How Far Will a Car Travel Before Stopping Without ABS at 115.2 km/h?

AI Thread Summary
When a 1000kg car traveling at 115.2 km/h with its ABS disabled encounters a deer 50 meters ahead, the frictional force during braking is 4000N. The calculated acceleration is -5.8 m/s², which leads to confusion regarding the stopping distance. The correct approach involves using the equation Sum of Forces = -Fbrakes = ma to determine the acceleration accurately. The discussion highlights the importance of showing calculation steps for better assistance. Ultimately, understanding the forces at play is crucial for solving the stopping distance problem effectively.
David Donald
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Homework Statement



While traveling on the highway with your 1000kg car, at 115.2 km/h, where you’re ABS (automatic

braking system) is disabled. This means braking is relying solely on the friction of your tires with the road when they stop spinning. A dear jumps into the road 50 meters in front of you. If the frictional force created by you slamming on your brakes is 4000N. What will your final stopping distance be? Will you

hit the dear? Assume no air resistance.

Homework Equations



Kinematics?

The Attempt at a Solution


Sum of Forces in The X direction
(Force O' Car) - (Force O' Friction) = -ma

I solved for acceleration and got -5.8 m/s^2
plugging these into the kinematics equation I got a time... 5.52 seconds
plugging that into the Xf = Xo + Vox t + 1/2 a t^2 I got a distance which is wrong

what gives? what am i doing wrong?
 
Physics news on Phys.org
Your acceleration is wrong. Please show your calculation steps so we can provide more targeted assistance.
 
When someone tells you, "Be a dear," they don't mean for you to drop down on all fours while wearing a hat rack on your head. :rolleyes:

"Deer" is the animal which jumps out in front of the car. :wink:
 
Ok... So I am not able to get to the same acceleartion I was getting before so now I'm really confused

Since the only thing acting on the car when its stopping is the breaking force would it be

Sum Fx = -Fbrakes = ma ?
 
That's right.
 

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