The composite beam in the following figure ismade of wood material (A) and steel material(B).h1Mh2b=150 mmTake E1 = 12 GPa for material A, and E2 =200GPa for material B, h1 = 150 mm, h2 = 40 mm,and b = 150 mm.a) Determine the transformation factor.b) Determine the location of neutral axiscalculated from a reference axis located at thebottom of the section.c) Calculate the moment of inertia about theneutral axis in mm4.Part A and part B independentPart A:If the beam is subjected to a bending momentof M = 4 kN.m.a) Calculate the maximum compressive stress.b) Calculate the maximum tensile stress.Part B:If the allowable bending stress of the wood is10 MPa and that of steel is 200 MPaa) Determine the maximum moment (M) thatcan be applied.0.06 16.67 200.636.38 mm 23.85 mm 37.45 mm29.13 mm 10 mm9357974.146238649.43 18715948.283342307.69 13277168.373.43 MPa 5.14 MPa 1.71 MPa 6.9 MPa2.76 MPa 4.28 MPa 4.94 MPa 3.43 MPa15.55 MPa 23.33 M7.78 MPa28.54 MPa 11.28 MPa

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Answered: The composite beam in the following…

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter5: Stresses In Beams (basic Topics)

Section: Chapter Questions

Problem 5.5.9P: A seesaw weighing 3 lb/ft of length is occupied by two children, each weighing 90 lb (see figure)....

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