Coefficient of Friction of a wooden box

AI Thread Summary
To derive the equations for the coefficient of kinetic friction (uk) and static friction (us) for a wooden box on an inclined plane, the normal force (N) is calculated using N = mg - F(sin(theta)), where F is the spring scale reading. The force of friction (Ff) is equal to the pulling force (F) when the box is moved at a constant speed, leading to the equations F = ukN for kinetic friction and F = usN for static friction. When considering the angle of the applied force, the force of friction can also be expressed as Ff = F*cos(theta). This relationship allows for the determination of uk and us by substituting the expressions for Ff and N. Understanding these equations is crucial for analyzing the motion of the box on the incline.
goj2
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1. If a wooden box was pulled up the inclined plane at a constant speed using a spring scale. How would an equation be derived for uk, us, Ff, and N.


Homework Equations


So to get N. The equation would be N=mg-F (sin (theta)).
with F being the reading on the spring scale.
Ff would be the opposite of the pulling force F, from what is read in the spring scale.
So when pulling upward (tan (thetha)) is not used to find uk or us.
So I need help because I don't know wat the equation would be for Uk or Us. And if I am deriving N or Ff the right way.

The Attempt at a Solution

 
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It appears that the only thing you need now is the relation between the force of friction Ff and uk (or us).
 
Is this right?

If F=ukN
with F being the reading on the spring scale when the box is being pulled at constant speed

F=usN
with F being the reading on the spring scale when the box starts to move.
 
goj2 said:
Is this right?

If F=ukN
with F being the reading on the spring scale when the box is being pulled at constant speed

F=usN
with F being the reading on the spring scale when the box starts to move.

Since you stated that the force makes an angle other than zero with the incline, then the force of friction (static/kinetic) equals F*cos(theta), where theta is the angle between the force and the incline, and F is the reading on the scale. Plug thta into the equations above, combine with the expression you got for N, and you should get your relation.
 

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