12. BIO The Wing of the Hawkmoth Experiments performed on the wing of a hawkmoth (Manduca sexta) show that it deflects by a distance of x = 4.8 mm when a force of magnitude F = 3.0 mN is applied at the tip, as indicated in FIGURE 8-28. Treating the wing as an ideal spring, find (a) the force constant of the wing and (b) the energy stored in the wing when it is deflected. (c) What force must be applied to the tip of the wing to store twice the energy found in part (b)?

12. BIO The Wing of the Hawkmoth Experiments performed on the wing of a hawkmoth (Manduca sexta) show that it deflects by a distance of x = 4.8 mm when a force of magnitude F = 3.0 mN is applied at the tip, as indicated in FIGURE 8-28. Treating the wing as an ideal spring, find (a) the force constant of the wing and (b) the energy stored in the wing when it is deflected. (c) What force must be applied to the tip of the wing to store twice the energy found in part (b)?

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Question

Explanation must be typed/digitally illustrated if appropriate.

12. BIO The Wing of the Hawkmoth Experiments performed on the
wing of a hawkmoth (Manduca sexta) show that it deflects by a
distance of x = 4.8 mm when a force of magnitude F = 3.0 mN
is applied at the tip, as indicated in FIGURE 8-28. Treating the wing
as an ideal spring, find (a) the force constant of the wing and
(b) the energy stored in the wing when it is deflected. (c) What
force must be applied to the tip of the wing to store twice the
energy found in part (b)?

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