30mm25mm20mm10 kN 6 kN+4kNAB300 mm600 mm400 mmFigure Q2 Q2 Figure Q2 shows a shaft consists of Rods AB, BC and CD which made of Aluminium, Brassand Steel, respectively. Given the modulus of elasticity of materials are Eaiuminium = 69 GPa,Eirass = 100 GPa and Esteel= 250 GPa. Determine,I)The internal forces for each segment (AB, BC and CD) by showingappropriate free-body diagram, FBD.ii)The total strain energy in the whole rod assembly AB, BC andCD.iii)The allowable stress in the rod assembly, and justify the chosenanswer

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Q2 Figure Q2 shows a shaft consists of Rods AB, BC and CD which made of Aluminium. Brass and Steel, respectively. Given the modulus of elasticity of materials are Egiuminium= 69 GPa, Ebrass = 100 GPa and Esteel= 250 GPa. Determine, I) The internal forces for each segment (AB, BC and CD) by showing appropriate free-body diagram, FBD. ii) The total strain energy in the whole rod assembly AB, BC and CD. iii) The allowable stress in the rod assembly, and justify the chosen answer

Q2 Figure Q2 shows a shaft consists of Rods AB, BC and CD which made of Aluminium. Brass and Steel, respectively. Given the modulus of elasticity of materials are Egiuminium= 69 GPa, Ebrass = 100 GPa and Esteel= 250 GPa. Determine, I) The internal forces for each segment (AB, BC and CD) by showing appropriate free-body diagram, FBD. ii) The total strain energy in the whole rod assembly AB, BC and CD. iii) The allowable stress in the rod assembly, and justify the chosen answer

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter1: Tension, Compression, And Shear

Section: Chapter Questions

Problem 1.7.6P: A circular aluminum tube of length L = 600 mm is loaded in compression by forces P (see figure). The...

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