How Do You Solve for I in a Series of Beam Deflection Equations?

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The discussion revolves around solving for the moment of inertia (I) in a series of beam deflection equations. The original poster, Matt, seeks assistance in rearranging equations to find the total deflection of a beam under specific boundary conditions. A participant suggests factoring I out of the equations since it appears in the denominator, which leads to a successful solution for Matt. The exchange highlights the importance of clarity in mathematical expressions and the common challenges faced in engineering calculations. Ultimately, the conversation emphasizes collaboration in problem-solving within technical discussions.
mattaddis
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Hello there,

I need some help rearranging a combination of equations and was wondering if someone could help? I am attempting to find the sum of the deflection in a beam, but to do so for the boundary conditions require a total of four formulas in series.

I need to solve the attached equation for I, which is common throughout.

I hope someone can help.

Thanks in advance.

Matt
 

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Maybe I'm missing something obvious, but the only place I see ##I## is in the denominator of each summand.
So can't you just factor it out?
$$\sum \delta = \frac{1}{24 E I} \left\{ \vphantom{\frac{W_1}{E I}} \cdots \right\}$$
 
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CompuChip,

Thanks for that. I feel a bit thick now. It worked and I got the desired solution.

Matt
 
No problem, we all make those mistakes.
I was just afraid that you were going to say "Oh, I forgot to mention that the I1,2,3 are the components of I", or "W depends on I" or something nasty like that :)
 

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