A solid brass [E-99 GPa) axial member is loaded and supported as shown. Segments (1) and (2) each have a diameter of 20 mm and segment (3) has a diameter of 11 mm. Assume L₁ - 1.6 m, L₂-1.0 m, L3-1.6 m, R-36 kN, Q-14 kN, and 28 kN. Determine: (a) the deformation of segment (2). (b) the deflection of joint D with respect to the fixed support at A. (c) the maximum normal stress in the entire axial member. 4₁ L₂ Ly (3) (1) A (2) B C

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Part 2 (a) Determine the axial deformation of section (2). Answer: 8₂ = Part 3 (b) Determine the axial force in section (1) and section (3). Answers: F₁ = Part 4 Answer: VD- mm. Part 5 (b) Determine the deflection of joint D (positive if downward) with respect to the fixed support at A. kN, F3 = Answer: Omax = mm. kN. (c) Determine the maximum normal stress in the entire axial member. Give answer in MPa. MPa.

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A solid brass [E = 99 GPa] axial member is loaded and supported as shown. Segments (1) and (2) each have a diameter of 20 mm and segment (3) has a diameter of 11 mm. Assume L₁ = 1.6 m, L₂=1.0 m, L3= 1.6 m, R = 36 kN, Q = 14 kN, and P = 28 kN. Determine: (a) the deformation of segment (2). (b) the deflection of joint D with respect to the fixed support at A. (c) the maximum normal stress in the entire axial member. L₁ L2 L3 (3) Answer: F₂ = (1) D B C (a) Determine the axial force in section (2) in kN. kN.