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One example would be the construction of a simple rubber ball. If hollow, the ball is filled with air. When the ball is bounced, the rubber is deformed and the air is compressed. Due to the elasticity of the rubber AND the air, they both try to return to their original shapes. The ball bounces, ta da!

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Relation between elastic constsnt?

Elastic constants refer to the physical properties that characterize the elastic behavior of materials, such as Young's modulus, shear modulus, and bulk modulus. These constants are interrelated mathematically and are used to describe how materials respond to external forces by deforming elastically. Understanding the relationship between elastic constants is crucial in predicting the mechanical behavior of materials under different loading conditions.


What is meant by elastic behavior?

Elastic behavior refers to a material's ability to return to its original shape after being deformed under stress. When a material displays elastic behavior, it can withstand stretching or compressing forces without experiencing permanent deformation. This property is important in various applications where materials need to maintain their original shape and functionality.


Is fruit elastic and why?

Fruit is not elastic in the same way that rubber or other elastic materials are. While fruit can deform under pressure and return to its original shape to some extent, it does not exhibit true elastic behavior because it does not show the same level of energy storage and release.


What are examples of elastic matter?

Rubber bands, springs, and bungee cords are examples of materials that exhibit elastic behavior, meaning they can deform under stress and return to their original shape once the stress is removed.


What are some examples of elastic materials?

Rubber bands, bungee cords, and elastic waistbands in clothing are examples of elastic materials. These materials can deform under stress and return to their original shape once the stress is removed due to their elastic properties.

Related Questions

Relation between elastic constsnt?

Elastic constants refer to the physical properties that characterize the elastic behavior of materials, such as Young's modulus, shear modulus, and bulk modulus. These constants are interrelated mathematically and are used to describe how materials respond to external forces by deforming elastically. Understanding the relationship between elastic constants is crucial in predicting the mechanical behavior of materials under different loading conditions.


What is meant by elastic behavior?

Elastic behavior refers to a material's ability to return to its original shape after being deformed under stress. When a material displays elastic behavior, it can withstand stretching or compressing forces without experiencing permanent deformation. This property is important in various applications where materials need to maintain their original shape and functionality.


What has the author O H Varga written?

O. H. Varga has written: 'Stress-strain behavior of elastic materials: selected problems of large deformations' -- subject(s): Rubber, Testing, Strains and stresses, Deformation (Mechanics), Deformations (Mechanics) 'Stress-strain behavior of elastic materials'


What are the assumptions upon which the elastic torsion formula is based?

1. Elastic Deformation 2. neglect structural weight I'd explain more but have Mechanics of Materials final in a couple hours.


Is fruit elastic and why?

Fruit is not elastic in the same way that rubber or other elastic materials are. While fruit can deform under pressure and return to its original shape to some extent, it does not exhibit true elastic behavior because it does not show the same level of energy storage and release.


What are examples of elastic matter?

Rubber bands, springs, and bungee cords are examples of materials that exhibit elastic behavior, meaning they can deform under stress and return to their original shape once the stress is removed.


What materials are springy?

These materials are called "elastic materials.".


What is ermat?

Ermat, or Ermat's law, typically refers to a concept in materials science related to the mechanical behavior of materials, particularly in the context of elastic and plastic deformation. It may also refer to specific formulations or models used to predict how materials respond under stress. If you're looking for a different context or a specific application of "ermat," please provide more details.


What are some examples of elastic materials?

Rubber bands, bungee cords, and elastic waistbands in clothing are examples of elastic materials. These materials can deform under stress and return to their original shape once the stress is removed due to their elastic properties.


Is it true or false if squeezing and stretching matter involves elastic forces?

True. Squeezing and stretching matter can involve elastic forces, which result from the deformation of the material and its ability to return to its original shape once the force is removed. This behavior is characteristic of elastic materials such as rubber or springs.


What are non examples of elastic rebound?

Non-examples of elastic rebound include plastic deformation, where materials permanently change shape under stress without returning to their original form, and ductile failure, where materials stretch and yield rather than snap back. Other non-examples are situations involving brittle fracture, where materials break suddenly without significant deformation, and fluid flow in geological formations, where fluids move without the elastic properties of solid materials. These scenarios do not exhibit the characteristic recovery behavior of elastic rebound.


ELASTIC MATERIALS?

Materials that can be compressed or extended without breaking