Coefficient of friction on rock of 0.70

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SUMMARY

The discussion centers on calculating the maximum steepness of a rock slope that a person can stand on without slipping, given a coefficient of friction of 0.70. The key equation derived is tan(θ) = μ, where μ represents the coefficient of friction. By solving this equation, users can determine the angle θ using a calculator. The discussion emphasizes the relationship between frictional force and the weight components acting on a slope.

PREREQUISITES
  • Understanding of basic physics concepts, particularly forces and friction.
  • Familiarity with trigonometric functions, specifically sine, cosine, and tangent.
  • Ability to manipulate algebraic equations and solve for unknown variables.
  • Knowledge of the relationship between weight, mass, and gravitational force.
NEXT STEPS
  • Learn how to apply Newton's laws of motion to friction problems.
  • Study the derivation and application of the friction equation in various scenarios.
  • Explore advanced trigonometric identities and their applications in physics.
  • Investigate real-world applications of friction in engineering and safety design.
USEFUL FOR

This discussion is beneficial for physics students, educators, and anyone interested in understanding the principles of friction and its applications in real-world scenarios.

zero1520
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physics help!

:confused: Ok, I have understood every problem we have done so far except this one,

You are wearing shoes that have a coefficient of friction on rock of 0.70. On how steep a rock slope could you stand without slipping?

So far i have gotten:
Fs=Fparallel=
mu*W*costheta = W*sinTheta
w=mg

but if u cancel weights I got:
mu*costheta = sintheta

Im probably completely wrong, but that's what i got.
Thanks in advance.
 
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well i guess my problem is solving the trig cause i simplified to what he got on that similar problem
 
Looks good to me. The friction force must equal the parallel component of the weight. Good!

Now keep going: \mu cos\theta = sin\theta ==> tan\theta = \mu. Now solve for \theta. (Use your calculator.)
 
ohhh alright i got it, thank you very much
 

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