(b) In the assembly shown in Figure Q1b, the cable DE has a diameter of dcable = 6 mm and is made from S275 steel. The lengths LAE, LAB, and LBC can be calculated as follows (using the calculated factor K1 from page 2): LAE = (500 + (10 × K1)) mm LAB = (700 + (10 × K1)) mm LBC = 450 mm If a person weighing 82 kg is sitting on the seat: i. Determine the reactions at support A ii. Determine the resultant internal loadings at the cross section at point F on the assembly; point F is at the midpoint between A and B If the Young's Modulus of the S275 steel in the cable is 210 GPa and its yield strength is 275 MPa, determine the elongation of cable DE. ii. E LAE F D |A |B LAB LBC Figure Q1b

(b) In the assembly shown in Figure Q1b, the cable DE has a diameter of dcable = 6 mm and is made from S275 steel. The lengths LAE, LAB, and LBC can be calculated as follows (using the calculated factor K1 from page 2): LAE = (500 + (10 × K1)) mm LAB = (700 + (10 × K1)) mm LBC = 450 mm If a person weighing 82 kg is sitting on the seat: i. Determine the reactions at support A ii. Determine the resultant internal loadings at the cross section at point F on the assembly; point F is at the midpoint between A and B If the Young's Modulus of the S275 steel in the cable is 210 GPa and its yield strength is 275 MPa, determine the elongation of cable DE. ii. E LAE F D |A |B LAB LBC Figure Q1b

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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