Answer should be detailes enough. Question # 1Figure shows a tie bar made of steel. When bolted between Aand B double brackets, it is to be designed to withstand atensile load of 100 kN. The thickness of the bar will be 15mm.BUsing 6 = 105 MPa, t = 150 MPa, 6b = 375 MPa as maximumallowable stresses values for steel, determine the requiredvalues (a, b and c) for safe design of the tie bar(a) d, the bolt diameter(b) the bar dimension b at both ends(c) the bar dimension hFig 1

Given Data, P= Tensile load in the bar = 100 KN The bolt is of double brackets, so the shear load…

Figure shows a tie bar made of steel. When bolted between A and B double brackets, it is to be designed to withstand a tensile load of 100 kN. The thickness of the bar will be 15mm. Using 6 = 105 MPa, t = 150 MPa, 6b = 375 MPa as maximum allowable stresses values for steel, determine the required values (a, b and c) for safe design of the tie bar (a) d, the bolt diameter (b) the bar dimension b at both ends (c) the bar dimension h

Figure shows a tie bar made of steel. When bolted between A and B double brackets, it is to be designed to withstand a tensile load of 100 kN. The thickness of the bar will be 15mm. Using 6 = 105 MPa, t = 150 MPa, 6b = 375 MPa as maximum allowable stresses values for steel, determine the required values (a, b and c) for safe design of the tie bar (a) d, the bolt diameter (b) the bar dimension b at both ends (c) the bar dimension h

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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