Two vertical steel rods support the rigid bar as shown. Initially, the rods are stress-free. Given the data below, determine the stress of rods A and B after the 20 kN load is applied. Neglect the weight of the bar and use E = 200 GPa for steel. L= 3 m D = 3.5 mm A. Stress of rod A (MPa) B B. Stress of rod B (MPa) A C. At what temperature AT change would the stresses for both rods be equal? Use a = 11.7 x 106 mm/mmC° (C°) L= 4 m 4m 2m 2m D= 5 mm 20 kN

Two vertical steel rods support the rigid bar as shown. Initially, the rods are stress-free. Given the data below, determine the stress of rods A and B after the 20 kN load is applied. Neglect the weight of the bar and use E = 200 GPa for steel. L= 3 m D = 3.5 mm A. Stress of rod A (MPa) B B. Stress of rod B (MPa) A C. At what temperature AT change would the stresses for both rods be equal? Use a = 11.7 x 106 mm/mmC° (C°) L= 4 m 4m 2m 2m D= 5 mm 20 kN

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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Determine the load that can be applied at the end of the rigid bar if the stressin either spring shown in the figure shall not exceed 200MPa. Present detailed drawings/FBD’s illustrating your solution.
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