A rotating shaft of 25-mm diameter is simply supported by bearing reaction forces R1and R2. The shaft is loaded with a transverse load of 13 kN as shown in the figure. The shaft is made from AISI 1060 hot-rolled steel. The surface has been machined. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. 200 mm 50 mm 25 mm 13 kN R1 Not to scale R2 If the fatigue factor of safety is less than 1, then estimate the life of the part in number of rotations. The life of the part is rotations.

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### Rotating Shaft Load Analysis #### Required Information A rotating shaft of 25-mm diameter is simply supported by bearing reaction forces \( R_1 \) and \( R_2 \). The shaft is loaded with a transverse load of 13 kN as shown in the figure. The shaft is made from AISI 1060 hot-rolled steel. The surface has been machined. **NOTE:** This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. #### Diagram Description The diagram depicts a horizontal shaft supported at both ends by reactions \( R_1 \) and \( R_2 \). The shaft has a diameter of 25 mm. It is subjected to a transverse load of 13 kN applied 200 mm from \( R_1 \) and 50 mm from \( R_2 \). The diagram provides a not-to-scale representation. - Distance from \( R_1 \) to the point of application of the load: 200 mm. - Distance from \( R_2 \) to the point of application of the load: 50 mm. - Diameter of the shaft: 25 mm. - Transverse load: 13 kN. If the fatigue factor of safety is less than 1, then estimate the life of the part in number of rotations. **The life of the part is** \[ \_\_\_\_\_\_ \] **rotations.** --- This information and diagram are crucial for understanding the loading conditions and support reactions, which will be necessary for further analysis, especially in calculating stresses and determining the fatigue life of the shaft.