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Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

Introduction

Minerals are integral to our daily lives, forming the backbone of the modern world. Everything around us, from the simplest household items to complex machinery and towering structures, is made from metals and minerals extracted from the earth's crust. 

Minerals & Energy ResourcesMinerals & Energy ResourcesThese essential resources are embedded in rocks and are refined to produce the metals we rely on.

  • Daily Use: From vehicles to roads and buildings, minerals are crucial in creating the infrastructure we use daily.
  • Industrial Importance: Minerals are vital for manufacturing cars, buses, trains, airplanes, and the machinery that drives our industries.
  • Energy Resources: Beyond their physical uses, minerals are also the source of the energy resources that power our world. They fuel our vehicles and generate electricity, making them indispensable in our daily lives.

Throughout history, minerals have been essential not only for industrial and construction purposes but also for cultural practices, including decoration, religious rituals, and ceremonial rites. This chapter explores the significance of minerals and energy resources in our lives, examining their types, distribution, and importance in shaping our modern world.

What is a Mineral?

Minerals are “homogeneous, naturally occurring substances with a definable internal structure.” 

  • They are formed through geological processes over millions of years.
  •  Rocks are combinations of homogenous substances called minerals. 
  • Minerals can be found in rocks, soil, and water. 
  • They serve various purposes, including providing nutrients for plants and animals, forming the building blocks of rocks, and being used in manufacturing various products like electronics, jewellery, and construction materials. 
  • Examples of minerals include quartz, feldspar, diamond, and calcite.

MineralsMinerals

Mode of Occurrence of Minerals

Minerals are usually found in “ores”. The term ore is used to describe an accumulation of any mineral mixed with other elements.

Where are these minerals found? 

  • For an ore to be commercially viable, the mineral content must be in sufficient concentration to justify extraction.
  • The type of geological formation in which ores are found affects how easily they can be mined.
  • The formation also influences the cost of extraction, with some structures being more expensive to mine than others.

Types of Mineral Formations:

1. In Igneous and Metamorphic Rocks: 

  • Minerals can crystallize from magma (molten rock) as it cools and solidifies underground or on the Earth's surface. 
  • Minerals can occur in cracks, crevices, faults, or joints.
  • Veins: Smaller occurrences.
  • Lodes: Larger occurrences.
  • Formation: Minerals in liquid/molten and gaseous forms are forced upward, cooling and solidifying as they rise.
  • Example: Tin, copper, zinc, and lead are obtained from veins and lodes.
    Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

2. In Sedimentary Rocks: 

  • Minerals can be deposited from water, often in layers, and form sedimentary rocks.
  • They can precipitate from solution (e.g., salt deposits), accumulate from the remains of plants and animals (e.g., coal), or be transported and deposited by water, wind, or ice (e.g., sandstone, shale).
  • Formation: Often under long periods of great heat and pressure.
  • Example: Coal, iron ore, gypsum, potash salt, and sodium salt.
  • Special Formation: Evaporation in arid regions leads to certain sedimentary minerals.
    Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

3. Decomposition of Surface Rocks:

  • Some ores are formed through the decomposition of surface rocks.
  • As surface rocks break down, soluble elements are removed, leaving behind a residual mass of weathered material.
  • Bauxite, an important ore for aluminum, is formed through this process of residual formation.

BauxiteBauxite

4. Alluvial Deposits (Placer Deposits):

  • Certain minerals may occur as alluvial deposits in sands of valley floors and the base of hills. 
  • Typically contains minerals not corroded by water.
  • Example: Gold, silver, tin, and platinum.

Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

5. Ocean Waters and Beds:

  • Ocean waters contain vast quantities of minerals, though many are too diffused for economic extraction.
  • Common salt, magnesium, and bromine are derived from ocean waters.
  • Manganese nodules are found in ocean beds.

Manganese NodulesManganese Nodules

Distribution of Mineral Resources in India:

  • Peninsular Rocks: Contain most reserves of coal, metallic minerals, mica, and many other non-metallic minerals.
  • Sedimentary Rocks: Found on the western and eastern flanks of the peninsula, particularly in Gujarat and Assam, containing most of the petroleum deposits.
  • Rajasthan: With rock systems of the peninsula, has reserves of many non-ferrous minerals.
  • Alluvial Plains of North India: Almost devoid of economic minerals.

The distribution of minerals in India is uneven due to differences in geological structures, processes, and time involved in the formation of minerals.

Ferrous Minerals

Ferrous minerals are minerals that contain iron. 

  • They are an essential raw material for the iron and steel industry, which is one of the key industries driving industrial development worldwide. 
  • Ferrous minerals constitute about three-fourths of the total value of metallic mineral production.
  • They provide a robust foundation for the development of metallurgical industries.
  • India not only meets its internal demands but also exports significant quantities of ferrous minerals.

