(Solved): Figure 1: a) Draw the Shear Force Diagram (SFD) and indicate the position(s) and value of maximum ...

Figure 1: a) Draw the Shear Force Diagram (SFD) and indicate the position(s) and value of maximum shear \( V \). b) For the position indicated in a), find the maximum shear stress in the web, \( \boldsymbol{\tau}_{\max \text {, web. }}^{\text {. }} \). c) For the position indicated in a), find the minimum shear stress in the web, \( \tau_{\text {min, web. }} \). d) For the position indicated in a), estimate the average shear stress in the web \( \tau_{\text {ave, web }} \) Hint: to estimate, assume web takes \( 100 \% \) of the shear force at that position. e) For the position indicated in a), how much shear force does the web actually take \( \left(V_{\text {web }}\right) \) ? Give your answer as a \( \% \) of the total.