Police Question: How Far Does a Speeder Get Before Being Overtaken?

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A speeder traveling at 30.0 m/s passes a parked police car, which starts from rest and accelerates at 2.44 m/s². The time it takes for the police car to overtake the speeder is calculated to be 24.6 seconds, during which the speeder covers a distance of 738 meters. To solve the problem, the equations of motion are applied, specifically using the formula for final velocity and integrating for distance. The discussion highlights the need to set up a quadratic equation to find the time when both vehicles are at the same position. The overall approach emphasizes the importance of understanding kinematic equations in solving such problems.
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Police Question...

Question:

A speeder passes a parked police car at 30.0 m/s. The police car starts from rest with a uniform acceleration of 2.44 m/s^2.

a) How much time passes before the speeder is overtaken my the police car? Ans: 24.6 s

b) How far does the speeder get before being overtaken by the police car?
Ans: 738 m

My Questions/Work:

To the best of my knowledge, we know the following...

Cop Vi: 0.0 m/s
Cop Accel: 2.44 m/s2
Spdr V: 30 m/s

a) Formula: Vf = Vi + AT ?

What should I use as the Cop's Final Velocity?
 
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I presume you were given those answers...

From the formula you give v=u+at, you need to integrate to get one for distance s=ut+at^2/2.

You can then equate this formula using the data for both cars - it will be a quadratic with 2 solutions - one for the time when the cars are together at t=0 and the other for the time when they catch up.

When you've got this time, the distance is easily found using the formula again.

I haven't done this since school - it was a struggle remembering the method :biggrin:
 

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