. (In order to better see the limiting process keep at least three decimal places in your answer.)

t = 0.40 s

t = 4.30 s

t = 0.20 s

t = 4.40 s

t = 0.10 s

t = 4.45 s

(c) Compare the average velocity during the first 4.5 s with the results of part (b).

The average velocity of  m/s is  ---Select--- much less than about the same as much greater than the instantaneous velocity.

Explanation / Answer

C) we know that how a average velocity of m/s is much lesser than about the same as much greater than the instantaneous velocity average speed of a particle in a given time is never less than magnitude of average velocity.

Then we see that, it is possible to have a situation where

|dv/dt| is not equal to zero but d|v|/dt =0

the average velocity of a particle is zero in a time interval. it is possible that the instantaneous velocity is never zero in that interval.

D)the average velocity of a particle moving along a straight line is zero in a time interval. it is possible that the instantaneous velocity is never zero in that interval. We will exaplain in detail that :The average velocity is displacement /time but average speed is distance/ time. Since distance is always greater than or equal to displacement, it is evident that average speed is either equal to or greater than average velocity

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