Finding the Coefficient of friction on an incline plane

AI Thread Summary
To find the coefficient of friction on an incline plane, the equation mu = tan(theta) is often referenced, where theta is the angle of the incline. This equation is valid when considering only gravitational forces, normal force, and friction. The discussion clarifies that the forces acting on the mass can be expressed as SumF = mgsin(theta) - mu*mgcos(theta) = 0. Accurate measurements of the angle can be obtained using a protractor, while the mass can be determined with a scale. Understanding these principles is crucial for creating a lab procedure to calculate the coefficient of friction.
Trent Horn
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I need to find the coeffcient of friction on an incline plane. I need the equation to find the coefficient for any givien angle. It part of a lab where I'm required to create the procedure and am stuck with how to create the equation. We can use a protractor or trigonomic functions to find the angle and the mass of the object can be found with a scale.
 
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Show me the equation for the coefficient if you don't have an incline?
 
Well, mu = tan(theta) is sometimes used. Depends though.
 
thanks watermelon that was the equation i couldn't get too that equation because i didnt have the trig functions to get there.
 
Maybe I don't understand what is going on, but it seems to me that mu = tan (theta) is just plain wrong.
 
Assuming the only forces acting on the mass are gravity, the normal force, and friction, then it is true. SumF = mgsin(theta) - mu*mgcos(theta) = 0.
 

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