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A car accelerates with a = 0.01s m/s^2 with sin meters. The car starts at t = 0 at s = 100 m with v = 12 m/s. Determine the speed at s = 420 m and the time to get there.

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Answer:

Part 1) Speed at s = 420 meters =12.26 m/s

Part 2) Time required to cover the distance = 26 seconds

Step-by-step explanation:

This problem can be solved using third equation of kinematics as follows


v^2=u^2+2as

where

'v' is the final velocity

'u' is the initial velocity

'a' is the acceleration of the car

's' is the distance covered between change in velocities

Now during the time at which the car moves it cover's a distance of 420 m-100 m=320 meters

Thus applying values in the above equation we get


v^2=12^(2)+2* 0.01* 320\\\\v^2=150.4\\\\\therefore v=12.26m/s

The time to reach this velocity can be found using first equation of kinematics as


v=u+at\\\\\therefore t=(v-u)/(a)\\\\t=(12.26-12)/(0.01)=26seconds

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