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∙ 9y agoelastic
Mossie Auer
This material is called an "elastomer." Elastomers have the property of elasticity, meaning they can be stretched or deformed and then return to their original shape when the force is removed. Rubber is an example of an elastomer material.
Shape memory alloys, such as Nitinol, can return to their original shape after being deformed when heated. These materials exhibit unique characteristics that allow them to "remember" their original shape and revert back to it upon heating.
The metal that returns to its original shape when heated after being bent is called memory metal or shape memory alloy, such as nitinol. This material has the ability to "remember" its original shape and can revert to it when heated above a certain temperature. It is used in various applications, including in medical devices and robotics.
Super bouncy balls are made from a polymer material, typically rubber or a synthetic compound like polybutadiene, which is not a mixture but a homogeneous material. The bouncy property comes from the elasticity of the polymer, allowing the ball to regain its shape after being deformed.
In scientific terms, malleable refers to the ability of a material to be deformed under compression without fracturing. This property allows the material to be shaped into different forms without breaking.
Rubber is a polymer, a type of matter that is made up of long chains of molecules. Specifically, it is a type of elastomer, which means it can stretch and return to its original shape after being deformed.
elastic
A material that returns to its original shape after being deformed is called an "elastomer." Elastomers possess elasticity and can stretch and deform under stress, then return to their original shape once the stress is removed. Examples of elastomers include rubber and silicone.
smart alloy or pollymer but think its smart
elastic deformation
The elastic material of the balloon naturally returns to its original shape when the force (from your finger) is removed. This is due to the elasticity and flexibility of the material, which allows it to recover its original form after being stretched or deformed.
Energy stored in a deformed material is only stored in its elastic portion because the material can return to its original shape when the deforming force is removed. In the elastic range, the material behaves elastically, meaning that it deforms reversibly and stores energy in the form of potential energy within its atomic or molecular structure. If the deformation goes beyond the elastic limit, the material starts to deform plastically, and energy is dissipated as heat instead of being stored elastically.
Elastic potential energy is stored in a stretched string, which is the energy stored in an object when it is deformed (such as being stretched) and can be released when the object returns to its original shape.
The ability of a material to bounce back after being disturbed is known as resilience. It is a measure of how well a material can return to its original shape or position after being deformed. Materials with high resilience are able to absorb energy and resist permanent deformation.
Rubber is known for its elasticity, as it can stretch and return to its original shape without being permanently deformed. Silicone is also a material with high elasticity and flexibility, often used in applications where stretchability is needed.
The ability of a material to bounce after being disturbed is called resilience. It is a measure of how well a material can return to its original shape or position after being deformed by an external force. Materials with high resilience are able to absorb energy and then release it, allowing them to bounce back effectively.
No, elasticity is the ability of a material to return to its original shape after being stretched or deformed. If a substance is unable to stretch, it would lack elasticity.
The ability of a material to bounce back after being disturbed is known as resilience. It is a measure of the material's ability to absorb energy when deformed and return to its original shape once the deforming force is removed. Resilience is important in various applications, such as in engineering materials and sports equipment.