Angular Velocity/Motion Question

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A bead of mass m slides on a frictionless ring of radius 0.5 meters, rotating with an angular velocity of 6 rad/sec. The problem involves determining the angle θ with the vertical that the bead makes. The discussion highlights the importance of drawing a free body diagram to identify forces acting on the bead, including gravitational force and normal reaction. Through trigonometric relationships and the equations of motion, the solution leads to the conclusion that θ equals 61 degrees, corresponding to answer choice B. The conversation emphasizes the need to differentiate between the radius of the ring and the radius of motion for accurate calculations.
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Homework Statement



A bead of mass m is free to slide along a frictionless ring of radius R=.5 meters that rotates about the vertical axis with angular velocity ω=6 rad/sec as shown below. What angle θ with the vertical will the bead make?

The answer choices are:
(A) 90
(B) 61
(C) 56
(D) 34
(E) 29

This is from the Physics C Mechanics: Sample Exam III.

Homework Equations



I have no idea.

The Attempt at a Solution



I don't know where to start.
 

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Try to make Free body diagram , with all the forces
 
Okay, I did. I have an Fc pointing in, and an mg pointing down, but I'm still not seeing it.
 
see there will mg (weight )going downward and a normal reaction ,
then you take components of Normal reaction and solve :D
 
Here is the figure
 

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ohh. okay. so we can use wr=v, and when Fn is mg, that way when we set up, the masses cancel, and we can solve for v. Thanks!
 
but remember in v=rw r is the radius of the motion of particle not the ring :O
 
oh. that's the d in your diagram. So the two radii are different. So how do I get this d?
 
simple trigo rsin(theta)= d
 
  • #10
but we don't have ø?
 
  • #11
I tried working it out multiple times, but no matter how I do it, with your d or without it, the fraction at the end never falls in the domain for the sin-1. Can you write out what you would do? Thanks for all your help so far, in my other posts too.
 
  • #12
Oh wait a minute, I think I got it. Perhaps d=rcosø? If so, then at the end, tan-1((w2r)/g)=ø=61, choice B.
 
  • #13
Yea , good going :)
 

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