Hard word prob involving cars (HELP ME)

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SUMMARY

The problem involves two vehicles, A and B, both traveling at 110 km/h, with vehicle A trailing vehicle B by 25 meters. Vehicle B begins emergency braking at an acceleration of 5.0 m/s² for 2.0 seconds, during which vehicle A is distracted. After 2.0 seconds, vehicle A takes an additional 0.4 seconds to react before also braking at 5.0 m/s². The separation between the two vehicles when A resumes attention is calculated to be 15 meters, and the speed of vehicle A upon impact with vehicle B is determined to be 26.7 m/s.

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  • Understanding of kinematics, specifically equations of motion.
  • Familiarity with relative motion concepts.
  • Knowledge of unit conversions, particularly between km/h and m/s.
  • Ability to visualize problems using diagrams for better comprehension.
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  • Study kinematic equations for uniformly accelerated motion.
  • Learn how to convert speeds from km/h to m/s accurately.
  • Practice problems involving relative motion in collision scenarios.
  • Explore graphical methods for solving physics problems, including drawing motion diagrams.
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themadperseid
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Ok, here is the prob.

You are arguing over a cell phone while trailing an unmarked police cruiser by 25m; both you and the cruiser are traveling at 110km/h. Your argument diverts your attention from the police cruiser for 2.0s (long enough to look at the phone and yell "I won't do that!"). At the beginning of the 2.0 s, the cop begins emergency braking at 5.0 m/s^2. (a) What is the separation between the two cars when your attention finally returns, assuming it takes you another .4s to realize the danger and start braking. (b) If you too brake at 5.0 m/s^2, what is your speed when you hit the cruiser.

I have tried this, but we just began learning about this type of problem, and all my answers make no sense. the answers I should get are 15m, and 26.7m/s for a and b respectivly. CAN SOMEONE EXPLAIN TO ME HOW YOU GET THESE?

Thanks,
Chris:confused:
 
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So, to make sure I got the problem right:
There are two cars, A and B. A is behind B by 25 meters, and they both travel at 110 km/h (when t = 0). B starts braking with an acceleration of 5,0 m/s2. (a) How close are the cars at t = 2,0 s? (b) At t = 2,4 s, A starts decelerating 5,0 m/s2. At what speed will A hit B?

I bolded the t = 2,0 s part, as that is the asked instant (supposing I understood the question correctly).
For (a), I'll give you another tip: only relative motion counts.
(b) First, I'd solve the instant when the cars hit.
 
Maybe you've done this already, but it usually helps a lot to draw out a picture of the problem (draw cars as blocks a certain distance apart, label the velocities, etc) to help visualize things.
 

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