Rocks & Mineral: Types and their uses

<2/”>a >Rocks are aggregates or physical mixture of one or more Minerals. Minerals on the other hand are made up of two or more Elements in a definite ratio. They have a definite chemical composition. Crust is made up of more than 2000 minerals, but out of these, 6 are the most abundant and contribute the maximum to this uppermost part of the earth. These are feldspar, quartz, pyroxenes, amphiboles, mica and olivine.
Rocks are of immense economic importance to us.
Rocks differ in their properties, size of particles and mode of formation. On the basis of mode of formation rocks may be grouped into three types:
(a) Igneous
(b) Sedimentary and
(c) Metamorphic

Igneous  Rocks

Igneous Rocks are formed by crystallization from a liquid, or magma. They include two types
Volcanic or extrusive igneous rocks form when the magma cools and crystallizes on the surface of the Earth
Intrusive or plutonic igneous rocks wherein the magma crystallizes at depth in the Earth.

Magma is a mixture of liquid rock, crystals, and gas. Characterized by a wide range of chemical compositions, with high temperature, and properties of a liquid.
On the basis of their mode of occurrence, igneous rocks can be classified as : extrusive or volcanic rocks and intrusive rocks.
(i) Extrusive igneous rocks are formed by cooling of lava on the earth’s surface. As lava cools very rapidly on coming out of the hot Interior Of The Earth, the mineral crystals forming these rocks are very fine. These rocks are also called volcanic rocks. Gabbro and basalt are very common examples of such rocks. These rocks are found in volcanic areas. Deccan plateau’s regur Soil in India is derived from lava.

(ii) Intrusive igneous rocks are formed when magma solidifies below the earth’s surface. The rate of cooling below the earth’ s surface is very slow which gives rise to formation of large crystals in the rocks. Deep seated intrusive rocks are termed as plutonic rocks and shallow depth intrusive rocks are termed as hypabyssal. Granite and dolerite are common examples of intru- sive rocks. From this point of view, therefore, igneous rocks can, in accor- dance with their mode of formation, be classified as (a) Plutonic, (b) Hyp- abyssal and (c) Volcanic rockmasses. The huge blocks of coarse granitic rocks are found both in the Himalaya and the Decean Plateau.

 

Sedimentary Rocks

Sedimentary Rocks are formed by successive deposition of sediments. These sediments may be the debris eroded from any previously existing rock which may be igneous rock, metamorphic or old sedimentary rock. Sedimentary rocks have layered or stratified structure. The thickness of strata varies from few millimeters to several metres. So these rocks are also called stratified rocks. Generally, these rocks have some type of fossil between their strata. Fossil is the solid part or an impression of a prehistoric animal or plant embedded in strata of sedimentary rocks. Sedimentary rocks are widely spread on the earth surface but to a shallow depth.

The formation of sedimentary rocks involves five processes:

  1. Weathering – The first step is transforming solid rock into smaller fragments or dissolved ions by physical and Chemical Weathering as discussed in the last lecture.
    2. Erosion – Erosion is actually many process which act together to lower the surface of the earth. In terms of producing sediment, erosion begins the Transpiration process by moving the weathered products from their original location. This can take place by gravity (mass wasting events like landslides or rock falls), by running water. by wind, or by moving ice. Erosion overlaps with transpiration.
    3. Transportation – Sediment can be transported by sliding down slopes, being picked up by the wind, or by being carried by running water in streams, rivers, or ocean currents. The distance the sediment is transported and the energy of the transporting medium all leave clues in the final sediment that tell us something about the mode of transportation.
    4. Deposition – Sediment is deposited when the energy of the transporting medium becomes too low to continue the transport process. In other words, if the velocity of the transporting medium becomes too low to transport sediment, the sediment will fall out and become deposited. The final sediment thus reflects the energy of the transporting medium.
    5. Lithification (Diagenesis) – Lithification is the process that turns sediment into rock. The first stage of the process is compaction. Compaction occurs as the weight of the overlying material increases. Compaction forces the grains closer together, reducing pore space and eliminating some of the contained water. Some of this water may carry mineral components in solution, and these constituents may later precipitate as new minerals in the pore spaces. This causes cementation, which will then start to bind the individual .

