(Solved): The two square cross sections shown below(Figure 1) are each subjected to a vertical shear for ...

The two square cross sections shown below(Figure 1) are each subjected to a vertical shear force, V. The side length of each of the hollowed-out portion of the second cross section is Itexttip \( \{r\}\{r\}=5.00\{\mathrm{rm} \mathrm{cm}\} \). The maximum allowable shear stress in each member is Itexttip\{tau_\{rm max\}\}\{tau\} \( =160\{\mathrm{Nr} \) MPa \( \} \). igure 1 of 3 Part \( A \) - Moment of the area \( A^{\prime} \) 'about the neutral axis of the solid square shaft One of the first steps in analyzing the geometry of the solid square shaft is to determine the moment of the area \( A \) 'about the neutral axis of the entire cross section. This value is denoted by Q. What is Q?(Figure? ) Express your answer to three significant figures and include appropriate units. Part B - Moment of the area \( A^{\prime} \) about the neutral axis of the hollow square shaft One of the first steps in analyzing the geometry of the hollow square shaft is to determine the moment of the area \( A^{\prime} \) about the neutral axis of the entire cross section. This value is denoted by \( Q \). What is Q?(Eigure 3) Express your answer to three significant figures and include appropriate units. Part C - Maximum applicable shear force on the solid square shaft Determine the maximum applicable shear force on the solid square shaft, V__\{sm max\}. Express your answer to three significant figures and include appropriate units. Part D - Maximum applicable shear force on the hollow square shaft Determine the maximum applicable shear force on the hollow square shaft, V_\{rm max\}. Express your answer to three significant figures and include appropriate units.