Help me calculate a calculated bending stress (psi) in cantilever beam?

AI Thread Summary
To calculate the bending stress in a cantilever beam, the bending moment (M) at the wall is determined by multiplying the weight (W) by the distance from the wall (16 inches), resulting in M = 16W inch-pounds. The bending stress formula is given by bending stress = MC/I, where C is half the beam's height (0.25 inches) and I is the moment of inertia calculated as (1/12)*b*h^3, yielding I = 0.0052083. The strain recorded from the strain gauge is converted to stress using the modulus of elasticity for aluminum, E = 10x10^6 psi, with stress equal to strain times modulus. Discrepancies in calculated values may arise from the gauge factor of the strain gauge, which can affect the accuracy of the measurements. Understanding these calculations and conversions is crucial for accurate bending stress analysis in beam applications.
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Homework Statement



I am using a Vishay strain indicator with it hooked up to a strain gage hooked up 1" away from the wall on the solid beam. The beam is .5" by .5", and it is solid. The beam is 16" long and I am putting weights at the end of the beam. The weights are 1, 2, 5, 10, 15, and 20 lbs. On each weight, I recorded a strain(uin/in). It states to use the modulus of elasticity E_aluminum 10x10^6 to convert to psi. My question is how do I calculate the M part for the bending stress?

Homework Equations



bending stress = MC/I

modulus of elasticity E_aluminum 10x10^6 to convert to psi.

The Attempt at a Solution



For C, .5/2= .25

For I, (1/12)*b*h^3 or (1/12)*.5*.5^3 = .0052083

How do I find my M?

For 1 lb, would it be M-1lb(16")=0 or M=16 lb.in but I don't get it why it says to use E_aluminum = 10x10^6 psi to convert.

Here is a picture of the cantilever beam setup I used.

http://tinypic.com/r/2q80eg1/5
 
Last edited:
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The moment is simply the distance the weight is from the point in question. So at the wall, the bending moment is W * 16 = 16W inch pounds.

The conversion they are talking about is how you convert strain to stress. Stress = strain times modulus
 
LawrenceC said:
The moment is simply the distance the weight is from the point in question. So at the wall, the bending moment is W * 16 = 16W inch pounds.

The conversion they are talking about is how you convert strain to stress. Stress = strain times modulus

Thank you! It makes sense now. The only weird thing is if I just 10^6 instead of 10*10^6, then it will be close to my theoretical value. But if I do 10*10^6, the calculated value is super off from the theoretical value.
 
I have never used strain gauges but does it have some sort of gauge factor associated with it?
 

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