Metamorphic Rocks

Metamorphic rocks are formed under the influence of heat or pressure on sedimentary or igneous rocks. Tremendous pressure and high temperature change the colour, hard- ness, structure and composition of all types of pre-existing rocks. The process which bring about the change is known as Metamorphism and the ultimate products, formed due to operation of such processes are defined as the Metamrphic rocks.
Metamorphism refers to the changes in mineral assemblage and texture that result from subjecting a rock to pressures and temperatures different from those under which the rock originally formed.
The original rock that has undergone metamorphism is called the protolith. Protolith can be any type of rock .

Metamorphism occurs because rocks undergo changes in temperature and pressure and may be subjected to differential Stress and hydrothermal fluids. Metamorphism occurs because some minerals are stable only under certain conditions of pressure and temperature. When pressure and temperature change, chemical reactions occur to cause the minerals in the rock to change to an assemblage that is stable at the new pressure and temperature conditions. But, the process is complicated by such things as how the pressure is applied, the time over which the rock is subjected to the higher pressure and temperature, and whether or not there is a fluid phase present during metamorphism. Different types of metamorphic rocks are found all over the world. In India, marble is found in Rajasthan, Bihar and Madhya Pradesh, whereas slates are available in plenty in Orissa, Andhra Pradesh and Haryana. In Kangra and Kumaun regions ]of Himalaya, slates of different colours are found.

Minerals

Minerals are defined as solid, inorganic, naturally occurring substances with a definite chemical formula and general structure. Almost all chemical elements in the Earth’s crust are associated with at least one mineral. They vary in color, hardness, density, crystal form, crystal size, transparency, composition, location, and abundance. Some minerals are radioactive (uranophane), while others are magnetic (magnetite). Some are uncombined elements, such as gold, silver, sulfur, bismuth, copper and platinum. Certain minerals, such as fluorite (calcium fluoride), glow with a vibrant luminescence after exposure to ultraviolet Light. Feldspar (a potassium aluminum silicate) and quartz (silicon dioxide) are the most abundant minerals found in the Earth’s crust. Mankind has coveted many minerals and gemstones due to their striking, beautiful colors. Some specimens of opal exhibit iridescent, rainbow-like colors within their crystals, while some specimens of the gemstone tourmaline show progressions of watermelon-like green to pink color from one side of a crystal to another. Although interesting, a few minerals are deceiving; many amateur prospectors have been tricked into thinking they have found gold, but have instead found pyrite (iron disulfide), otherwise known as “Fool’s Gold” due to its uncanny resemblance to the precious Metal. Diamond, the hardest natural substance found on Earth, has long been prized as the most desirable of all minerals due to its stunning interaction with light. Most diamonds, though, are impure and not suitable as gemstones; instead, they find industrial use as cutting tools, and are even made synthetically to meet this demand.

 

What Makes a Mineral a Mineral?

In order for something to be a mineral, it must first meet four criteria:

  1. First, all minerals are solid. So, while water may contain minerals, water itself can’t be a mineral because it’s liquid.
  2. Minerals are all naturally formed. This means they can’t be manufactured in a lab. Synthetic gems, like cubic zirconia, are therefore not minerals.
  3. All minerals have a unique and specific chemical composition. This is like the DNA of the mineral – it’s what makes the mineral different from other minerals.
  4. Lastly, all minerals have a crystalline structure. Minerals are some of the most beautiful substances on Earth, because they are always arranged in an orderly geometric pattern. Minerals of the same type always have the same geometric arrangement of their atoms.

Properties of Minerals

The Physical properties of minerals are used by Mineralogists to help determine the identity of a specimen. Some of the tests can be performed easily in the field, while others require laboratory equipment. For the beginning student of geology, there are a number of simple tests that can be used with a good degree of accuracy. The list of tests is in a suggested order, progressing from simple experimentation and observation to more complicate either in procedure or concept.

