Explanation Given information: The allowable yield strength in the column is σ Y = 250 MPa . The effective length of the column is L e = 5 m . The modulus of elasticity of the material is E = 200 GPa . Calculation: Show the rectangular structural tube as in Figure 1. Find the cross sectional area ( A ) of the cross section using the equation. A = B D − b d Here, the outer depth is D , the outer width is B , the inner depth is d , and the inner width is b . Substitute 127 mm for B , 178 mm for D , 111 mm for b , and 162 mm for d . A = ( 127 × 178 ) − ( 111 × 162 ) = 4 , 624 mm 2 Determine the minimum moment of inertia ( I ) using the equation. I = D B 3 12 − d b 3 12 Substitute 127 mm for B , 178 mm for D , 111 mm for b , and 162 mm for d . I = 178 × 127 3 12 − 162 × 111 3 12 = 11.92133 × 10 6 mm 4 Find the minimum radius of gyration ( r ) using the relation. r = I A Substitute 11.92133 × 10 6 mm 4 for I and 4 , 624 mm 2 for A . r = 11.92133 × 10 6 4 , 624 = 50.78 mm Find the slenderness ratio L r using the equation. L r = 4.71 E σ Y Here, the modulus of elasticity of the material is E and the allowable yield stress is σ Y Substitute 200 GPa for E and 250 MPa for σ Y . L r = 4.71 200 GPa × 10 3 MPa 1 GPa 250 = 133.22 Find the ratio of effective length ( L e ) and the minimum radius of gyration ( r y ) as follows; L e r y = 5 m × 1,000 mm 1 m 50

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Axial Load

When a bar of the uniform cross-section is acted by a load, such that the load acts along the longitudinal axis of the bar, such kinds of loadings are known as axial loadings. In general terms, a load is an external force acting on a component. An axial …

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Chapter 10.3, Problem 59P

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Find the largest centric load for the column.

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Chapter 10.3, Problem 58P

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Chapter 10 Solutions

EBK MECHANICS OF MATERIALS

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Find the largest centric load for the column.

Solution Summary: The author calculates the cross sectional area of the rectangular structural tube using the equation.

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