Explanation Assumption: The normal force is positive if it creates tension, a positive shear force will cause the segment on which it acts to rotate clockwise, and a positive bending moment will tend to bend the segment on which it acts in a concave upward manner. Loadings that are opposite to these are considered negative. Consider the force indicating the right side as positive and the left side as negative, in horizontal components of forces. Consider the force indicating upward as positive and downward as negative, in vertical components of forces. Consider the clockwise moment as negative and the anti-clockwise moment as positive, wherever applicable. The method of sections can be used to determine the internal loadings. Curved rod: Show the free-body diagram of the curved rod as in Figure (1). Using Figure (1), Along the vertical direction: Determine the vertical reaction at point A by resolving the vertical component of forces. ∑ F y = 0 A y − 300 = 0 (I) Along the horizontal direction: Determine the horizontal reaction at point A by resolving the horizontal component of forces. ∑ F x = 0 − A x + 400 = 0 (II) Moment about point A : Determine the moment at point A by taking the moment about point A . ∑ M A = 0 − M A + 300 ( 4 ) = 0 (III) Conclusion: Solve Equation (I). A y = 300 lb Solve Equation (II). A x = 400 lb Solve Equation (III). − M A + 1 , 200 = 0 M A = 1 , 200 lb-ft Segment AC : Show the free-body diagram of the segment AC as in Figure (2). Using Figure (2), Along the vertical direction: Determine the shearforce at point C by resolving the vertical component of forces. ∑ F y = 0 V C − 400 cos 45 ° + 300 sin 45 ° = 0 (IV) Along the horizontal direction: Determine the normal force at point C by resolving the horizontal component of forces

13th Edition

ISBN: 9780132915540

Author: Russell C. Hibbeler

Publisher: Prentice Hall

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Question

Chapter 7.1, Problem 38P

To determine

The normal force, shear force, and moment actingat sections passing through point C on the curved rod.

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Chapter 7.1, Problem 37P

Chapter 7.1, Problem 39P

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Chapter 7 Solutions

Engineering Mechanics: Statics

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