What is the minimum frequency to keep the mass moving?

AI Thread Summary
To determine the minimum frequency required to keep a mass moving in a vertical circle, the equation Fc = m4(pi)^2rf^2 is used, where Fc represents the centripetal force. It's essential to consider gravitational force, as it affects the dynamics at different points in the circle. At the top of the circle, gravity assists in maintaining motion, while at the bottom, centripetal force must overcome gravity. A diagram illustrating these forces can clarify the relationship between them. Understanding these concepts simplifies the problem significantly.
Smartgurl
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Homework Statement


A mass of 2.0 x 10^2 g is tied to a 1.6 m long string and spun in a vertical circle. What is the minimum frequency to keep the mass moving?

Homework Equations


Fc=m4(pie)rf^2

The Attempt at a Solution


I know I have to use this equation and make it equal to another to find Fc however I don't know which other equation.
 
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Well, perhaps this isn't done in outer space but on earth...
 
Smartgurl said:
Fc=m4(pie)rf^2
That equation is not quite right. (And it's spelt pi, not pie.)
 
haruspex said:
That equation is not quite right. (And it's spelt pi, not pie.)
Is the equation Fc = m4(pi)^2rf^2
 
Smartgurl said:
Is the equation Fc = m4(pi)^2rf^2
Yes.
Now what about BvU's point? You need to consider gravity.
 
haruspex said:
Yes.
Now what about BvU's point? You need to consider gravity.
Would Fg = Fc?
So I could get mg = m4(pi)^2rf^2. Then solve for f?
 
Smartgurl said:
Would Fg = Fc?
So I could get mg = m4(pi)^2rf^2. Then solve for f?
Yes, but is that just a lucky guess or can you mount an argument to say it should be that?
 
haruspex said:
Yes, but is that just a lucky guess or can you mount an argument to say it should be that?
I drew a diagram and I think that when the mass is at the top it will need the minimum Fc as gravity will help bring it down. Where at the bottom the Fc will have to overcome gravity to bring the mass back up. So gravity will be the only force acting on the mass and bringing it down when it is at the top.
 
Smartgurl said:
I drew a diagram and I think that when the mass is at the top it will need the minimum Fc as gravity will help bring it down. Where at the bottom the Fc will have to overcome gravity to bring the mass back up. So gravity will be the only force acting on the mass and bringing it down when it is at the top.
Good.
 
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haruspex said:
Good.
Thank you so much! Now it seems simple since I understand it
 

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