The maximum speed the truck can go without sliding

AI Thread Summary
The discussion revolves around calculating the maximum speed a truck can achieve without a crate of eggs sliding off while rounding a circular bend with a radius of 35 meters. The coefficient of static friction between the crate and the truck is given as 0.6. The calculations involve using the formula for static friction and centripetal force, leading to the equation v=√(μsgr). After substituting the values, the resulting maximum speed is calculated to be 14.35 m/s. A minor correction was noted regarding the terminology used in the explanation.
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Homework Statement


A crate of eggs is located on the back of a truck. The truck rounds a circular bend in the road with radius of 35 meters. If the coefficient of static friction between the crate and the truck is 0.6, what is the maximum speed the truck can go without the crate sliding?

Homework Equations


F=mv2/r
Fs=μsn

The Attempt at a Solution


Hey guys, can you please check my answer for this question, I'm not entirely sure it is correct...

Firstly, I took the normal force of the truck to get n=mg, as it is not moving vertically. This results in the force of static friction (Fs) to be: Fs=μsmg.

Secondly, this static friction is providing the centripetal force of the truck to go around in a circular motion and so resulting in the following equation: Fs=F=mv2/r = μsmg.

So with algebra I made velocity the subject. The masses cancel out leaving: v2/r = μsg and so resulting in v=√(μsgr)

Now I enter the variables v=√(0.6*9.8*35), giving the velocity of 14.35ms-1.
 
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Looks fine to me :)
 
Solution looks ok, however, substitute the word 'truck' with 'crate' in your attempt.
 
PhanthomJay said:
Solution looks ok, however, substitute the word 'truck' with 'crate' in your attempt.

Ahh yes, my mistake many thanks :-p
 
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