The following physical properties of minerals can be easily used to identify a mineral:

Color

Most minerals have a distinctive color that can be used for identification. In opaque minerals, the color tends to be more consistent, so Learning the colors associated with these minerals can be very helpful in identification. Translucent to transparent minerals have a much more varied degree of color due to the presence of trace minerals. Therefore, color alone is not reliable as a single identifying characteristic.

Streak 

Streak is the color of the mineral in powdered form. Streak shows the true color of the mineral. In large solid form, trace minerals can change the color appearance of a mineral by reflecting the light in a certain way. Trace minerals have little influence on the reflection of the small powdery particles of the streak.

The streak of Metallic Minerals tends to appear dark because the small particles of the streak absorb the light hitting them. Non-metallic particles tend to reflect most of the light so they appear lighter in color or almost white.

Because streak is a more accurate illustration of the mineral’s color, streak is a more reliable property of minerals than color for identification.

Hardness 

Hardness is one of the better properties of minerals to use for identifying a mineral. Hardness is a measure of the mineral’s resistance to scratching. The Mohs scale is a set of 10 minerals whose hardness is known. The softest mineral, talc, has a Mohs scale rating of one. Diamond is the hardest mineral and has a rating of ten. Softer minerals can be scratched by harder minerals because the forces that hold the crystals together are weaker and can be broken by the harder mineral.

The following is a listing of the minerals of the Mohs scale and their rating:

  1. Talc
  2. Gypsum
  3. Calcite
  4. Fluorite
  5. Apatite
  6. Orthoclase Feldspar
  7. Quartz
  8. Topaz
  9. Corundum
  10. Diamond

Cleavage & Fracture

Minerals tend to break along lines or smooth surfaces when hit sharply. Different minerals break in different ways showing different types of cleavage.

Cleavage is defined using two sets of criteria. The first set of criteria describes how easily the cleavage is obtained. Cleavage is considered perfect if it is easily obtained and the cleavage planes are easily distinguished. It is considered good if the cleavage is produced with some difficulty but has obvious cleavage planes. Finally it is considered imperfect if cleavage is obtained with difficulty and some of the planes are difficult to distinguish.

The second set of criteria is the direction of the cleavage surfaces. The names correspond to the shape formed by the cleavage surfaces: Cubic, rhombohedral, octahedral, dodecahedral, basal or prismatic. These criteria are defined specifically by the angles of the cleavage lines as indicated in the chart below:

Cleavage Type Angles

Cubic Cleaves in three directions @ 90o to one another Rhombohedral Cleaves in three directions but not @ 90o to one another Octahedral Cleaves in four directions Dodecahedral Cleaves in six directions Basal Cleaves in one direction Prismatic Cleaves in two directions

Fracture describes the quality of the cleavage surface. Most minerals display either uneven or grainy fracture, conchoidal (curved, shell-like lines) fracture, or hackly (rough, jagged) fracture.

Crystalline Structure 

Mineral crystals occur in various shapes and sizes. The particular shape is determined by the arrangement of the atoms, Molecules or ions that make up the crystal and how they are joined. This is called the crystal lattice. There are degrees of crystalline structure, in which the fibers of the crystal become increasingly difficult or impossible to see with the naked eye or the use of a hand lens. Microcrystalline and cryptocrystalline structures can only be viewed using high magnification. If there is no crystalline structure, it is called amorphous. However, there are very few amorphous crystals and these are only observed under extremely high magnification.Minerals

Transparency or Diaphaneity

Diaphaneity is a mineral’s degree of transparency or ability to allow light to pass through it. The degree of transparency may also depend on the thickness of the mineral.

Tenacity

Tenacity is the characteristic that describes how the particles of a mineral hold together or resist separation. The chart below gives the list of terms used to describe tenacity and a description of each term.

