Problem 1: For the crank in the figure below and loaded as shown, determine the location of maximum stress and draw the stress element with the appropriate normal and shear stresses. Also determine the three principal stress (0₁, ₂ and, 03) using Mohr's circle. Assume the rod has a uniform solid circular cross-section throughout the length. In addition, determine the deflection of point A due to the given loading using superposition in the x, y, and z directions as indicated by the coordinate system shown with the figure. For material properties, use E = 200 [GPa] for the modulus of elasticity and v= 0.3 for Poisson's ratio. 200 mm AZ D 1500N 25mm diameter round rod bent into the crank C 250 mm A 1000N 100 mm B

There’s a force acting in the Y and Z direction

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Fint -1500 + 1000k [N] Mint 250-300 j - 300 k Comparison of these vectors with the previous results shows they are the same.

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Problem 1: For the crank in the figure below and loaded as shown, determine the location of maximum stress and draw the stress element with the appropriate normal and shear stresses. Also determine the three principal stress (0₁,02 and, 03) using Mohr's circle. Assume the rod has a uniform solid circular cross-section throughout the length. In addition, determine the deflection of point A due to the given loading using superposition in the x, y, and z directions as indicated by the coordinate system shown with the figure. For material properties, use E = 200 [GPa] for the modulus of elasticity and u = 0.3 for Poisson's ratio. 200 mm AZ D 1500N 25mm diameter round rod bent into the crank C 250 mm A 1000N A 100 mm B y