How to calculate the perpendicular tension?

AI Thread Summary
The discussion focuses on calculating the perpendicular tension in a cable supporting a weight on a bar. Participants emphasize the importance of understanding the principle of moments and suggest looking up worked examples online for clarity. It is noted that while the problem can be approached without using a moment balance, applying force balances at the point where the rod meets the rope is crucial. The conversation highlights that moments are relevant in most cases, and understanding them can simplify problem-solving. Overall, a solid grasp of these concepts is essential for tackling statics problems effectively.
jorgeha
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Hello to everyone, merry christmas and happy new year! I was trying some exercises on the Feynman Lectures, on the topic of statics, and I came across with a problem which, simplified until where I am stuck, asks for the tension of a cable perpendicular to a bar with a weight on the top of it, as in the picture below. I don't know which trigonometrical function should I use, as the force going downwards y-axis is perpendicular to the tension on the x-axis, the tension seems to be 0! (That is obviously incorrect) Should I first calculate the force going down the bar, and then multiply it by the angle θ?
https://postimg.org/image/5401ebhg3/
Thanks for reading and answering!
 

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Have you heard of balance of moments?
 
Chestermiller said:
Have you heard of balance of moments?
Sadly, I haven't. I am studying with the Lectures and it isn't a very complete book (I mean, it isn't like a textbook). With the balance of moments, which other concepts do you think I should learn? Can you show me how to do it anyways? Thanks
 
Rather than trying to understand some cobbled-together explanation from a PF member, it would be good if you look up "The principle of Moments" in an on-line text and look at some worked examples. It's a very basic bit of book work and you will find it in many places. The very basic approach is to study the see saw, with all the forces acting up or down, at right angles to the beam. The next step is to have forces that are acting in a general direction (which is like your problem)
This link is just one of many that have the answer to how to work out your prob.
 
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It is possible to do this problem without using a moment balance. You do force balances on the point where the rod meets the rope. The trick is to assume that the rod can exert a force only in the direction along its length.
 
sophiecentaur said:
Rather than trying to understand some cobbled-together explanation from a PF member, it would be good if you look up "The principle of Moments" in an on-line text and look at some worked examples. It's a very basic bit of book work and you will find it in many places. The very basic approach is to study the see saw, with all the forces acting up or down, at right angles to the beam. The next step is to have forces that are acting in a general direction (which is like your problem)
This link is just one of many that have the answer to how to work out your prob.
Thank you very much for your answer. Do you know any other important concept I should learn? I will study that principle tomorrow :). I am studying with the Lectures, and they aren't like a textbook, I don't know which particular concepts I must know... do you know any other which will be useful for me? Thank you!
 
Chestermiller said:
It is possible to do this problem without using a moment balance. You do force balances on the point where the rod meets the rope. The trick is to assume that the rod can exert a force only in the direction along its length.
Thanks, that was my doubt!
 
Chestermiller said:
It is possible to do this problem without using a moment balance. You do force balances on the point where the rod meets the rope. The trick is to assume that the rod can exert a force only in the direction along its length.
That's true in this case but it only works when all forces are applied to the same point at the end of a beam. Moments are very relevant in most cases and it is good to be able to tackle all problems in the same way - at least until you are very familiar with the whole business. Also, forces acting along the beam can be ignored when you use Moments.
 
sophiecentaur said:
That's true in this case but it only works when all forces are applied to the same point at the end of a beam. Moments are very relevant in most cases and it is good to be able to tackle all problems in the same way - at least until you are very familiar with the whole business. Also, forces acting along the beam can be ignored when you use Moments.
The forces along the beam have zero moment arm, so their moments are zero.
 
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