Help with something to do with angular stuff?

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The discussion revolves around calculating the time interval at which a copper block will start to slip on a rotating steel turntable, given specific parameters like distance, static friction, and angular acceleration. Participants express confusion over the relevant formulas, particularly distinguishing between centrifugal and centripetal forces. The importance of using a force body diagram is emphasized to clarify the concepts involved. One user mentions the formula for circular motion, while others seek assistance in calculating static friction and angular displacement. The thread concludes with a focus on understanding static friction and its role in the problem.
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A copper block rests 39.0 cm from the center of a steel turntable. The coefficient of static friction between the block and the surface is 0.34. The turntable starts from rest and rotates with a constant angular acceleration of 0.50 rad/s2. After what time interval will the block start to slip on the turntable? (Hint: The normal force in this case equals the weight of the block.)


I seriously have no idea which formulas to use...Thanks!

Solved...thanks
 
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Do you know how to calculate the centrifugal force on a rotating object?
 
HallsofIvy said:
Do you know how to calculate the centrifugal force on a rotating object?

I only know how to do centripetal forces...

Actually hold on...maybe
 
I have down the formula:

force that maintains circular motion=mrw^2

If there was a way to find angular displacement, that would be helpful.
 
HallsofIvy said:
Do you know how to calculate the centrifugal force on a rotating object?

If you're trying to confuse the poor lad, that's not very nice. Centrifugal force, as I'm sure you know, is a fictional force, which means, for the purposes of this thread, that it doesn't exist.
 
Try doing a force body diagram.
 
Ok...I'm trying to calculate what Fs is now...thanks!
 

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