A few questions about Direct and Shear stress

AI Thread Summary
The discussion revolves around calculating elongation and changes in diameter for two bars under axial tensile forces. For the aluminum bar, the user struggles to find the correct formula for elongation, initially using F/AE but receiving an incorrect result compared to the expected answer. The second problem involves a steel bar, where the user is uncertain about the equations for longitudinal and lateral strains. Another participant suggests using Hooke's law to determine elongation and clarifies the difference between elongation and relative elongation. The conversation highlights the challenges faced in applying physics concepts to solve practical engineering problems.
hunterage2000
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Just a few questions.

1). A bar of 2m and diameter 40mm, is subjected to an axial tensile force of 50KN. What will be the elongation and the reduction in diameter. The aluminium bar has a Modulus of Elasticity E = 70 Gpa and a poissons ratio v = 0.3

2). A 1.5m steel bar has a cross sectional area of 100mm x 50mm. If a force of 120KN is applied what will be the longitudial and lateral strain, and the change in dimension. Assume that for steel E = 200Gpa and v = 0.3.
 
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Welcome to PF!

Hi hunterage2000! Welcome to PF! :wink:

Show us what you've tried, and where you're stuck, and then we'll know how to help! :smile:
 
I don't know what the formula is for working out elongation. I have looked on the web and can't find it. I tried F/AE and got 5.684x10-4. The problems come with answers and it says it should be 1.136mm but the notes on it are a bit crap so I'm just trying to arrange things to get the answer. Same with the 2nd one, its doesn't give the equations for longitudial and lateral strains. I,m not the brightest when it comes to physics.
 
well I am not 100% on the stuff that youve just put up, but if you can figure out the change in diameter (which i gather you have) elongation can be found by using the original volume and the new diameter using cylindrical volume formulas :)
 
hunterage2000 said:
I don't know what the formula is for working out elongation. I have looked on the web and can't find it. I tried F/AE and got 5.684x10-4. The problems come with answers and it says it should be 1.136mm but the notes on it are a bit crap so I'm just trying to arrange things to get the answer. Same with the 2nd one, its doesn't give the equations for longitudial and lateral strains. I,m not the brightest when it comes to physics.

The formula is Hooke's law. What you show here is the relative elongation (unitless). The problem requires the elongation.
elongation=(L-Lo)
relative elongation=(L-Lo)/Lo
 

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