Explanation Given information: The vertical force F is 0.5 N. Calculation: Illustrate a free body diagram of the rigid metal strip as shown below in Figure (1). Illustrate the diagram of geometry as shown below in Figure (2). Use to Figure (1). Determine the force at A and C by taking the moment about point B . ∑ M B = 0 F A = F C = F . (1) Along the vertical direction: Determine the force F B at B using Equation of equilibrium. ∑ F y = 0 F B = 2 F (2) Use to Figure (2). Express the relationship between the length of stretch ( x ) and the length of springs A and B . x y A = L 1 − x y B . (3) Here, the length of spring A is y A , the distance between A and B is L 1 , and the length of spring B is y B . Express the relationship between the force ( F ) and stiffness of springs ( k ). 2 F F = k y B k y A . (4) Express the relationship between length of stretch ( x ) and length of springs A and C . x y A = L 2 − x y C . (5) Here, the length between A and C is L 2 and the length of spring C is y C . Show the calculation of stiffness of spring as follows: Simplify Equation (4) and it can be written as follows. 2 = y B y A 2 y A = y B (6) Substitute 50 mm for L 1 and 2 y A for y B in Equation (3)

Statics and Mechanics of Materials (5th Edition)

5th Edition

ISBN: 9780134382593

Author: Russell C. Hibbeler

Publisher: PEARSON

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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 4.4, Problem 18P

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Find the maximum stiffness of the springs at A and B.

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Chapter 4 Solutions

Statics and Mechanics of Materials (5th Edition)

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Find the maximum stiffness of the springs at A and B .

Solution Summary: The author illustrates a free body diagram of the rigid metal strip as shown in Figure (1). Determine the force at A and C using Equation of equilibrium.

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Chapter 4 Solutions