Exploring the Structure and Behavior of Elastic and Inelastic Mass in Collisions

In summary, the conversation discusses the difference between elastic and inelastic masses in terms of their behavior in collisions. The speaker is interested in the structure of different types of mass and how it affects their elasticity. They mention fundamental types of structure such as ionic crystal lattice, metallic, network, and molecular, and explain that ionic structures are inelastic due to their organized nature, while metals are elastic due to their mobile electron structure. They suggest looking up more information in a chemistry textbook for a detailed explanation.
  • #1
omin
187
1
I'm studying collisions in terms of basic mechanics (impulse, rebound, momentum, etc.)

I'm curious about the structure of types of mass that have elasticity and others than have less. I'm interested in why the masses behave they way they do because of their structure. Would somewhere here who knows even just a little about mass structure difference give a brief description of elastic type and inelastic type structures? (I mean elastic and inelastic mass in terms of how they behave toward each other in collisions.)
 
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  • #2
well, there are some fundimental types of structure. Ionic crystal lattice, metallic, network, molecular etc... Ionic is inelastic because it is very organized and when pressure is plced on it, like charges get closer to each other, causing a repultion, and a breakdown od the solid. Metals on the other hand are very ellastic,because they have a sea of electrons in their basic structure, and this sea is very mobile, and tends to flow. Theres more to the story, look it up in a chem book.
 

FAQ: Exploring the Structure and Behavior of Elastic and Inelastic Mass in Collisions

What is the difference between elastic and inelastic mass?

Elastic mass refers to the mass of an object that can be compressed or stretched without permanently changing its shape or volume. Inelastic mass, on the other hand, refers to the mass of an object that cannot be compressed or stretched without permanently changing its shape or volume.

How is elastic mass measured?

Elastic mass is typically measured using a spring balance or a weight scale. The object is attached to the spring balance or placed on the weight scale, and the resulting reading represents the elastic mass of the object.

What factors affect the elasticity of an object's mass?

The elasticity of an object's mass is affected by its material composition, temperature, and external forces. Objects made of materials with high elasticity, such as rubber or metal, are more likely to have elastic mass. Higher temperatures can also increase the elasticity of certain materials. Additionally, external forces, such as pressure or tension, can impact an object's elasticity.

How does elastic mass relate to an object's potential energy?

Elastic mass and potential energy are closely related. When an object has elastic mass, it has the potential to store energy when compressed or stretched. This stored energy is known as potential energy and can be released when the object returns to its original shape.

Can an object have both elastic and inelastic mass?

Yes, an object can have both elastic and inelastic mass. For example, a rubber ball has both elastic and inelastic mass. While the rubber itself is elastic and can be stretched without permanent changes, the air inside the ball is inelastic and cannot be compressed or stretched without permanently changing its volume.

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