potential energy
If the rubber band stretch increases, then the potential energy will increase. Or: If the rubber band stretch decreases, then the potential energy will decrease.
Yes. When you stretch a rubber band you are "giving" it mechanical energy, like a rechargeable battery is given electricity. The more you stretch the rubber band the more mechanical energy you are storing in it.
If you stretch a rubber band you have created tension, and therefore strain energy. If you stretch a rubber band you have created tension, and therefore strain energy. Latent energy. Potential energy
you give it elastic potential energy.
when we stretch rubber band we apply a force on it and this force is stored in the band in form of potential energy and when we release our hand potential energy converts into kinetic energy an thus hits our hand with greater force.
If the rubber band stretch increases, then the potential energy will increase. Or: If the rubber band stretch decreases, then the potential energy will decrease.
Yes. When you stretch a rubber band you are "giving" it mechanical energy, like a rechargeable battery is given electricity. The more you stretch the rubber band the more mechanical energy you are storing in it.
Stretch the rubber band.
If you stretch a rubber band you have created tension, and therefore strain energy. If you stretch a rubber band you have created tension, and therefore strain energy. Latent energy. Potential energy
you give it elastic potential energy.
when we stretch rubber band we apply a force on it and this force is stored in the band in form of potential energy and when we release our hand potential energy converts into kinetic energy an thus hits our hand with greater force.
The rubber band doesn't produce energy.It stores the energy that you put into it when you stretch it.The harder a rubber band it is to stretch some distance, the more energy it's storing,and the more energy it'll deliver when you release it.
It has potential to do work. Looking at it another way, it requires energy to stretch the rubber band; this energy can be recovered - for example, by pulling something - when the rubber band gets back to its normal position.
When it's released, the rubber band delivers almost as much energy as you had to produce in order to stretch it. The little bit that's missing is the energy that caused the rubber band to get warm as you stretched it.
it means when you get something that has energy in it like a rubber band when you stretch it it has energy or a spring when you pull it it has energy and/or when you squish it, it has energy in it also
elastic potential energy:]The rubber band has strain energy, equal to the band 1/2 spring constant times the square of the stretch. This is converted to kinetic energy when released.
compressed spring