Magnetism

Magnetism is the characteristic that allows a mineral to attract or repel other magnetic materials. It can be difficult to determine the differences between the various types of magnetism, but it is worth knowing that there are distinctions made.

Luster

Luster is the property of minerals that indicates how much the surface of a mineral reflects light. The luster of a mineral is affected by the brilliance of the light used to observe the mineral surface. Luster of a mineral is described in the following terms:

Metallic The mineral is opaque and reflects light as a metal would.Submettalic The mineral is opaque and dull. The mineral is dark colored.Nonmettalic The mineral does not reflect light like a metal.

Nonmetallic minerals are described using modifiers that refer to commonly known qualities.

Waxy The mineral looks like paraffin or wax.Vitreous The mineral looks like broken glass.Pearly The mineral appears iridescent, like a pearl.Silky The mineral looks fibrous, like silk.Greasy The mineral looks like oil on water.Resinous The mineral looks like hardened tree sap (resin).Adamantine The mineral looks brilliant, like a diamond.

Odor

Most minerals have no odor unless they are acted upon in one of the following ways: moistened, heated, breathed upon, or rubbed.

Taste

Only soluble minerals have a taste, but it is very important that minerals not be placed in the mouth or on the tongue. You should not test for this property in the classroom.

Specific Gravity

Specific Gravity of a mineral is a comparison or ratio of the weight of the mineral to the weight of an equal amount of water. The weight of the equal amount of water is found by finding the difference between the weight of the mineral in air and the weight of the mineral in water.

 

Detail account of Mineral Resources of India is as follows:-

Iron Ore Chhattisgarh 24 % Dalli, Rajhra (Durg), Bailadila, Raoghat, Aridongri
Goa (21%) Sanquelim, Sanguem, Quepem, Satari, Ponda, Bicholim
Karnataka (20%) Bellary, Hospet, Sandur
Jharkhand (17 %) Noamund, Gua
Orissa (15 %) Gurumahisani, Sulaipat, Badampahar (Mayurbhanj),
Kiriburu, Meghahataburu, Bonai (Sundargarh).
Maharashtra Chandrapur, Ratnagiri, Bhandara
Andhra Pr. Karimnagar, Warangal, Kurnod, Cuddapah, Anantpur di
Tamil Nadu Tirthmalai, Yadapalli, Killimalai, kanjamalai, & Gondumalai
Copper M. P (46%) Balghat (Malanjkhand)
Rajasthan (33%) Khetri (Jhunjhunu & Alwar)
Jharkhand (21%) Singhbum
Manganese Karnataka (38%) Bellary, North Kanara, Shimoga
Orissa (17%) Kendujhar, Sundargarh, Koraput, Kalahandi, Bolangir
M.P. (10 %) Balghat
Maharashtra (8%) Nagpur & Bhandara
Bauxite Orissa (44 %) Koraput, Kalahandi, Sundargarh
Jharkhand (18 %) Gumla, Lohardaga, Ranchi, Palamau
Maharashtra (13%) Kolhapur, Ratnagir
Chhattisgarh(11%) Bastar, Bilaspur, Surguja district
M.P. (11 %) Mandla, Satna, Jabalpur, Shahdol
Gujarat (8 %) Jamnagar, Kachchh, Junagarh
Tamil Nadu (4 %) Salem, Nilgiri
Chromite Orissa (97 %) Sukinda, Kendujhar, Dhenkanal ditricts
Karnataka (2.3 %) Hassan
Maharashtra (%) Chandrapur
Jharkhand (%) Purbi & Paschmi Singhbum district
Andhra Pr (%) Khammam
Lead Rajasthan (80 %) Zawar region (Udaipur), Dariba, Rajura
Orissa (11%)
Andhra Pr (8 %)
Zinc Rajasthan (99 %) Zawar –a. Pipli khan to Barla khan b. Mochia, Magra, Balaria
Sikkim
Gold Karnataka (67 %) Kolar, Hutti gold fields (Raichur), Gulbarga
Jharkhand (26 %) Subarnarekha, Sona, Sanjai, South koel, Garra rivers
Andhra Pr (7 %) Ramgiri Gold Fields (Anantapur district)
Silver Andhra Pr (42 %)
Bihar Jharkhand32
Rajashtan (25 %) Zawar
Karnataka
Nickel Orissa Cuttack, Kyonjhar, & Maiyurbhanj
Non Metallic Minerals
Limestone M.P, Chattisgarh, Andhra Pradesh, Rajasthan
Dolomite Orissa (Birmitrapur in Sundergarh District-largest in India), M.P & Chattisgarh
Phosphate Rajasthan (Udaipur) Uttaranchal (Dehradun), M.P. (Jhabua), U.P. (Lalitpur)
Kaolin Kerala is largest producer.
Mica Andhra Pradesh, Jharkhand (Kodarma-Large) & Rajasthan
Gypsum Rajasthan & J & K.
Steatite Rajasthan. It is also called soapstone/ Potstone.
Magnesite Tamil Nadu
Pyrite Bihar is sole producer
Graphite Orissa, Rajasthan
Diamond M.P. (Panna)
Beryllium Rajathan, Jharkhand
Salt (NaCl) Gujarat (60%), Tamil Nadu & Maharashtra
Marble Rajasthan
Zircon Beach Sand of Kerala
Kyanite Singhbum distict in Jharkhand-largest. Used as refractory material
Antimony Punjab
Asbestos Karnataka & Rajasthan
Beryllium Rajasthan
Sulphur Tamil Nadu
Tin Bihar, Jharkhand

