Understanding a stress equation

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The discussion centers on clarifying a stress equation from a book, specifically how forces and moments are calculated in a given scenario. The force on the top surface is expressed as a combination of stress and area, while the force on the bottom surface creates a moment that counteracts the top surface's moment. Confusion arose from the cancellation of terms and misinterpretation of the diagram. Participants also shared tips on using markup language for typing formulas in the forum. Overall, the conversation aims to enhance understanding of the stress equation's derivation.
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I really need help understanding how the book created the equation from the book. I would really appreciate help understanding it. The attachment shows an image and the equation.
 

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They've divided by dz and canceled out some terms; that might be why it's a little confusing. The force (pressure times area) on the top surface is

\left[\sigma_y+\left(\frac{\partial \sigma_y}{\partial y}\right)dy\right]dx\,dz

and the distance (lever arm length) is dx/2. But the force on the bottom surface is

\sigma_y\,dx\,dz

which creates a moment in the opposite direction that cancels out part of the moment from the force on the top surface. Starting to make sense now?
 
Wow, thanks so much. The cancelling of dz was part of what was confusing me. Also, I was just looking at the diagram incorrectly for no particular reason, but since I saw it wrong initially I could not get it out of my head.

Also, how do you type formulas into this forum?
 
Just click on the formula to see the markup language.
 
EGill said:
I really need help understanding how the book created the equation from the book. I would really appreciate help understanding it. The attachment shows an image and the equation.

tanks
 

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