Equivalent Spring Constant (3 springs attached to a swinging rod)

AI Thread Summary
The discussion centers on deriving the equivalent spring constant for a system of three springs attached to a swinging rod, emphasizing the relationship between applied force and displacement. One participant notes a discrepancy between their solution and the solution manual, particularly regarding the assumption that all springs extend equally. They question whether their method or the manual's approach, which simplifies the spring extensions, is more accurate. Clarification is sought on whether the stiffness values provided are the actual stiffnesses or effective stiffnesses influenced by the springs' different displacements. Ultimately, it is suggested that if the stiffness values are indeed the real stiffnesses, the participant's solution may be correct.
qwerty007
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Homework Statement


Q) Derive the expression for the equivalent spring constant that relates the applied force F to the
resulting displacement x of the system shown in Fig. 1.86. Assume the displacement of the
link to be small.




Homework Equations


I have solved the question but when i checked it on the solution manual, the answer was different. In the solution manual they have approximated the extensions of all the springs as the same but i think they will be different.
Please let me know whether my method is correct or the one in the solution manual.

MY WORKING:
http://www.mediafire.com/view/2bdhs46w9igg83d/IMG_20140510_214819.jpg

solution manual:
http://www.mediafire.com/view/ks0t5btpg5y7d13/IMG_20140510_214607.jpg


The Attempt at a Solution


There are 2 methods and each leading to different values of Keq. Which method should i follow?
 
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Figure 1.86 wasn't posted but based on the information you provided, I think I like your solution better.
 
Thanks for your reply.
Figure 1.86 is the same as what is drawn in my working.
 
The only thing that is not absolutely clear from your two attachments is whether the different stiffness of k1, k2, k3 are meant to be the "real" stiffness, or the effective stiffness including effect of the different displacements as the arm rotates.

Assuming they are the real stiffness of the 3 springs, I think your answer is correct.
 

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