Calculating Distance for a 15 Minute Lead: Kinematics Question Explained

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Two cars are traveling in the same direction at speeds of 55 mi/h and 70 mi/h, respectively. To determine how far the faster car must travel to establish a 15-minute lead, the slower car's distance over 15 minutes is calculated as 13.75 miles. The key realization is that the question asks for the total distance the faster car has traveled when it is 13.75 miles ahead, not just the distance covered in 15 minutes. The correct answer is 64 miles, which accounts for the time it takes the slower car to catch up. Thus, the faster car must cover this distance to achieve the desired lead.
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Homework Statement



Two cars travel in the same direction along a straight highway, one at a constant speed of 55 mi/h and the other at 70.0 mi/h. How far must the faster car travel before it has a 15 minute lead on the slower car?


Homework Equations



average velocity=change of position/change in time

The Attempt at a Solution



Change of position= equals average velocity multiplied by change in time

I need to know what distance the slower car covers in 15 minutes.
55mph*.25h= 13.75 miles. In other words, if the faster car was 13.75 miles ahead, it would take me 15 minutes or .25 hours to catch up.

This is what I think the answer should be, but according to the answer sheet, it's actually 64 miles. What did I miss?
 
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The question is asking how far the faster car has traveled from the beginning. So, how far will the faster car travel overall before it is 13.75 miles ahead of the slower car?
 
Ohhh! So in other words, how much distance has the faster car covered at the point where it is 13.75 miles ahead of the other car?
 
Yes, that's it.
 
Just imagine it is just like a race.
At finishing point, faster car lead by 15 mins.

Let the time taken by faster car as x.
From this it takes slower car additional 15min to reach same distance.

From the time calculated you can find distance travelled(length of the track).
 

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