Solving a 100kg Crate Pulled Across a Floor

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To solve the problem of a 100kg crate being pulled across a floor with a force P at a 30-degree angle, the coefficient of kinetic friction is 0.200. The frictional force (Ff) is calculated as Ff = μN, where N is the normal force. The equations for horizontal and vertical forces must be set up to ensure equilibrium, with the net force in each direction equaling zero. The correct horizontal equation is P cos(30) = μN, while the vertical equation is N + P sin(30) = mg. Clarification on these equations is essential for accurately determining the force P.
Gentec
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Good evening.

I would appreciate if someone could verify the following please.

The question:

A 100kg crate is pulled across a horizontal floor by a force P that makes an angle of 30 degrees above the horizontal. The coefficient of kinetic friction between the crate and floor is 0.200. What is P if the net work done is zero.

My solution:

First determine Ff = umg. This would give me 196N. My next step is to determine P. I use 196N and put that over cos30. My answer is 226.3N. Does this seem reasonable.

thanks for your time
 
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Gentec said:
First determine Ff = umg.
No, F_f = \mu N, where N is the normal force. To solve this problem, recognize that the crate is in equilibrium. Set up equations for the vertical and horizontal forces. (Net force in each direction equals zero.)
 
Thanks for the direction.

Is this what you meant?
Horizontal:
mgsin30 = f + Fcos30 = uN + Fcos30
Vertical:
N = Fsin30 = mgcos30

To resolve = Add N into N in equation for Horizontal
 
I don't understand how you got your equations. Here's what I get:
Horizontal: P cos(30) = \mu N
Vertical: N + P sin(30) = mg
 

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