Calculating Shear Stress on Three Pin Connections | Homework Help

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To calculate shear stress on three pin connections, the average shear stress for single shear is determined by dividing the applied force at the pin by the pin's surface area. For a pin experiencing double shear, the total load is divided by two, resulting in each shear plane experiencing half of the total load. In this context, V represents the shear force, while P denotes the applied force. Understanding these definitions is crucial for accurately calculating shear stress in different scenarios. Proper application of these principles will lead to correct solutions for the homework problem.
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On a homework assignment where a device contains three pin connections, we are asked to find the shear stress on two of the pins ( single shear) and a third which is experiencing double shear. For the single shear, I just took the force being applied at the pin connection and divided it by the surface area of the pin to get the average shear stress. However, what do I do if a pin has double shear stress? Thanks you.
 
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When there are two shear planes, each of the shear forces is equal to half of the total load V = \frac{P}{2}.
 
what does V and p stand for just to clarify?
 
V is the shear force and P is the applied force.
 

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