Kinematics - How fast does the car stop?

AI Thread Summary
A car traveling at 32.0 m/s experiences an acceleration of -3.50 m/s² when the driver brakes. To determine how far the car travels before stopping, the final velocity (vf) is 0 m/s and the initial velocity (vi) is 32 m/s. The time taken to stop is calculated as approximately 9.14 seconds. The correct formula to find the distance traveled is d = 0.5(vi + vf)t, resulting in a distance of about 146.24 meters. The solution emphasizes the importance of using the appropriate kinematic equation for varying speeds.
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Kinematics -- How fast does the car stop?

Homework Statement


A car is moving with a speed of 32.0 m/s. The driver sees an accident ahead and slams on the brakes, giving the car an acceleration of -3.50 m/s2. How far does the car travel after the driver put on the brakes before it comes to a stop?

vi=32 m/s

vf=

t=

a=-3.5 m/s2

delta-x=



Homework Equations





The Attempt at a Solution


How would this problem be solved? Does it require two steps?

Is Vf=0m/s and Vi= 32 m/s?

Because if that's the case, wouldn't I use the formula a=vf-vi/t

So:

-3.5 m/s2=(0 m/s - 32 m/s)/t

-3.5 m/s2 = (-32 m/s)/t

t= -32 m/s/-3.5 m/s2

t= 9.14 s

Then to find distance, use s=d/t, rearrange as d=s*t

d=32 m/s*9.14 s

d=292 m
 
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Your "t" is correct, but your "d" is not. d=s*t is valid only when you have a constant s (rate), which is not the case here-- s is decreasing. Pick a relevant kinematic equation and you will be home free.
 
d=0.5(vi+vf)*t
d=0.5(0 m/s + 32 m/s)*9.14 s
d=146.24 m
 
Looks good. Watch your significant digits.
 

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