Amusement Park ride - maximum period of rotation

AI Thread Summary
The discussion centers on calculating the maximum period of rotation for a person inside a rotating drum without falling, given a radius of 2.8m and a coefficient of friction of 0.35. Participants clarify the directions of forces acting on the person, noting that the normal force (Fn) is not always opposite to the gravitational force (Fg) and can act in conjunction with the centripetal force (Fc). The correct approach involves equating the frictional force (Ff) to the gravitational force to find the period of rotation. It is emphasized that the normal force is perpendicular to the surface while the frictional force is parallel. Understanding these force interactions is crucial for solving the problem accurately.
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Homework Statement



A 2.8m radius drum (cylinder) rotates such that a person does not fall when the "floor" falls away (imagine the person being pushed against the inside wall of the cylinder, with no bottom to the cylinder)

If the coefficient of friction between the person and the wall is 0.35, what is the maximum period of roation so that a personw ill not fall?

Homework Equations



Fg= mg
Ff=uFn

Fc = m4r(pi^2)/T^2
where T is period


The Attempt at a Solution



I am confused with the directions of the forces. Fg will go down the inside wall, Fc is going inwards to the center, and Fn ...? But, Fn should = Fg, so Ff = umg

Then I thought to equate this umg to Fc, and solve for T but I don't get the correct answer, which is 2.0s

THanks,
 
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One way which I arrived at the right answer, was to start by setting Ff=Fg, and then setting Fn =Fc, but I am not sure if my reasoning for these directions is correct. In doing this, I got Fn= mg/u which ended up giving me the correct period. So Fn isn't always opposite in direction of Fg? IS it the case that Ff is always parallel to the surface and Fn perpendicular?

THanks
 
avsj said:
I am confused with the directions of the forces. Fg will go down the inside wall, Fc is going inwards to the center, and Fn ...?
Realize that the normal force is the centripetal force.

avsj said:
One way which I arrived at the right answer, was to start by setting Ff=Fg, and then setting Fn =Fc, but I am not sure if my reasoning for these directions is correct. In doing this, I got Fn= mg/u which ended up giving me the correct period.
This is correct.
So Fn isn't always opposite in direction of Fg?
That's right. Fn is the force between two surfaces, in this case the person and the wall. (You might be thinking of the more typical case of a person on the ground.)

IS it the case that Ff is always parallel to the surface and Fn perpendicular?
This is true.

What might be helpful is to identify the actual forces acting on the person. I count three forces. (Note: "Centripetal Force" doesn't count--specify the actual forces that provide the centripetal force. Centripetal just means "toward the center".)
 
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