Formation of Rocks: Classifications and Process
Auto Beauty Business Culture Dieting DIY Events Fashion Finance Food Freelancing Gardening Health Hobbies Home Internet Jobs Law Local Media Men's Health Mobile Nutrition Parenting Pets Pregnancy Products Psychology Real Estate Relationships Science Seniors Sports Technology Travel Wellness Women's Health

Formation of Rocks: Classifications and Process

An article detailing how rocks are formed, the classification of different formations, and the processes involvedÂ…

Much of the Earth’s surface is covered by rocks. Even the soil where we stand takes its origin from the rocks. From the land to the sea, there are rocks. Everywhere, we see rocks. So what are rocks? What are their classifications? How are they formed?

The Earth’s outer surface, a solid layer called the lithosphere, is made of rocks. Rocks, or stones, are naturally occurring solid aggregates of minerals. They are being constantly formed, worn down, and then formed again in a process known geologically as rock cycle. It is like water cycle except that it takes much longer time, over thousands and millions of years.

Rocks are most commonly classified according to their mineral and chemical composition, texture, and the processes that formed them. With all these considerations, rocks are grouped into igneous, sedimentary, and metamorphic.

Igneous rocks are formed from cooled magma or melt. The magma is composed of various pre-exisitng rocks which have been subjected to melting at subduction zones or within the Earth’s surface. The melt moves upward and eventually cools and hardens into rock in a process known as fractional crystallization. Depending on their location of formation, igneous rocks are categorized either as intrusive or extrusive.

  1. Intrusive or plutonic rocks are created when magmas cool and crystallize slowly within the Earth’s crust. An example of this rock is granite. Since granite had cooled very slowly, it is very hard.

Granite

  1. On the other hand, extrusive or volcanic rocks result when magma reaches the surface as lave or fragmented ejecta and then hardens. Pumice, obsidian, lava rock, and basalt are examples of extrusive rocks. Pumice can float in water since it is full of air pockets that were trapped when the lava cooled when it frothed out onto the surface. Meanwhile, obsidian is called as nature’s glass because it is glassy and smooth.

Pumice

Obsidian

Igneous rocks can be found at mid-ocean ridges, areas of island arc volcanism, or in intra-plate hotspots.

Sedimentary rocks are formed by the deposition, accumulation and eventual cementation of sediments, and organic matter. As in sand in the shore or mud on a river bed, this material is buried and over time, as more particulates are deposited, it is compacted until it is dense enough to become a rock. This process is called as lithification. Sedimentary rocks can also be formed from evaporation or precipitation from a saturated mineral solution. Based on their composition, sedimentary rocks are classified as organic, clastic, or non-clastic.

  1. Organic sedimentary rocks are derived from organisms, and examples of these are coal and limestone. Limestone is a rock that contains many fossils and is made of calcium carbonate and microscopic shells.

Limestone

  1. Clastic sedimentary rocks like conglomerates and shale are formed from any size particle of pre-existing rock. Conglomerate rock has rounded pebbles cemented together in a matrix. Shale, on the other hand, is clay that had been hardened and tuned into rock.

Shale

Conglomerate

  1. Non-clastic or chemical sedimentary rocks result from the evaporation of a saturated mineral solution. Rock gypsum and rock salt are examples of these rocks.

Rock Gypsum

Most of the rocks found on the Earth’s surface are sedimentary even though sedimentary rocks only make up less than 5% of all the rocks that make up Earth. Furthermore, around 65% are classified as mud rocks, such as mudstone, shale and siltstone. Sandstones are from 20 to 25%, and carbonate rocks like limestone and dolostone are 10 to 15%. Sedimentary rocks form at or near the Earth’s surface.

Metamorphic rocks are any rocks, whether igneous or sedimentary, subjected to varying degrees of pressure and temperature conditions which consequently alter their forms. Such pressure and temperature are different from those which the rocks are originally formed and are always higher than at the Earth’s surface. This way, the original minerals of the rock are transformed into other mineral type or else into other forms of the same minerals. There is an alteration on the structure, mineral alignment, or chemical composition as these rocks are squeezed by large pressure or exposed to extreme temperature. Metamorphic rocks are commonly found in areas of mountain building. Examples of metamorphic rocks are slate, quartzite, marble, phyllite, schist, and gneiss.

Marble

Gneiss

Sources:

Wikipedia

Wiki Answers

 

Need an answer?
Get insightful answers from community-recommended
experts
in Geology & Plate Tectonics on Knoji.
Would you recommend this author as an expert in Geology & Plate Tectonics?
You have 0 recommendations remaining to grant today.
Comments (12)

It's interesting to know about the formation and properties of different types of rocks. Thanks for the great post!

Very informative, well written and illustrated...........thanks

A most interesting and educational article well composed by you.I will come back with a vote.

voted!. we needed this for my son's science project, thank you for making it easy to explain.

Well written and brilliantly insightful piece on geology.

Returning with a well deserved vote up.

Great to know the various kinds of rocks. It's amazing how these rocks formed.

I have just unboxed my collection of minerals for display, so it is good to read this article. Good information! Voted up.

A brilliantly educational read... my favourite rock is fool's gold... it looks like gold, sparkles like gold... but isn't boo hoo lol.

another solid article

Galing. Naalala ko high school lectures namin.

I liked this article. Stayed on the mark. I have studied Geology in several classrooms and all the information given here is very spot on.

ARTICLE DETAILS
RELATED ARTICLES
RELATED CATEGORIES
ARTICLE KEYWORDS