The California mussel (Mytilus californianus) attaches itself to a rock or other solid surface with a bundle of filaments known as the byssus. The resilience of the proximal end of its byssus is 0.53. Imagine that its is stretched and then allowed to relax. As it relaxes, 5.00 J of thermal energy is released.
How many Joules of work were done on the byssus to stretch it?
How many Joules of work did the byssus do as it relaxed?
Resilence coefficient means the amount or ration of energy it retains.
So it retains the 53% of the energy provided to it or 53% of the work done by it.
So, work done during relaxation = 5 *100 / 47 = 10.64 J
Work done during relaxation = 10.64 * 100 / 53 = 20.07 J
The California mussel (Mytilus californianus) attaches itself to a rock or other solid surface with a...
The California mussel (Mytilus californianus) attaches itself to a rock or other solid surface with a bundle of filaments known as the byssus. The resilience of the proximal end of its byssus is 0.53. Imagine that its is stretched and then allowed to relax. As it relaxes, 5.00 J of thermal energy is released. How many Joules of work were done on the byssus to stretch it? How many Joules of work did the byssus do as it relaxed?