Newton's Laws with Friction; Inclines

AI Thread Summary
A car can decelerate at -4.80 m/s² on a level road due to static friction. When the road is inclined at 13 degrees uphill, the maximum deceleration must account for both the static friction and gravitational forces. The normal force is adjusted for the incline, allowing the calculation of the static friction coefficient (µs) as approximately 0.4897. Using this value, the maximum deceleration on the incline can be determined by applying Newton's second law, resulting in a deceleration of about -6.87 m/s². The discussion emphasizes the importance of distinguishing between static and kinetic friction in these calculations.
rvnt
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Homework Statement



A car can decelerate at -4.80m/s^2 without skidding when coming to rest on a level road. What would its deceleration be if the road were inclined at 13degrees uphill? Assume the same static friction coefficient.

Homework Equations


Ffr=µkFN


The Attempt at a Solution


I am having lots of trouble with friction related problems when the coefficient of static or kinetic friction is involved! But I was thinking...F=ma... F=m(-4.80)...
Ffr=µkFN= -4.8m=µk(9.80)...really not sure with these types..please help
 
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rvnt said:
But I was thinking...F=ma... F=m(-4.80)...
Ffr=µkFN= -4.8m=µk(9.80)...really not sure with these types..please help
You're on the right track for finding µs. (Note that it's static friction, not kinetic.)

Ff = ma
µsN = ma

What's the normal force, N? Then you can solve for µs.

Note that we're assuming the car is accelerating as quickly as possible without skidding, so it's the maximum value of static friction that we want.
 
Ffr=ma
µsN=ma
µsmg=ma
µs=4.8/9.80=0.4897? Than Sin(13degrees)*0.4897...??
 
rvnt said:
Ffr=ma
µsN=ma
µsmg=ma
µs=4.8/9.80=0.4897?
Good.
Than Sin(13degrees)*0.4897...??
No.

Now you have to use what you've found for µs to solve a new problem: what would the car's maximum acceleration be (without skidding) if it were going up that hill? Identify the forces and apply Newton's 2nd law.
 
µk(mgCos13deg)+mgSin13deg=a
(0.489)(9.8Cos13deg)+(9.8)(Sin13deg)=a
4.669+2.2045=6.87??
 
rvnt said:
µk(mgCos13deg)+mgSin13deg=a
(0.489)(9.8Cos13deg)+(9.8)(Sin13deg)=a
4.669+2.2045=6.87??

Looks good, except that it's µs because it's static friction and it's negative because it is deceleration.
 

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