Difference between revisions of "Igneous rock"

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'''Igneous''' rock was formed when molten rock solidified as it cooled. When magma solidified deep underground, it is called an '''intrusive''' or '''plutonic''' igneous rock. If the magma came to the surface (in which case it is called lava) before solidifying, it is called an '''extrusive''' igneous rock.
 
'''Igneous''' rock was formed when molten rock solidified as it cooled. When magma solidified deep underground, it is called an '''intrusive''' or '''plutonic''' igneous rock. If the magma came to the surface (in which case it is called lava) before solidifying, it is called an '''extrusive''' igneous rock.
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Most of the surface of Mars is covered by basalt rock.  It flowed onto the surface; therefore would be considered an extrusive igneous rock.  It is fine-grained and dark since it contains dark minerals.<ref>https://www.youtube.com/watch?v=AsQjtPCjuuI</ref>
  
 
==Crystal size==
 
==Crystal size==
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==Examples==
 
==Examples==
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*Intrusive
 
*Intrusive
 
**[[Gabbro]]
 
**[[Gabbro]]
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**[[Obsidian]]
 
**[[Obsidian]]
  
[[Category:Geology]]
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==External links==
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*[https://www.youtube.com/watch?v=AsQjtPCjuuI]
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[[Category:Areology]]

Latest revision as of 08:52, 25 August 2021

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Igneous rock was formed when molten rock solidified as it cooled. When magma solidified deep underground, it is called an intrusive or plutonic igneous rock. If the magma came to the surface (in which case it is called lava) before solidifying, it is called an extrusive igneous rock.

Most of the surface of Mars is covered by basalt rock. It flowed onto the surface; therefore would be considered an extrusive igneous rock. It is fine-grained and dark since it contains dark minerals.[1]

Crystal size

The size of crystals in an igneous rock is determined by the cooling rate. Extrusive rocks cooled quicly and therefore form a more homogenous mass of small crystals (visible under a microscope) whereas the slow cooling rate of intrusive rocks allowed sufficient time for larger crystals to grow.

Volcanic glasses are amorphous, meaning that they did not crystallize during formation. One possible mechanism for this is the rapid cooling that takes place when lava comes into contact with cold water. Thus their presence on Mars would be a possible, but not certain, indication that liquid, probably water, was present at the time of their formation.

Examples

External links

  • https://www.youtube.com/watch?v=AsQjtPCjuuI