In inelastic collisions most of the kinetic energy is lost/ transferred. Instead the energy is transformed into other energy type's i.e. potential, thermal and sound energy. For example when the vehicle collides with another object or vehicle, the vehicles panels, tyres, and other parts reach extremely high temperatures due to kinetic energy from the vehicle traveling on the road is transferred into the particles. Even the other object or the immediate surroundings are heated.
Elastic potential energy is stored in stretched or compressed elastic materials, such as a rubber band or a spring. When the material is deformed, this energy is stored in the material and can be released when the material returns to its original shape.
The energy stored in a stretched elastic is potential energy, specifically elastic potential energy. When the elastic is stretched, work is done to stretch it, and this work is stored as potential energy in the elastic material.
To increase stored elastic energy, you can stretch the material further, increasing its potential energy. To decrease stored elastic energy, you can release the tension or compression in the material, causing it to return to its original shape and reducing its potential energy.
In stretched elastic, the primary forms of energy present are elastic potential energy, which is the energy stored in the elastic material due to its deformation, and kinetic energy, if the elastic material is moving.
Elastic force is the force exerted by a stretched or compressed elastic material to return to its original shape. Elastic potential energy is the energy stored in an elastic material when it is stretched or compressed. The elastic force is responsible for restoring the material to its original shape, converting the stored elastic potential energy back to kinetic energy.
Elastic potential energy is stored in stretched or compressed elastic materials, such as a rubber band or a spring. When the material is deformed, this energy is stored in the material and can be released when the material returns to its original shape.
Thermal Energy
The energy stored in a stretched elastic is potential energy, specifically elastic potential energy. When the elastic is stretched, work is done to stretch it, and this work is stored as potential energy in the elastic material.
To increase stored elastic energy, you can stretch the material further, increasing its potential energy. To decrease stored elastic energy, you can release the tension or compression in the material, causing it to return to its original shape and reducing its potential energy.
In stretched elastic, the primary forms of energy present are elastic potential energy, which is the energy stored in the elastic material due to its deformation, and kinetic energy, if the elastic material is moving.
Elastic force is the force exerted by a stretched or compressed elastic material to return to its original shape. Elastic potential energy is the energy stored in an elastic material when it is stretched or compressed. The elastic force is responsible for restoring the material to its original shape, converting the stored elastic potential energy back to kinetic energy.
The energy in a catapult is stored as potential energy, specifically elastic potential energy. This energy is stored in the stretched material of the catapult, such as a spring or elastic band, ready to be converted into kinetic energy when the catapult is released.
Elastic energy is the potential energy stored when an object is deformed, such as when a spring is compressed or stretched. It is a form of mechanical energy that can be converted into kinetic energy when the object returns to its original shape. The amount of elastic energy stored depends on the elastic properties of the material and the amount of deformation.
Elastic potential energy is stored in a toy glider when a rubber band or elastic material is stretched or compressed before being released. As the elastic material returns to its original shape, it transfers stored energy to the toy glider, propelling it forward.
The "elastic portion" is precisely the part where the material returns to its original shape, and thus returns its energy. Once the material does NOT return to its previous shape, it doesn't exert a force back to the original position, and there is no way to get the energy back.
The type of strain stored when a material is bent or stretched is typically elastic potential energy. This energy is stored within the material's molecular structure and is released when the material returns to its original shape.
Another name for elastic energy is potential energy. It is the energy stored within a material when it is deformed or stretched, which can be released and converted into other forms of energy when the material returns to its original shape.