Negative value when calculating the distance

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A 1000 kg car traveling at 25 m/s skids to a stop due to braking, with a coefficient of friction of 0.95. The formula for distance to stop involves acceleration, which is negative due to deceleration. The calculation shows that the distance required to stop is 33.6 meters, correcting the initial negative value derived. Proper notation and understanding of negative acceleration clarify the solution. The final answer for the stopping distance is confirmed as 33.6 meters.
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A 1000 kg car traveling rightward at 25 m/s slams on the breaks and skids to a stop (with locked wheels). Find the distance required to stop it. Coefficient of friction between the tires and the road is 0.95. Let g=9.8 m/s^2

Solution:
2aΔx=vf2- vo2
a=µg
2 µg Δx=vf2- vo2
vf=0
2 µg Δx=- vo2
Δx=- vo2/2 µg
Δx=-252/(2×0.95×9.8)
Δx=-33.6 m

The answer became -33.6 m. Why is the value negative? The correct answer is 33.6. Thank you in advance!
 
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The acceleration is negative, a=-µg.

ehild
 
If I have understood this correctly, the solution should be this:

2aΔx=vf2- vo2
a=-µg
2 -µg Δx=vf2- vo2
vf=0
2 -µg Δx=- vo2
Δx=- vo2/2 -µg
Δx=-252/(2×-0.95×9.8)
Δx=33.6 m
 
To denote power, use "^". Use parentheses when multiplying with a negative number. 2 -µg Δx means subtraction. Correctly: 2(-µg)Δx or -2µg Δx. And 25^2=625.

Written correctly your derivation, it looks :

2aΔx=vf^2- vo^2
a=-µg
2 (-µg) Δx=vf^2- vo^2
vf=0
2 (-µg)Δx=- vo^2
Δx=- vo^2/(-2µg)
Δx=-625/(2×(-0.95)×9.8)
Δx=33.6 m

ehild
 
Thank you very much ehild! I understand now.
 

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