Glass: Difference between revisions
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{{short description|A detailed overview of glass, its properties, types, and uses}} | |||
== | ==Introduction== | ||
[[File:Fassade_Wilhelmstrasse_65,_Berlin-Mitte,_160417,_ako.jpg|Glass facade in Berlin|thumb|right]] | |||
'''Glass''' is a non-crystalline, often transparent amorphous solid that has widespread practical, technological, and decorative uses. The most familiar and historically significant types of glass are based on the chemical compound [[silica]] (silicon dioxide), the primary constituent of sand. Glass is typically brittle and optically transparent, making it a versatile material for a variety of applications. | |||
== | ==Composition and Structure== | ||
The most | [[File:Silica.svg|Silica structure|thumb|left]] | ||
The primary component of most glass is silica, which forms a network structure that lacks the long-range order of a crystal. This amorphous structure is what gives glass its unique properties, such as transparency and brittleness. Other compounds, such as soda (sodium carbonate) and lime (calcium oxide), are often added to modify the properties of glass, such as its melting temperature and durability. | |||
== | ==Types of Glass== | ||
== | ===Crystalline vs. Amorphous=== | ||
Glass is | [[File:Crystalline_polycrystalline_amorphous2.svg|Crystalline, Polycrystalline, Amorphous structures|thumb|right]] | ||
Glass is distinct from crystalline solids in that it does not have a regular lattice structure. Instead, it is amorphous, meaning its atomic structure is disordered. This lack of order is what allows glass to be transparent, as there are no grain boundaries to scatter light. | |||
== | ===Natural Glass=== | ||
* [[ | |||
* [[ | ====Obsidian==== | ||
* [[ | [[File:Lipari-Obsidienne_(5).jpg|Lipari Obsidian|thumb|left]] | ||
* [[ | Obsidian is a naturally occurring volcanic glass formed when lava cools rapidly. It is typically dark and has been used historically for tools and weapons due to its sharp edges. | ||
====Moldavite==== | |||
[[File:Moldavite_Besednice.jpg|Moldavite|thumb|right]] | |||
Moldavite is a type of tektite, a natural glass formed by the impact of a meteorite. It is typically green and is found in central Europe. | |||
====Fulgurites==== | |||
[[File:Fulgurites-algeria.jpg|Fulgurites from Algeria|thumb|left]] | |||
Fulgurites are glassy tubes formed when lightning strikes sand, fusing the grains together. They are often hollow and can be found in sandy areas. | |||
====Trinitite==== | |||
[[File:Trinitite_from_Trinity_Site.jpg|Trinitite from Trinity Site|thumb|right]] | |||
Trinitite is a glassy residue left on the desert floor after the detonation of the first nuclear bomb at the Trinity site in New Mexico. It is a man-made glass formed by the intense heat of the explosion. | |||
====Libyan Desert Glass==== | |||
[[File:Libyan_Desert_Glass.jpg|Libyan Desert Glass|thumb|left]] | |||
Libyan Desert Glass is a natural glass found in the eastern Sahara, believed to have formed from a meteorite impact. It is often yellow and has been used in ancient jewelry. | |||
==Applications== | |||
Glass is used in a wide range of applications due to its transparency, durability, and chemical resistance. Common uses include windows, bottles, and optical lenses. In technology, glass is used in the production of fiber optics and as a substrate for electronic displays. | |||
==Related Pages== | |||
* [[Silica]] | |||
* [[Obsidian]] | |||
* [[Tektite]] | |||
* [[Fulgurite]] | |||
* [[Trinitite]] | |||
* [[Libyan Desert Glass]] | |||
[[Category:Glass]] | [[Category:Glass]] | ||
Latest revision as of 11:07, 23 March 2025
A detailed overview of glass, its properties, types, and uses
Introduction[edit]
Glass is a non-crystalline, often transparent amorphous solid that has widespread practical, technological, and decorative uses. The most familiar and historically significant types of glass are based on the chemical compound silica (silicon dioxide), the primary constituent of sand. Glass is typically brittle and optically transparent, making it a versatile material for a variety of applications.
Composition and Structure[edit]
The primary component of most glass is silica, which forms a network structure that lacks the long-range order of a crystal. This amorphous structure is what gives glass its unique properties, such as transparency and brittleness. Other compounds, such as soda (sodium carbonate) and lime (calcium oxide), are often added to modify the properties of glass, such as its melting temperature and durability.
Types of Glass[edit]
Crystalline vs. Amorphous[edit]
Glass is distinct from crystalline solids in that it does not have a regular lattice structure. Instead, it is amorphous, meaning its atomic structure is disordered. This lack of order is what allows glass to be transparent, as there are no grain boundaries to scatter light.
Natural Glass[edit]
Obsidian[edit]
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Obsidian is a naturally occurring volcanic glass formed when lava cools rapidly. It is typically dark and has been used historically for tools and weapons due to its sharp edges.
Moldavite[edit]
Moldavite is a type of tektite, a natural glass formed by the impact of a meteorite. It is typically green and is found in central Europe.
Fulgurites[edit]
Fulgurites are glassy tubes formed when lightning strikes sand, fusing the grains together. They are often hollow and can be found in sandy areas.
Trinitite[edit]
Trinitite is a glassy residue left on the desert floor after the detonation of the first nuclear bomb at the Trinity site in New Mexico. It is a man-made glass formed by the intense heat of the explosion.
Libyan Desert Glass[edit]
Libyan Desert Glass is a natural glass found in the eastern Sahara, believed to have formed from a meteorite impact. It is often yellow and has been used in ancient jewelry.
Applications[edit]
Glass is used in a wide range of applications due to its transparency, durability, and chemical resistance. Common uses include windows, bottles, and optical lenses. In technology, glass is used in the production of fiber optics and as a substrate for electronic displays.