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Rocks and minerals are essential to our everyday lives. They are used in construction, energy production, jewelry, and many other applications.

Rocks are formed from the solidification of molten rock (magma or lava), the accumulation of sediments, or the transformation of existing rocks. There are three main Types of Rocks: igneous, sedimentary, and metamorphic.

Igneous rocks are formed when magma or lava cools and solidifies. They can be either intrusive or extrusive. Intrusive igneous rocks form when magma cools and solidifies beneath the Earth’s surface. Extrusive igneous rocks form when lava cools and solidifies on the Earth’s surface.

Sedimentary rocks are formed from the accumulation of sediments. Sediments are pieces of rock, mineral, or organic matter that have been transported by water, wind, or ice. Sediments can be deposited in layers, and over time, these layers can become compacted and cemented together to form sedimentary rocks.

Metamorphic rocks are formed when existing rocks are subjected to heat and pressure. This can happen when rocks are buried deep underground, or when they are involved in mountain building. Metamorphic rocks can be either foliated or non-foliated. Foliated metamorphic rocks have a layered appearance, while non-foliated metamorphic rocks do not.

Minerals are naturally occurring, inorganic solids with a definite chemical composition and crystal structure. There are over 4,000 known minerals, and they are found in all parts of the Earth’s crust. Minerals are used in a variety of applications, including construction, energy production, jewelry, and electronics.

The uses of rocks and minerals are vast and varied. Some of the most common uses include:

  • Construction: Rocks and minerals are used in the construction of buildings, roads, and bridges. Concrete, brick, and asphalt are all made from rocks and minerals.
  • Energy: Coal, oil, and natural gas are all fossil fuels that are formed from the remains of ancient Plants and animals. These fuels are used to generate electricity and power transportation.
  • Jewelry: Diamonds, rubies, sapphires, and other gemstones are prized for their beauty and rarity. They are used in jewelry and other decorative items.
  • Glass: Glass is made from silica sand, which is a type of mineral. Glass is used in windows, bottles, and other containers.
  • Ceramics: Ceramics are made from clay, which is a type of mineral. Ceramics are used in dishes, cookware, and other household items.
  • Paint: Paint is made from a variety of minerals, including titanium dioxide, zinc oxide, and iron oxide. Paint is used to protect and decorate surfaces.

Rocks and minerals are essential to our everyday lives. They are used in a variety of applications, including construction, energy production, jewelry, and many others.

What are rocks?

