What factors affect the energy of a non-linear spring?

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The energy of a non-linear spring is influenced by the spring constant (k) and the non-linear coefficient (q), with energy being derived from the integral of the force function. Any alteration in k or q will result in a change in the energy stored in the spring for a specific displacement. Changing the material of the spring is the most straightforward way to modify these constants, although this may affect the type of non-linearity present. Heat treatment can also adjust material constants, but its effectiveness is limited to specific scenarios. Overall, both k and q are critical in determining the energy characteristics of a non-linear spring.
Jamesss
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The energy of a spring is the work done on the spring, and for a simple spring with F=-kx the energy may be changed by changing the constant k.

In the non-linear case eg F = kx - 4qx^3 we would take the integral to obtain energy. But the question I thought was trivial was, "what values of k and q would be needed to cause a change in the energy of the spring?" Won't any change in either k or q change the energy? Which in any case makes it a rhetorical question?

James
 
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Jamesss said:
Which in any case makes it a rhetorical question

Yes, it does. Changing either will cause the energy stored for a given 'x' to change.

Of course, the only easy way to change the material constants is to change the material itself. And then you may no longer have the same kind of non-linearity. You could also change the material constants some by heat treatment, but only in certain cases.
 

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