Some common ferrous minerals include:

Iron Ore

Iron ore is the primary source of iron.

  • It is found in various forms, such as magnetite and hematite, and typically contains high levels of iron, ranging from 50% to 70% or more.
  • Iron ore is a fundamental mineral and the backbone of industrial development.
  • India possesses abundant resources of high-quality iron ores.

Iron OreIron Ore

Magnetite: The finest iron ore with up to 70% iron content and excellent magnetic qualities, especially valuable in the electrical industry.
Hematite: The most significant industrial iron ore in terms of usage, with 50-60% iron content.
Production (2018-19): Odisha, Chhattisgarh, Karnataka, and Jharkhand accounted for 97% of iron ore production. The remaining 3% was produced by other states.

Major Iron Ore Belts in India:
1. Odisha-Jharkhand belt: 
- High-grade hematite ore found in Badampahar mines in Mayurbhanj and Kendujhar districts of Odisha.
- Gua and Noamundi (Singbhum district, Jharkhand) are known for hematite iron ore mining.
2. Durg-Bastar-Chandrapur belt: 
Very high-grade hematites found in the Bailadila range of hills in Bastar district, Chhattisgarh.
- Iron ore from these mines is exported to Japan and South Korea via Vishakhapatnam port.
3. Ballari-Chitradurga-Chikkamagaluru-Tumakuru belt in Karnataka: 
- Large reserves, Kudremukh deposits are known to be one of the world's largest.
- Kudremukh mines (Western Ghats, Karnataka) is a 100% export unit, known for one of the largest ore deposits globally.
- The ore is transported as slurry through a pipeline to a port near Mangaluru.
4. Maharashtra-Goa belt: 
- Includes Goa and Ratnagiri district of Maharashtra.
- Though the ore quality is moderate, it is efficiently exploited, and iron ore is exported through Marmagao port.

ii. Manganese: 

  • Manganese is often considered a ferrous mineral because it is frequently found alongside iron ores. 

Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

  • While manganese itself is not ferrous, its presence in iron ore deposits is significant. 
  • Approximately 10 kg of manganese is required to produce one tonne of steel.

Uses:
1. Manufacturing steel and ferromanganese alloys.
3. Making bleaching powder, insecticides, and paints.
Distribution: Found in Balaghat mines in Madhya Pradesh, Khetri mines in Rajasthan, and Singhbhum district of Jharkhand.

Question for Chapter Notes: Minerals & Energy Resources
Try yourself:
Which mineral is often considered a ferrous mineral due to its frequent presence alongside iron ores?
View Solution

Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

Non-Ferrous Minerals

  • India’s reserves and production of non-ferrous minerals is not very satisfactory. 
  • Non-ferrous minerals do not contain iron as a primary constituent. 
  • These minerals are important for various industrial applications and are often used in alloys, electronics, and other specialized industries. 

Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

Here are two examples of non-ferrous minerals:

Copper

  • Copper is a versatile metal known for its excellent conductivity, corrosion resistance, and malleability. 
  • It is widely used in electrical wiring, plumbing, roofing, and industrial machinery. 
  • Copper alloys, such as brass and bronze, are also valuable materials in various applications. 
  • Copper deposits are found in different geological settings worldwide, and major copper-producing countries include Chile, Peru, China, and the United States.

Bauxite

  • Aluminium Extraction: Although several ores contain aluminium, bauxite—a clay-like substance—is the primary source from which alumina and subsequently aluminium is obtained.
  • Formation of Bauxite Deposits: These deposits are formed by the decomposition of various rocks that are rich in aluminium silicates.
  • Combines the strength of metals like iron with extreme lightness.
  • Exhibits good conductivity and great malleability.
  • Due to these properties, aluminium is a highly significant metal in various industries.
  • Bauxite Deposits in India: Major deposits are found in the Amarkantak plateau, Maikal hills, and the Bilaspur-Katni plateau region.
  • In 2016-17, Odisha was the largest bauxite-producing state in India, with the Panchpatmali deposits in Koraput district being the most significant.
  • Major bauxite-producing countries include Australia, Guinea, Brazil, and China.

Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources Non-Metallic Minerals

 Non-metallic minerals are minerals that do not contain metals as their primary constituents. These minerals have diverse applications in industry, construction, agriculture, and other sectors. Here are some examples of non-metallic minerals:

Mica

Mica is a mineral made up of thin, sheet-like structures. It is valued for its electrical insulation properties, heat resistance, transparency, and flexibility. Mica is used in electrical and electronic industries for insulating components, in the production of paints, cosmetics, and plastics, and as a filler material in construction materials like cement and asphalt.
Mica deposits are found primarily in the Chota Nagpur plateau (Koderma-Gaya-Hazaribagh belt in Jharkhand), around Ajmer in Rajasthan, and in the Nellore mica belt of Andhra Pradesh.

