How Do You Calculate Deflection in a Simply Supported Overhanging Beam?

AI Thread Summary
To calculate deflection in a simply supported overhanging beam with a point load at the end, it's essential to determine the reactions at the supports first. The discussion highlights the challenge of finding deflection between the supports, especially due to the beam's statically unstable nature when improperly analyzed. The use of the conjugate beam method is mentioned, but it requires careful consideration of boundary conditions. The original poster is struggling with calculations that yield incorrect units, indicating a potential error in the integration process. For accurate results, solving the beam equation or employing methods like virtual work or finite elements is recommended.
Rhysmachine
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Hey all, first post!

Looking to find a deflection equation for a simply supported overhanging beam with two supports and a point- load at the end of the canteliever. I can determine reactions at the supports but i am having trouble finding deflection between the supports.

Any help is appreciated!

the beam in question looks like (a) in the following picture but if we call L/2 a, instead.

conju2.gif
 
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This is a tricky problem. A simply supported beam with an overhanging load and no other appreciable loading is statically unstable. You have not provided any details about your calculations, so I am unable to comment on their validity. The so-called 'conjugate beam' you show reflects different end conditions from the original beam. The slope and deflection at C for the 'conjugate beam' must both vanish, whereas neither vanish at C for the given beam.
 
Sorry my mistake; the beam is restrained at A, vertically so I guess the triangle needs to be pointing the other way. The beam is no longer statically unstable now, right?

Ive done a number of calcs intergrating something like: P*a*x/LEI, with a number of variations to find slope then deflection, But I always seem to be ending up with an answer that would be mm^2 instead of mm. I was hoping someone might be able to go through finding the answer for me so I can find the deflection at many points along the A-B section.

Oh and the second example shouldn't be there at all. I just had to find a picture that was something like the problem I have as I couldn't upload my own pic.
 
I'd solve the beam equation to find the displacement as a function of x or get an approximate solution using virtual work or finite elements.
 

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