Stressed-out girl needs help w/ physics

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Homework Help Overview

The problem involves a car traveling at a constant speed and the need to determine the maximum reaction time of the motorist to avoid hitting a cow on the road. The context is rooted in kinematics, specifically dealing with constant acceleration and deceleration.

Discussion Character

  • Exploratory, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • Participants discuss various methods to approach the problem, including integration and the use of kinematic equations. There are questions about the correctness of the provided values and the necessity of integration versus direct application of kinematic principles.

Discussion Status

The discussion has seen multiple interpretations of the problem, with some participants suggesting that the original poster's values may be incorrect. There is a mix of exploratory reasoning and attempts to clarify the assumptions involved in the calculations. One participant expresses gratitude for assistance, indicating some progress in understanding.

Contextual Notes

There is mention of specific answer choices provided by the teacher, which may influence the approach taken by participants. The original poster insists on the correctness of their values, leading to further questioning of the problem setup.

elizabethg
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Hello, I need help on this problem...

A car is traveling at a constant speed of 18.0 m/s, when the motorist sees a cow in the road 38.0 m ahead. If the maximum acceleration of the vehicle is -4.50 m/s^2, what is the maximum reaction time fo the motorist that will allow her to avoid hitting the cow?

I have tried many different ways. I was thinking you would use an integral from 0 to x because you want to find the maximum reaction time. The equation I thought to integrate was -38+18t+.5(-4.5)t^2 which, of course, was wrong. Please help!
 
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The motorist must stop within a time of 38/18, since this is how long it will take her to cover 38 meters. The minimum time it will take her to stop occurs when she deaccelerates at a constant -4.50 until the car stops. The maximum reaction time will be the difference of these two times. Using your numbers, I find that her minimum stop time exceeds the time she is allotted (38/18). Are you sure all the values are correct?
 
All my values are correct, but i thought you would integrate it or something, the answers our teacher gave us to choose from were .0251, .111, .360, .521, .684. i thought you would just plug those numbers in. I am not really sure.
 
I believe my method is correct and see no reason for integration (assuming you already have the derived basic kinematic equations). I suspect one of your given values is incorrect. It's possible the teacher may have made a mistake for one of the numbers.
 
elizabethg said:
All my values are correct, but i thought you would integrate it or something, the answers our teacher gave us to choose from were .0251, .111, .360, .521, .684. i thought you would just plug those numbers in. I am not really sure.

If the car decelerates uniformly from 18.0 ms^-2 to 0 ms^-2 it will cover a distance of [itex]\Delta x=\frac{v^2 - u^2}{2a}[/itex] or 36 m. That means the car may travel an allowable distance of 2 m before the driver hits the brakes. Therefore, at a velocity of 18 ms^-1, the allowable reaction time is 0.111 s.
 
thank you, but i figured it out already, it just took me some time, i truly appreciate it from the bottom of my heart that you would take your time to help me. thank you
 

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