It should be string. That is elastic potential energy
When you stretch a rubber band, you give it potential energy by storing mechanical energy in its stretched structure. This potential energy is then released as kinetic energy when the rubber band is released and snaps back to its original shape.
When you stretch a spring, the energy stored is potential energy from the work done to stretch the spring. This potential energy is then converted into kinetic energy when the spring is released and returns to its original position.
potential energy due to the stored tension in the rubber bands. When released, this potential energy is converted into kinetic energy to launch the projectile forward.
Yes to much tea does give you stretch marks
Elastic potential energy is stored when you stretch a spring. This energy is a type of potential energy that is stored in an object when it is compressed or stretched.
When you stretch a spring, the energy is stored as potential energy in the form of elastic potential energy. This potential energy is stored in the spring due to the deformation of its shape, and it is released when the spring returns to its original position.
"Elasticity"
You can give a rubber band potential energy by stretching it. When you stretch a rubber band, you are doing work on it, which causes the rubber band to store potential energy in the form of strain energy. This potential energy is released when the rubber band is allowed to return to its original shape.
its potential energy is 1/2kx^2 -k is its spring constant and x its displacement - the higher the stretch, the more the energy which goes as the square of the stretch, x
"elastic energy"
When you stretch a spring, it stores potential energy in the form of elastic potential energy. The spring will exert a restoring force trying to return to its original shape. The amount of force required to stretch the spring is directly proportional to the amount of deformation.
When you stretch a rubber band, you are storing potential energy in the form of elastic potential energy. This energy is stored in the stretched molecular bonds of the rubber band, ready to be released when the band is let go, causing it to snap back to its original shape.