Explanation Given information: The magnitude of axial load is P = 12 kips . The modulus of elasticity of the shape is E = 29 × 10 6 psi . The allowable stress in the column is σ all = 15 ksi . Calculation: The effective length of the column ( L e ) is twice the length of the column ( L ). L e = 2 L = 8 ft Consider the diameter of the rod as 2.25 in.: Find the cross sectional area of the rod ( A ) using the relation. A = π d 2 4 Here, the diameter of the rod is d . Substitute 2.25 in. for d . A = π × 2.25 2 4 = 3.976 in . 2 Find the distance between the neutral axis and the outermost fibre ( c ) using the relation. c = d 2 Substitute 2.25 in. for d . c = 2.25 2 = 1.125 in . Find the moment of inertia of the rod ( I ) using the relation. I = π d 4 64 Substitute 2.25 in. for d . I = π × 2.25 4 64 = 1.258 in . 4 Determine the critical load ( P c r ) using the equation. P c r = π 2 E I ( L e ) 2 Here, the modulus of elasticity is E , the minimum moment of inertia is I , and the effective length is L e . Substitute 29 × 10 6 psi for E , 1.258 in . 4 for I , and 8 ft for L e . P cr = π 2 × 29 × 10 6 × 1.258 ( 8 ft × 12 in . 1 ft ) 2 = 36.07 × 10 3 lb × 1 kip 1,000 lb = 36.07 kips Find the minimum radius of gyration ( r ) using the relation

7th Edition

ISBN: 8220102804487

Author: BEER

Publisher: YUZU

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Buckling of columns

The column is described as a vertical member of the structure that carries an axial compressive load, and buckling is a lateral deformation of the column under the application of load.

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Chapter 10.2, Problem 54P

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Select the lightest rod.

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Chapter 10.2, Problem 53P

Chapter 10.2, Problem 55P

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Select the lightest rod.

Solution Summary: The author calculates the cross sectional area of the rod (A) using the relation.

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