Circular motion of a road curve

AI Thread Summary
The discussion revolves around calculating the maximum speed a 1500kg rubber-tired car can take on a banked highway curve with a radius of 70m and a 15-degree angle. The initial approach using the formula mv^2/r = umgcos15 was deemed incorrect, prompting a deeper analysis of the forces involved, particularly the need to decompose the normal force (Fn) and frictional force (Ff). The correct method involves equating the net force to the centripetal force and considering the horizontal components of both Fn and Ff. Despite attempts to solve the problem, confusion remains regarding the correct application of the equations, leading to varied results, including values that do not align with the expected answer of 34.5m/s. The discussion emphasizes the importance of accurately decomposing forces to arrive at the correct solution.
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Homework Statement


A concrete highway curve of radius 70m is banked at a 15 degree angle.

What is the max speed with which a 1500kg rubber-tired car can take this curve without sliding?2. The attempt at a solution
Concrete and rubber Uk= 0.8

I tried mv^2/r = umgcos15, but that's not correct. I think I am missing mgsin15, but how should i apply to it? The answer is 34.5m/s

Thanks
 
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Assuming by sliding the question means skidding outside the circle (if its the opposite simply reverse what I am about to show you) this is how you'd go about itWe know Fnet=MAc

What we also know is that MAc is comprised of every vector in the direction of the center. Meaning you must decompose your Fn. Find the Horizontal value for Fn and equate Fnet to Fn + Ff. That is again equated to MAc

We know Fnet = Mv2/R and Fn + Ff = MV2/R

We have all variables except for V. Isolate V and solve.

Note: FF = UkFN

EDIT- Sorry, my mistake. I forgot to add in you must decompose your Ff as well. Since FF is going down the slope you decompose it into vertical and horizontal values.

Do the exact same for your Fn (Get Fn Via decomposing your FG). Take the Horizontal component of FF

So Fn(H) - FF(h) = MV^2/R if the sliding means down. FN + FF if it means up. Sorry about that. Use Sin/Cost/Tan to get the horizontal value for FF.

Also note FF= UKFN. So find that first, than decompose, and that's the FF you use in the above equation. Once gain sorry.
 
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Were you able to get 34.5m/s?? Because I still can't. Maybe I'm not fully understand your solution.
 
2RIP said:
Were you able to get 34.5m/s?? Because I still can't. Maybe I'm not fully understand your solution.

I never actually did the question. But that's the solution set if the Ff is keeping the car from skidding outside. If by sliding the question means sliding down the ramp than the Fnet= Fn(H) H= horizontal - Ff = MV^2/R. Try that.
 
Ok, i tried

mgsin(x) - umgcos(x) = mv^2/r

It does not work because you'd have to squareroot a negative. But after ignoring it, the value is only 18.77.

I tried takiing nsin(x) = mg, then n=mg/sin(x)

So,

mg/sin(x) - umgcos(x) = mv^2/r

But the answer is larger than 34.5m/s.
 
Sorry, my mistake. I forgot to add in you must decompose your Ff as well. Since FF is going down the slope you decompose it into vertical and horizontal values.

Do the exact same for your Fn (Get Fn Via decomposing your FG). Take the Horizontal component of FF

So Fn(H) - FF(h) = MV^2/R if the sliding means down. FN + FF if it means up. Sorry about that. Use Sin/Cost/Tan to get the horizontal value for FF.

Also note FF= UKFN. So find that first, than decompose, and that's the FF you use in the above equation. Once gain sorry.
 
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