digit of your ID No., mm) and 10 mm thick (plus quarter of the last digit of your ID No., mm). It was subjected into different loads, as shown in the figure below. Using axial stress of 450 MPa (plus last digit of your ID No., MPa) for member a, determine the following: 1) Load P (kN). 2) Axial load (kN) held at member a and state whether compression or tension. 3) Axial deformation (mm) at member b considering its maximum cndurcd load. 4) Maximum shearing stress (MPa) due to the endured axial load exerted in member c, considering that it could produced moment due to applied torque with an eccentricity of 150 mm from the centroid of member b. 5) Shear modulus (GPa) of member b if the torque applied produced a maximum angle deformation of 5°. 2P 5 m a b 3P 3P 3P 4 panels at 3.5 m

digit of your ID No., mm) and 10 mm thick (plus quarter of the last digit of your ID No., mm). It was subjected into different loads, as shown in the figure below. Using axial stress of 450 MPa (plus last digit of your ID No., MPa) for member a, determine the following: 1) Load P (kN). 2) Axial load (kN) held at member a and state whether compression or tension. 3) Axial deformation (mm) at member b considering its maximum cndurcd load. 4) Maximum shearing stress (MPa) due to the endured axial load exerted in member c, considering that it could produced moment due to applied torque with an eccentricity of 150 mm from the centroid of member b. 5) Shear modulus (GPa) of member b if the torque applied produced a maximum angle deformation of 5°. 2P 5 m a b 3P 3P 3P 4 panels at 3.5 m

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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