Igneous Rocks
May 13th, 2008 | by Muneeb Akhtar |
Introduction:
When Igneous…ignite! process takes place then igneous rocks are formed . Fiercely hot molten rock from the earth in
Rock types are organized, or classified, according to how the rock formed. It’s a pretty simple system and there are only three types: igneous, sedimentary and metamorphic. Their names give clues about how the rocks were formed.
Earth’s Mantle
Under the crust is the fiery hot mantle. Saying that the mantle is fiery hot does it injustice. The coolest outer part of the mantle is about 1000 degrees Celsius (1800 degrees Fahrenheit). Here the rock is molten liquid, white hot.
All Magma is made up of a fairly uniform mixture of elements. Some of the major elements present are silica, iron, sodium, potassium, aluminum, magnesium, and gasses including water vapor, oxygen, carbon dioxide, nitrogen, hydrogen and sulfur dioxide. These elements form chemical combinations that crystallize in patterns to form eight basic rock forming minerals. These eight minerals form most rock. They are olivine, pyroxene, amphibole, orthoclase, plagioclase, muscovite, biotite, and quartz.
Igneous Rock Formation
Igneous rocks are formed from this molten magma. These rocks form when the magma cools and crystallizes. This can happen above ground as with volcanoes it is then called extrusive.
There are many kinds of volcanoes around the world. The materials that come from a volcano are different as well. We tend to lump them all under the term lava but rocks ranging from the very dense basalt to the very light pumice are just a part of what can come from a volcano. There is also ash, volcanic glass or obsidian, and the gem stone peridot to name a few.
The molten magma can also crystalize below the surface. When the molten rock rises in the crust but cools before it reaches the surface it is plutonic igneous rock and is categorized as intrusive.
Cool Enough
In matter of days and weeks the reached magma gets cool down.
When the magma forms pockets underground it cools much more slowly. This could take thousands or even millions of years.
The rate at which the magma cools determines the kind of rocks that are formed. Faster cooling surface lava creates rock that is fine grained or aphanitic. The rapid cooling doesn’t allow large crystals to form. I addition most of the gasses are driven off into the atmosphere.
The slower cooling that takes place underground allows larger crystal formation. Granite is an example of this type of rock formation.
Other igneous rocks are formed during this process pumice, scoria, gabbro, basalt, ryolite, dacite, andesite and obsidian.
