A member is formed by connecting two steel bars shown below. Assuming that the bars are prevented from buckling sideways, calculate the magnitude force "P" that will cause the total length of the member to decrease 0.89 mm the values of elastic modulus for steel is 209 MPa. Take H1 = 7 cm, H2 = 11 cm, top bar (R) is 3 x 3 cm and bottom bar (Q) is 6 x 6 cm. Also, determine the stress-induced in each section of the bar. i) Magnitude Force, P in(N) = ii) Stress-induced in the top bar in(N/mm^2) = iii) Stress-induced in the bottom bar in(N/mm^2) =
A member is formed by connecting two steel bars shown below. Assuming that the bars are prevented from buckling sideways, calculate the magnitude force "P" that will cause the total length of the member to decrease 0.89 mm the values of elastic modulus for steel is 209 MPa. Take H1 = 7 cm, H2 = 11 cm, top bar (R) is 3 x 3 cm and bottom bar (Q) is 6 x 6 cm. Also, determine the stress-induced in each section of the bar. i) Magnitude Force, P in(N) = ii) Stress-induced in the top bar in(N/mm^2) = iii) Stress-induced in the bottom bar in(N/mm^2) =
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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A member is formed by connecting two steel bars shown below. Assuming that the bars are prevented from buckling sideways, calculate the magnitude force "P" that will cause the total length of the member to decrease 0.89 mm the values of elastic modulus for steel is 209 MPa. Take H1 = 7 cm, H2 = 11 cm, top bar (R) is 3 x 3 cm and bottom bar (Q) is 6 x 6 cm. Also, determine the stress-induced in each section of the bar.
i) Magnitude Force, P in(N) =
ii) Stress-induced in the top bar in(N/mm^2) =
iii) Stress-induced in the bottom bar in(N/mm^2) =
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