Can You Calculate the Reaction Time Needed to Avoid a Deer at 18 m/s?

AI Thread Summary
A motorist traveling at 18 m/s must calculate the reaction time needed to avoid hitting a deer 38 m ahead, with a maximum negative acceleration of -4.5 m/s². The correct approach involves using kinematic equations to determine the stopping distance and the time required to decelerate. The solution indicates that the required reaction time is approximately 0.1111 seconds. Participants in the discussion emphasize the importance of correctly applying the equations and understanding the relationship between distance, velocity, and acceleration. Ultimately, the problem can be solved by breaking it into steps to account for both stopping distance and reaction time.
meggy8716
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A motorist is traveling at 18 m/s^2 when he sees a deer 38 m ahead. If the maximum negative acceleration is -4.5 m/s^2, what is the reaction time (delta t) of the motorist that will allow him to avoid hitting the deer? Answer in units of 's'.

I tried using x(t)=x0+v0t+1/2at^2 and it didn't work out for me. I know the answer is supposed to be 0.1111 s and I can't get this no matter what I try. help!
 
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trying using v = u +at and s = 0.5( u+v) t
and 0.1111s actually is 1/9 or 2/18 or ...
 
Mjsd...that makes sense to me except I don't understand why 's' is equal to '1'?? Also, in the s = 0.5 (u+v)t equation I would think that acceleration should be used somewhere in the equation since that is how fast it is decelerating.
My original idea was the use the equation I mentioned above and then use the quadratic equation to get the answer, but that didn't work out so well.
 
Please don't double, triple post the same question.
 
firstly, let's remember that there are many ways to do the same problem. My way is to do it in two steps. By the way the equations I listed are correct, the second one is just: distance traveled = av. speed x total time.

Logic: how long does it take to stop from initial speed assuming the full -4.5m/s^2, then in that time how far the vehicle will travel, then what's left for reaction time? etc...
 

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