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What kind of energy has a catapult when the elastic is pulled back?
When the elastic of a catapult is pulled back, it stores potential energy in the form of elastic potential energy. This potential energy is converted into kinetic energy when the catapult is released, launching the projectile forward.
What is the relationship between the elastic potential energy and the angle at which the elastic band is pulled back?
Well, elastic potential energy is energy that is released from an object by stretching or pulling. The formula for EPE is : EPE= 1/2 spring constant x extensions (squared) The rubber band is related to EPE because when you bend it back and release it, you are releasing elastic potential energy. (Note: EPE refers to "elastic potential energy".
What kind of energy has a catapult when the elastic has been back?
A catapult has potential energy stored in the elastic material when it is pulled back. This potential energy is released when the catapult is triggered, converting into kinetic energy as the projectile is launched.
How would you describe the elastic potential energy when using a slingshot?
Elastic potential energy in a slingshot is the energy stored in the stretched elastic material (such as rubber bands) when the slingshot is drawn back. This energy is converted into kinetic energy when the slingshot is released, propelling the projectile forward. The amount of elastic potential energy stored depends on how far the slingshot is drawn back.
What is the difference between elastic force and elastic potential energy?
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.
What kind of energy has a catapult when the elastic is pulled back?
When the elastic of a catapult is pulled back, it stores potential energy in the form of elastic potential energy. This potential energy is converted into kinetic energy when the catapult is released, launching the projectile forward.
What is the relationship between the elastic potential energy and the angle at which the elastic band is pulled back?
Well, elastic potential energy is energy that is released from an object by stretching or pulling. The formula for EPE is : EPE= 1/2 spring constant x extensions (squared) The rubber band is related to EPE because when you bend it back and release it, you are releasing elastic potential energy. (Note: EPE refers to "elastic potential energy".
What kind of energy has a catapult when the elastic has been back?
A catapult has potential energy stored in the elastic material when it is pulled back. This potential energy is released when the catapult is triggered, converting into kinetic energy as the projectile is launched.
When a slingshot is pulled back all the way it called?
When a slingshot is pulled back all the way, it is often referred to as being "fully drawn" or "fully cocked." At this point, the elastic potential energy is maximized, allowing for maximum force when the projectile is released. The tension in the elastic material provides the necessary energy to propel the projectile forward when the slingshot is released.
How would you describe the elastic potential energy when using a slingshot?
Elastic potential energy in a slingshot is the energy stored in the stretched elastic material (such as rubber bands) when the slingshot is drawn back. This energy is converted into kinetic energy when the slingshot is released, propelling the projectile forward. The amount of elastic potential energy stored depends on how far the slingshot is drawn back.
What is the difference between elastic force and elastic potential energy?
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.
What energy is stored in a elastic band?
Elastic potential energy is stored in an elastic band when it is stretched or compressed. This energy is potential energy that can be released when the band returns to its original shape, causing it to move back to its natural position.
When a wind up alarm rings it a what source of energy?
Elastic energy. Elastic energy is released when a substance is deformed and then released so it can go back to its former shape.
What are facts about elastic energy?
Elastic energy is a form of potential energy stored in elastic materials when they are stretched or compressed. It is proportional to the amount of deformation or displacement of the material and is characterized by Hooke's Law, which states that the force exerted by the material is directly proportional to the amount it is stretched or compressed. Elastic potential energy can be converted into kinetic energy when the material returns to its original shape, such as in a spring or rubber band.
Why does a ball bounce back up when it is dropped to the ground?
Because it is elastic, so little energy is lost in the impact . The kinetic energy it has immediately before impact is temporarily stored in the ball as potential energy, then released when the elastic material reforms into its previous shape.
Give one example of an object before and after it has gained elastic potential energy?
Elastic potential energy refers to the potential energy stored as a result of deformation of an elastic object. An example of this is a spring, which springs back before it has gained elastic potential energy. After a spring gains elastic potential energy, it will be deformed.
Would a catapult have potential energy?
Yes, a catapult has potential energy when its arm is pulled back and loaded with a projectile. The potential energy is stored in the arm's position and is released when the arm is released, launching the projectile.
