What Is the Lowest Coefficient of Static Friction for a Log?

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To determine the lowest coefficient of static friction necessary to prevent an 800N log from slipping, torque and force equations were established. The calculations involved finding the vertical and horizontal components of tension, leading to the normal force being 446.17N. The force of friction was set equal to the horizontal tension component, resulting in a coefficient of friction of 1.01. The calculations were confirmed by another participant, indicating consistency in the results. Further assistance was requested to verify the calculations.
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A log weighs 800N and has its center of gravity at the midpoint. Find the lowest coefficient of static friction necessary to keep the log from slipping.

Answer (1.01)

http://img115.imageshack.us/img115/8407/physicsproblem3ox.th.png

Ok, so, i started out by finding my torque and force equations.
Torque = (800)*(3.5)*(cos(25)) = (Tv)*(6.5)*(cos(25)) + (Th)*(6.5)*(sin(25))

Normal Force = (800) - (Tv)

Force of Friction = (Normal Force) (Coefficient of Friction)

Force of Friction = (Th)

tan(25) = (Th)/(Tv)

So, solving for (Th) I got...
(Th) = tan(25)/Tv

So, Torque = (800)*(3.5)*cos(25) = (Tv)*(6.5)*cos(25) + (tan(25)/(Tv))*(sin(25))

Where (Tv) is the vertical component of the tension and (Th) is the horizontal component of tension.

Solving for (Tv) I get (Tv) = 353.83
Solving for (Th) (Th) = tan(25)(353.83) = 164.99

If Normal Force = Weight - (Tv) then N = 800 - 353.83 = 446.17

so (Normal Force)(Coefficient of Friction) = (Th)
Then (446.17)(Coe. of Friction) = 164.17
The coe. of friction is not equal to 1.01

Any help as to where I went wrong would be much appreciated! Thanks so much in advance for any help!

Dan
 
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hmm, i don't claim to be a physics pro but the coeff i calculated is the same as yours. Maybe someone want to come in and help?
 

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