How Do You Find the Weight of a Beam Using Spring Scales?

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Homework Help Overview

The problem involves determining the weight of a uniform beam supported by two spring scales, which read different tensions. The context suggests a focus on forces acting on the beam and the equilibrium conditions that must be satisfied.

Discussion Character

  • Exploratory, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the interpretation of the diagram and the forces involved, with one attempting to analyze the forces in terms of horizontal and vertical components. Questions about the clarity of the diagram and the setup are raised.

Discussion Status

The discussion is ongoing, with participants exploring different interpretations of the forces acting on the beam. Some guidance has been offered regarding the forces and equilibrium, but no consensus has been reached on the approach to find the weight of the beam.

Contextual Notes

There is mention of confusion regarding the diagram, which may impact understanding of the problem setup. The original poster expresses a need for a simplified explanation, indicating a potential gap in foundational knowledge.

melaku
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I am asked to do this.

"A uniform beam is attached to two springs scales as shown. The scales read 71 lb and 100 lb respectively. Find the wight of the beam."

http://img144.imageshack.us/my.php?image=phy8wq.png


I have no idea how to go on about solving this. please someone explain it to me like you would explain it to a child.

Thanks in advance.
 
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I'm not being awkward, but I don't understand the diagram one bit.
 
My guess is that the diagram is meant to show a rod held up by two strings,
one at 45 degrees with a tensiion of 71#, and the other at 60 degrees from the horizontal with a tension of 100#. This is consistent with their being no net horizontal force on the rod.
The net horizontal force is 100 cos 60 - 71 sin 45=0 (as it should).
The net upward force on the stick is 100 sin 60 + 71 sin 45 =87 + 50 = 137#,
which equals the weight of the stick.
 
I reccomended him here for help guys, don't make me look bad:)

That diagram IS funky though
 

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