Is A_θ equal to A_0/cos θ in stress on an oblique plane?

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The discussion revolves around understanding the relationship between A_θ and A_0/cos θ in the context of stress on an oblique plane. The initial confusion stems from the geometry of the area affected by the force, with A_0 representing the cross-sectional area when the cutting plane is normal to the bar. It is clarified that the force acting on the cross section is Pcosθ, and the area A_θ can be calculated based on the dimensions of the bar and the angle θ. After some analysis and calculations, the conclusion is reached that A_θ is indeed equal to A_0/cos θ. The discussion highlights the importance of understanding the geometry in stress analysis.
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Hello,

I am looking at my lecture notes PDF, and I am having trouble seeing the geometry how A_θ is A_0/cos θ. I can understand how the force acting on that cross section is Pcosθ, just not the part about the area for which F is acting. I think F is normal to the plane, so the cross section area is not just A_0??
 

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I think you must assume that A0 is the cross sectional area of the bar when the cutting plane is normal to the longitudinal axis of the bar.

It's easy to calculate Aθ, assuming A0 has dimensions height 'h' and width 'w' and the cutting plane makes angle θ with the vertical. Try it, and compare Aθ with A0.
 
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Okay, I have convinced myself that A_θ is A_0 / cos θ. I think I have convinced myself of the slide now, Thanks SteamKing
 

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