Understanding Static Equilibrium and Beam Forces: A Troubleshooting Guide

AI Thread Summary
The discussion focuses on troubleshooting a problem related to static equilibrium and beam forces. A participant expresses confusion over the correct units and direction of forces, particularly questioning the assumption that the force Fp is horizontal. Clarifications are made regarding the moment balance equations and the importance of understanding force magnitudes rather than just components. The conversation emphasizes the need for accurate assumptions in calculations, particularly when determining reaction forces at a hinge. Ultimately, the correct approach involves recognizing the relationship between tension and reaction forces in the context of static equilibrium.
benny1993
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I have been trying to work on this problem, but I keep getting the answer wrong. I would appreciate if someone could help me understand what I did wrong.
problem 7.png

Below is my answer and solution:
Problem_7.jpg
 

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How can you work with ft and lb and come up with a force in N ?

What is the direction of Fp ? You seem to think it's horizontal. Why ?
 
It's actually in lbs. I don't know why I wrote 45.2N. The answer is supposed to be in lbs.
And about the direction of F(p), I assumed it would be horizontal since the beam is in static equilibrium while remaining horizontally.
 
Why not just write the moment balance simply as $$(120)(6)=T_y(12)$$
 
Chestermiller said:
Why not just write the moment balance simply as $$(120)(6)=T_y(12)$$
Wouldn't the answer still be the same?
 
benny1993 said:
I assumed it would be horizontal since the beam is in static equilibrium
Assumption is unfounded.
 
BvU said:
Assumption is unfounded.
Then what would be the correct answer?
 
benny1993 said:
Wouldn't the answer still be the same?
Yes, but wouldn’t be simpler? This would also allow you to immediately determine the vertical reaction force component at the pin.
 
But you have the 75 lb right there in your calculations.

The question is what is the magnitude of the force, not what is the horizontal component of the force.
 
Last edited:
  • #10
jack action said:
But you have the 75 lb right there in your calculations.

The question is what is the magnitude of the force, not what is the horizontal component of the force.
Not exactly. The 75lb found in post #1 is for the tension in the cable. However, there is a neat way of seeing that the reaction at the hinge must have the same magnitude.
benny1993 said:
And about the direction of F(p), I assumed it would be horizontal
Easily falsified. Consider moments about the tip of the beam.
 
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