Effects of Increasing Angle on Forces: A Conceptual Analysis

AI Thread Summary
As the angle θ increases while a force is applied to a stationary box, the x-component of the force (Fx) decreases due to the geometric relationship in a right triangle. The normal force also decreases because the increased y-component of the applied force reduces the net force acting in the negative y-direction. Consequently, static friction (fs) decreases, as it is directly related to the normal force, which is now lower. The maximum static friction (fs-max) decreases as well since it depends on the normal force. Overall, increasing the angle leads to a decrease in Fx, normal force, fs, and fs-max.
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Homework Statement


There is a box drawn on a horizontal surace. A force is being applied at an unkown angle in the positive x direction to the box. The angle is greater than 0 and less than 90. I'm assuming a standard coordinate system.

"In the diagram above the box is stationary as the angle \theta is increased. Do the following increase, decrease or stay the same when \theta is increased? Explain each answer."

1. Fx
2. Normal Force
3. fs
4. fs-max

Homework Equations



None given.

The Attempt at a Solution



Fx decreases when theta is increased. If the force is broken down into vectors, the geometry of a right triangle tells us that as theta is increased the x-component decreases.

Normal force decreases when theta is increased. Normal force is perpendicular to the surface of contact. When theta increases, the y-component of that force increases. This opposes the force of gravity on the box. The normal force decreases because there is less net force in the negative y-direction.

Static friction decreases because it is dependent on the force applied in the y-direction(in this case). Less normal force equals less static friction here.

The max static friction also decreases because it is dependent on the force applied in the y-direction (in this case). Less normal force equals less max static friction.

Does that seem right to you guys? I feel confident in my answers, but I want to make sure I am not assuming or looking over something. Feedback is always appreciated. Thanks a bunch.

-Mark
 
Last edited:
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Im assuming it looks like this, f is pushing right and downwards.
f \
...[]
If you apply the same force and the angle increase, cosine decreases, so Fx decreases.
The normal force is always perpendicular to the surface. You would have mg down and Fy down. Fy is increasing which means what for the normal force?
fs opposes fx up until fmax. So if Fx gets smaller, fs gets smaller.
fmax = mu N If N ____ then fmax ____.
 
Thanks for the reply,

F is pushing right and upwards. Sorry about that. The drawing is an angle of approximately 30 degrees but it is not labeled.
 
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