The 54-mm-diameter solid shaft is subjected to the distributed and concentrated torsional loadings shown.

A) Determine the absolute minimum shear stress on the outer surface of the shaft.

B) Specify the location of the absolute minimum shear stress on the outer surface of the shaft, measured from the fixed end A.

C) Determine the absolute maximum shear stresses on the outer surface of the shaft.

 

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The diagram depicts a mechanical shaft subjected to a distributed torque and concentrated moments at specified points. Here's a detailed breakdown: 1. **Shaft Description**: - The shaft is fixed at point A and extends horizontally to point C. 2. **Dimensions**: - The total length of the shaft is 1.5 meters. - The section from point B to point C is 0.8 meters long. 3. **Applied Forces**: - A concentrated moment of 1200 N·m is applied at the end of the shaft at point C, acting clockwise. - There is a distributed torque along the length from A to B, represented by a helical arrow around the shaft, with a magnitude of 2 kN·m/m. This torque also acts in a clockwise direction. 4. **Location of Forces**: - The position of point B is 0.8 meters from point C, indicating the area over which the distributed torque acts (from A to B). This diagram illustrates the mechanical loading conditions on the shaft, focusing on torque distribution and its effects on the shaft structure.