A cantilever beam with a 1-in-diameter round cross section is loaded at the tip with a transverse force of 1000 lbf, as shown in the figure. The cross section at the wall is also shown, with labeled points A at the top, B at the center, and Cat the midpoint between A and B. Study the significance of the transverse shear stress in combination with bending by performing the following steps. Consider the transverse force to be negative when acting downwards. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. F Cross section at the wall For each stress element in part (a), calculate the maximum shear stress if the transverse shear stress is neglected. Determine the percent error for each stress element from neglecting the transverse shear stress. The maximum shear stress for element A if the transverse shear stress is neglected is The percent error for stress element A from neglecting the transverse shear stress is The maximum shear stress for element B if the transverse shear stress is neglected is The percent error for stress element B from neglecting the transverse shear stress is The maximum shear stress for element C if the transverse shear stress is neglected is The percent error for stress element C from neglecting the transverse shear stress is kpsi. %. kpsi. %. kpsi. %.