Consider two axially loaded columns, namely, 1 and 2, made of a linear elastic material with Young's modulus 2 × 10³ MPa, square cross-section with side 10 mm, and length 1 m. For Column 1, one end is fixed and the other end is free. For Column 2, one end is fixed and the other end is pinned. Based on the Euler's theory, the ratio (up to one decimal place) of the buckling load of Column 2 to the buckling load of Column 1 is
Consider two axially loaded columns, namely, 1 and 2, made of a linear elastic material with Young's modulus 2 × 10³ MPa, square cross-section with side 10 mm, and length 1 m. For Column 1, one end is fixed and the other end is free. For Column 2, one end is fixed and the other end is pinned. Based on the Euler's theory, the ratio (up to one decimal place) of the buckling load of Column 2 to the buckling load of Column 1 is
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![Consider two axially loaded columns, namely, 1 and 2, made of a linear elastic material with Young's modulus 2 × 105
MPa, square cross-section with side 10 mm, and length 1 m. For Column 1, one end is fixed and the other end is free.
For Column 2, one end is fixed and the other end is pinned. Based on the Euler's theory, the ratio (up to one decimal
place) of the buckling load of Column 2 to the buckling load of Column 1 is](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe8e0f9d0-c12d-44a9-a517-2a08bea4569d%2F09f7518d-3db6-41bf-ade3-f380f65b0c62%2Faallw1m_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Consider two axially loaded columns, namely, 1 and 2, made of a linear elastic material with Young's modulus 2 × 105
MPa, square cross-section with side 10 mm, and length 1 m. For Column 1, one end is fixed and the other end is free.
For Column 2, one end is fixed and the other end is pinned. Based on the Euler's theory, the ratio (up to one decimal
place) of the buckling load of Column 2 to the buckling load of Column 1 is
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