Solving Kinematic Problems: Police Car Skid Marks

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The discussion revolves around solving a kinematic problem involving a police car's skid marks, which are 200 meters long, and a constant deceleration of 20 m/s². Participants utilize the physics equation v² = u² + (2as) to find the initial speed (Vi) of the car when the brakes were applied, arriving at a speed of approximately 89.4 m/s. Integration is also explored as a method to solve the problem, confirming that the average speed concept can be applied due to constant acceleration. The calculations demonstrate that both methods yield consistent results, reinforcing the understanding of kinematic equations. The conversation highlights the relationship between distance, acceleration, and initial velocity in motion problems.
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Kinematic problems!

hi there,here is my problem

The police observe that the skid marks of a stopping car are 200m long. Assuming the car decelerated at a constant rate of 20m/s^2,skidding all the way, how fast was the car going when the brakes were applied?

i think we can solve the problem by using the physics equation v^2=u^2+(2*(a*s))...and
i try to use integration but the time interval isn't given so i am just looking for an alternative way to solve this problem...by the way ,this is a calculus assignment.

thx
 
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Im getting Vi as 88.5 m/s
 
yes i got 89 something too...but i just wonder if this problem can be done by integration?

but thanks anyway
 
Last edited:
http://home.comcast.net/~rossgr1/Math/skidding.PDF is a solution which uses integration. It starts with the basic fact that this is a problem with a constant acceleration and integrates the basic differential equation to arrive at the solution.
 
Last edited by a moderator:
thx integral it really help! :) thanks a lot
 
Because this is a constant acceleration problem (so that the velocity function is linear), you can use the "average" velocity.

Let v be the initial speed. Of course, the ending speed is 0 so the "average" speed, the average of those two numbers, is v/2.

Letting t be the (unknown) time required to stop, the distance is
(v/2)t= 200 m.

And we do know the time- in a sense. At an acceleration of -20 m/s^2, to go from v to 0 requires (since 0= v- 20t) v/20 sec.

Putting that into (v/2)t= 200 gives v^2/40= 200 or v^2= 8000.

v= [sqrt](8000)= [sqrt](1600*5)= 40[sqrt](5)= 89.4 m/s

If you're not really sure about that "average" speed, here's the standard way:

With acceleration a, the distance traveled is d= (a/2)t^2+ vt.
(You could say we use integration to get that.)

In this problem, -10t^2+ vt= 200.

Again, since the time taken to slow from v to 0 with acceleration
-20 m/s^2 is v/20 sec., we have (-10)v^2/400+ v^2/20= 200.
That is, -v^2/40+ v^2/20= v^2/40= 200 so v^2= 8000 again.
 

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