(Solved): A) Determine the maximum radius of gyration for the cross section of the cylindrical column. ...

A) Determine the maximum radius of gyration for the cross section of the cylindrical column.

B) If the cylindrical column has pin connections at both ends, what is the magnitude of the maximum allowable axial force in the member?

C) If the cylindrical column is supported by a fixed connection at one end and is free at the other end, determine the magnitude of the maximum allowable axial force in the member.

D) If the cylindrical column is fixed at both ends, determine the magnitude of the maximum allowable axial force in the member.

E) If the cylindrical column shown is pinned at one end and fixed at the other, determine the magnitude of the maximum allowable axial force in the member.

16-Pcr and Column Design Design of Columns for Concentric Loading Learning Goal: To determine the maximum allowable axial force applied to a cylindrical column by four different support connections: pinned at both ends, fixed at one end and free at the other, fixed at both ends, and pinned at one end and fixed at the other. The cylindrical steel column shown is subjected to an axial force P at both its ends. Let L = 9.000 ft and d = 8.000 in Assume E = 29000 ksi and oy = 36.00 ksi for the material used.(Figure 1) igure d 1 of 1 Part A - Radius of gyration of the cylindrical column Determine the maximum radius of gyration for the cross section of the cylindrical column. Express your answer to three significant figures and include the appropriate units. ? View Available Hint(s) T = Submit LLÄ Value Pallow= Ò Units Part B - Maximum allowable axial force for pinned-at-both-ends support C² ?À A Value If the cylindrical column has pin connections at both ends, what is the magnitude of the maximum allowable axial force in the member? Express your answer to four significant figures and include the appropriate units. ? View Available Hint(s) ? A Units ? 4 of 9 Review Design of Columns for Concentric Loading Learning Goal: To determine the maximum allowable axial force applied to a cylindrical column by four different support connections: pinned at both ends, fixed at one end and free at the other, fixed at both ends, and pinned at one end and fixed at the other The cylindrical steel column shown is subjected to an axial force P at both its ends. Let L=9.000 ft and d = 8.000 in Assume E = 29000 ksi and oy = 36.00 ksi for the material used.(Figure 1) Figure 1 of 1 Part C-Maximum allowable axial force for fixed-and-free-end support If the cylindrical column is supported by a fixed connection at one end and is free at the other end, determine the magnitude of the maximum allowable axial force in the member. Express your answer to four significant figures and include the appropriate units. ? View Available Hint(s) ?À Pallow= Value Submit A ?A Pallow= Value C Part D-Maximum allowable axial force for fixed-at-both-ends support Units If the cylindrical column is fixed at both ends, determine the magnitude of the maximum allowable axial force in the member. Express your answer to four significant figures and include the appropriate units. ? View Available Hint(s) ? S ? Units 4 of 9 ? Review