How Does Static Friction Affect a Sled on an Incline?

AI Thread Summary
The discussion focuses on the effects of static friction on a sled resting on a 15° incline. The sled's weight is 250 N, and the coefficient of static friction is 0.5, leading to a maximum static friction force of 120.7 N, though this is not the actual force acting when the sled is stationary. When the sled is pulled up at a constant speed by a child exerting a force of 100 N at a 30° angle, it's crucial to consider all forces acting on the child, including gravity and the tension from the rope. The normal force acting on the child must account for these factors to accurately determine the forces involved. Understanding these dynamics is essential for solving the problem correctly.
cartoonorange
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Homework Statement



A sled weighing 250 N rests on a 15° incline, held in place by static friction (Figure 5-61). The coefficient of static friction is 0.5.

a)What is the magnitude of the static friction on the sled?

The sled is now pulled up the incline at constant speed by a child. The child weighs 510 N and pulls on the rope with a constant force of 100 N. The rope makes an angle of 30° with the incline and has negligible weight.

b)What is the magnitude of the force exerted on the child by the incline?


Homework Equations


F=ma
F=us*N



The Attempt at a Solution


For a, I found Normal force: 250cos(15)=241.5
Then to find magnitude: 241.5*.5=120.7, But it is not right.

For b, i foind Fgy: 510cos(15)=492.6
492.6*.5=246.3, but it is also wrong
 
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In a) you must remember that Friction is only a maximum force. If the down hill force of gravity doesn't exceed the maximum then the sled remains static.

What you calculated is the maximum amount of frictional force. Not what is only required.
 
I figured out a, but i am still lost on b
 
Are you sure you've included every force acting upon the child in your free-body diagram?
 
cartoonorange said:
I figured out a, but i am still lost on b

You need to consider all the forces acting on the child.

This includes gravity of course - a can't miss 510N force. And that resolves into the normal and parallel with the incline. The normal force is what they are interested in. Nevermind that the parallel force resolves itself into the downward incline pull of gravity from the child and sled and the frictional resistance generated by the snow boots.

If the rope of the sled is being pulled at 30° to the incline upward with 100N, then what does that mean in terms of any force acting on the child?
 
Thanks, I got it, I was not include the tension from the rope
 

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