Rocks are naturally occurring solid aggregates of one or more minerals or mineraloids.

What are minerals?

Minerals are naturally occurring, inorganic, solid, crystalline substances with a definite chemical composition and a highly ordered Atomic structure.

What are the different types of rocks?

There are three main types of rocks: igneous, sedimentary, and metamorphic.

  • Igneous rocks are formed when magma or lava cools and solidifies.
  • Sedimentary rocks are formed when sediments, such as sand, mud, or pebbles, are compacted and cemented together.
  • Metamorphic rocks are formed when existing rocks are subjected to heat and pressure.

What are the different types of minerals?

There are over 4,000 known minerals, but only a few are common. The most common minerals are quartz, feldspar, and mica.

What are the uses of rocks and minerals?

Rocks and minerals are used in a variety of ways, including:

  • Construction: Rocks and minerals are used in the construction of buildings, roads, and bridges.
  • Jewelry: Gems, such as diamonds and rubies, are used in jewelry.
  • Electronics: Minerals, such as silicon, are used in electronics.
  • Medicine: Minerals, such as iron, are used in medicine.
  • agriculture: Rocks and minerals are used in agriculture to improve Soil fertility.

What are the benefits of rocks and minerals?

Rocks and minerals provide a number of benefits, including:

  • They are a source of building materials.
  • They are a source of gemstones.
  • They are a source of minerals used in electronics and medicine.
  • They are a source of minerals used in agriculture.

What are the risks of rocks and minerals?

Rocks and minerals can pose a number of risks, including:

  • They can be heavy and difficult to move.
  • They can be sharp and can cause cuts.
  • They can be toxic if ingested.
  • They can be radioactive.

How can you protect yourself from the risks of rocks and minerals?

You can protect yourself from the risks of rocks and minerals by:

  • Wearing gloves and safety glasses when handling rocks and minerals.
  • Avoiding contact with rocks and minerals that are sharp or toxic.
  • Avoiding rocks and minerals that are radioactive.
  • Knowing the risks of the rocks and minerals you are working with.

Where can you learn more about rocks and minerals?

You can learn more about rocks and minerals from a variety of sources, including:

  • Books
  • Websites
  • Museums
  • Field trips
  1. Which of the following is not a type of rock?
    (A) Igneous
    (B) Sedimentary
    (C) Metamorphic
    (D) Volcanic

  2. Which of the following is not a type of mineral?
    (A) Quartz
    (B) Feldspar
    (C) Gypsum
    (D) Diamond

  3. Which of the following is the most common type of rock on Earth?
    (A) Igneous
    (B) Sedimentary
    (C) Metamorphic
    (D) Volcanic

  4. Which of the following is the most common type of mineral on Earth?
    (A) Quartz
    (B) Feldspar
    (C) Gypsum
    (D) Diamond

  5. Rocks are formed from the solidification of magma or lava.
    (A) True
    (B) False

  6. Minerals are naturally occurring inorganic substances with a definite chemical composition and crystal structure.
    (A) True
    (B) False

  7. The three main types of rocks are igneous, sedimentary, and metamorphic.
    (A) True
    (B) False

  8. Igneous rocks are formed when magma or lava cools and solidifies.
    (A) True
    (B) False

  9. Sedimentary rocks are formed when sediments, such as sand, mud, and pebbles, are compacted and cemented together.
    (A) True
    (B) False

  10. Metamorphic rocks are formed when existing rocks are subjected to heat and pressure.
    (A) True
    (B) False

  11. Quartz is the most common type of mineral on Earth.
    (A) True
    (B) False

  12. Feldspar is the second most common type of mineral on Earth.
    (A) True
    (B) False

  13. Gypsum is a type of mineral that is used to make plaster and drywall.
    (A) True
    (B) False

  14. Diamond is a type of mineral that is used in jewelry and other decorative items.
    (A) True
    (B) False

  15. Rocks and minerals are important resources that are used in a variety of industries.
    (A) True
    (B) False

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