What is the maximum static friction of my shoe against the wood board?

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SUMMARY

The maximum static friction of a shoe against a wood board can be determined using the angle of slip and the weight of the shoe. In this case, the shoe slipped at an angle of 29.33 degrees with a weight of 5 Newtons, resulting in a calculated mass of 0.51 kg. To find the maximum static friction, one must analyze the forces acting on the shoe using a coordinate system to resolve the forces into their x and y components. The relevant equations include tan(theta) = O/A and Fg = mg.

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  • Knowledge of Newton's laws of motion
  • Ability to resolve forces into components in a coordinate system
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  • Study the concept of static friction and its calculation methods
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colemansmith
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Homework Statement


Basically, I need to find the maximum static friction of my shoe against a wood board.
I discovered that after increasing the slope of the board, my shoe slipped at an angle of 29.33 degrees. (using tan theta = O/A) O being 42.7 cm and A being 76 cm. The shoe has a weight of 5 Newtons. I calculated the mass of the shoe by using the formula Fg = mg, where Fg = 5, and g = 9.8. Thus: 5 = m(9.8) which equals 0.51.
A quick recap:
theta = 29.33 degrees
weight (Fg) = 5
mass = 0.51

I am supposed to find the Maximum Static Friction of my shoe against the wood. I do not[b/] know the co-efficients of either (we are not supposed to use them from out text's)

Homework Equations



tan theta = O/A

Fg = mg

Ff = u Fn (u is miu or the frictional co-efficient)

The Attempt at a Solution



Here is a diagram depicting my work so far.
w8nyah.jpg


I am basically stuck. Any help would be great (formulas, tips, anything)

Thanks guys and gals

Coleman.
 
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Your diagram misses a coordinate system. Try to think of a coordinate system that would make the problem easier. Specifically, a coordinate system in which one or more of the forces acted entirely in the X or Y direction. Once you break the forces into their x/y components you can then use the equations you listed.
 

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