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What proportions do liquids and soilds share?
Liquids and soilds share properties that are Definte mass and volume and that they can be transformed into eachother :)
Define amorphous solid?
Generally they are two types of solids 1. Crystalline solids 2. Amorphous solids. Amorphous solids are those solids which having different properties in different directions. They didnt have sharp melting and boiling points.
Are Amorphous metals metallic?
Yes, amorphous metals are metallic in nature. They possess the characteristic metallic properties such as high electrical and thermal conductivity, luster, and ductility. However, they lack the crystalline structure of traditional metals and exhibit unique properties like high strength and corrosion resistance.
What has the author A R Ferchmin written?
A. R. Ferchmin has written: 'Amorphous magnetism' -- subject(s): Amorphous substances, Bibliography, Magnetic materials, Magnetic properties
Define the 2 different types of soilds?
Crystalline solids have a well-ordered, repeating internal structure with distinct melting points and sharp boundaries between phases. Amorphous solids lack a regular internal structure and have a disordered arrangement of particles, resulting in gradual softening upon heating and no distinct melting point.
What are the similarities between an amorphous and crystalline solid?
Both amorphous and crystalline solids are composed of atoms or molecules that are closely packed together. However, in crystalline solids, these particles are arranged in a regular, repeating pattern, while in amorphous solids they are randomly arranged. Amorphous solids have a disordered structure, unlike crystalline solids with a well-defined geometric arrangement.
What are the differences between amorphous and semi-crystalline materials in terms of their structure and properties?
Amorphous materials have a disordered atomic structure, while semi-crystalline materials have both ordered and disordered regions. This difference in structure affects their properties, with amorphous materials being more flexible and transparent, while semi-crystalline materials are stronger and have higher melting points.
What are crystalline and amorphous two categories of?
These are two out of three categories of solids according to their geometry and arrangement. Crystalline solids have proper geometry having the particle arranged on definite axes possessing sharp melting point such as common salt, diamond, etc. Whereas amorphous solids neither have ordered arrangement nor a definite geometry. They have long range melting point such as glass, plastic, etc.
Which are the following is an amorphous solid?
Glass is an example of an amorphous solid. Unlike crystalline solids, amorphous solids do not have a regular atomic structure and lack long-range order. This results in their unique properties such as being able to be shaped easily while maintaining a solid form.
What are the unique properties and applications of amorphous glass?
Amorphous glass is a type of glass that lacks a crystalline structure, giving it unique properties such as transparency, hardness, and resistance to heat and chemicals. It is commonly used in windows, lenses, and optical fibers due to its clarity and durability. Additionally, amorphous glass can be molded into various shapes, making it versatile for applications in electronics, construction, and medical devices.
What is the difference between a crystalline and an amorphous solid material?
Crystalline solids have a well-ordered arrangement of atoms or molecules in a repeating pattern, whereas amorphous solids lack a long-range order and have a random arrangement of atoms or molecules. This difference leads to variations in properties such as melting point, transparency, and mechanical strength between the two types of solids.
What is the allotropes for boron?
The allotropes of boron include amorphous boron, crystalline boron, and boron nitride (hexagonal and rhombohedral forms). These allotropes have different structures and properties, with applications in various industries like ceramics, electronics, and aerospace. Boron exhibits a wide range of properties due to its different structures and bonding configurations in these allotropes.
