A hollow steel [E = 30,000 ksi] tube (1) with an outside diameter of 3.50 in. and a wall thickness of 0.219 in. is fastened to a solid 2.00-in.-diameter aluminum [E = 10,000 ksi] rod. The assembly is attached to unyielding supports at the left and right ends and is loaded as shown. Assume P=18 kips, Q=10 kips, L₁=6 ft, L₂=7 ft, and L₃=7 ft. 

(A) Calculate the cross-sectional area of steel tube (1), A₁, and the cross-sectional area of the aluminum rods (2) and (3). in inches squared

(B) Find the force in the steel tube (1), F₁, and the forces F₂ and F₃, which are the forces in the aluminum rods.  Use the correct sign for each force.  By convention, a tension force is positive, and a compression force is negative. IN kips

(C) Find σ1, σ2, and σ3, the normal stresses in members (1), (2), and (3), respectively. By convention, a tension stress is positive, and a compression stress is negative. IN KSI

(D) Determine δ1 and δ2, the deformations of members (1) and (2), respectively.  By convention, a deformation is positive for a member that elongates, and it is negative for a member that is shortened. IN INCH

(E) Determine the deflections of joints B and C.  Report a positive value for a deflection to the right and a negative value for deflection to the left. IN INCH

 

Transcribed Image Text:

A L₁ B (1) P 2 L2 C (3) L3 D