Rock Minerals

Limestone

Limestone is a sedimentary rock composed mainly of calcium carbonate. It is one of the most abundant non-metallic minerals and is widely used in various industries. Limestone is a key raw material for the production of cement, as it provides the necessary calcium component. It is also used in the construction industry for building materials like aggregate, dimension stone, and as a flux in steelmaking.

LimestoneLimestone

These non-metallic minerals contribute significantly to the global economy and are essential for the production of a wide range of goods and materials.

Question for Chapter Notes: Minerals & Energy Resources
Try yourself:Which non-metallic mineral is primarily used in the production of cement?
View Solution

Hazards of Mining

MinningMinning

  • The dust and noxious fumes inhaled by miners make them vulnerable to pulmonary diseases.
  • The risk of collapsing mine roofs, inundation, and fires in coalmines are a constant threat to miners.
  • The water sources in the region get contaminated due to mining.
  • Dumping of waste and slurry leads to degradation of land, and soil, and increases in stream and river pollution.

Conservation of Minerals

The total volume of workable mineral deposits is an insignificant fraction i.e. one per cent of the earth’s crust. We are rapidly consuming mineral resources that require millions of years to be created and concentrated. 

  • The geological processes of mineral formation are so slow that the rates of replenishment are infinitely small in comparison to the present rates of consumption.
  • Mineral resources are, therefore, finite and non-renewable. Rich mineral deposits are our country's extremely valuable but short-lived possessions.

Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

  • Continued extraction of ores leads to increasing costs as mineral extraction comes from greater depths along with a decrease in quality.
  • A conscious effort needs to be made to use our mineral resources in a planned and sustainable manner.
  • Improved technologies need to be constantly evolved to allow the use of low-grade ores at low costs. Recycling metals, and using scrap metals and other substitutes are steps in conserving our mineral resources for the future.

Question for Chapter Notes: Minerals & Energy Resources
Try yourself:
Which of the following is a conventional energy resource?
View Solution

Energy Resources

Energy resources are substances or systems that can be harnessed to produce energy in various forms, such as heat, electricity, or mechanical work. These resources are essential for powering human activities, industries, transportation, and infrastructure.

Energy resources can be classified as:

  • Conventional Sources: These include firewood, cattle dung cake, coal, petroleum, natural gas and electricity.
  • Non-conventional Sources: These includes solar, wind, tidal, geothermal, biogas and atomic energy

1. Conventional Sources of Energy

Coal:

CoalCoalCoal, the most abundant fossil fuel, serves various purposes including power generation, industrial energy supply, and domestic usage.

  • Lignite, characterized by its softness and high moisture content, represents a lower-grade brown coal.
  • Bituminous coal, formed under high temperature and pressure, constitutes a higher-grade variant.
  • Anthracite, the highest quality hard coal, is prized for its purity.
  • Key coalfields in India include Jharia, Raniganj, and Bokaro.
  • The major resources of Gondwana coal, which are metallurgical coal, are located in Damodar valley (West Bengal-Jharkhand).
  • Tertiary coals occur in the north eastern states of Meghalaya, Assam, Arunachal Pradesh, and Nagaland.

Petroleum:PetroleumPetroleum

  • Petroleum, a versatile resource, fuels heating and lighting, provides lubricants for machinery, and serves as raw material for multiple manufacturing sectors.
  • Most petroleum deposits in India are found in anticlines and fault traps within rock formations from the tertiary age. Oil is typically trapped in the crests of upfolds (anticlines or domes) and is found in porous limestone or sandstone layers.
  • Petroleum refineries play a central role, supporting synthetic textile, fertilizer, and various chemical industries.
  • Major petroleum production areas in India encompass Mumbai High, Gujarat, and Assam.

Natural Gas:

  • Natural Gas is found with petroleum deposits and is released when crude oil surfaces.
  • Used as fuel for electricity generation, industrial heating, and as a raw material in chemical, petrochemical, and fertilizer industries.
  • Emerging as a preferred transport fuel (CNG) and cooking fuel (PNG).
  • Major reserves in India are in Mumbai High and Krishna-Godavari basin.
  • The Hazira-Vijaipur-Jagdishpur (HVJ) gas pipeline, built by GAIL, was the first major gas infrastructure, linking Mumbai High with key industrial areas.
  • India's gas infrastructure has expanded to 18,500 km and is expected to reach 34,000 km, forming a nationwide Gas Grid.

Electricity:

Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

  • Electricity generation primarily occurs through two methods:
    • Hydroelectricity, derived from water-driven hydro turbines, stands as a renewable energy source, with India boasting numerous multipurpose projects like Bhakra Nangal and Damodar Valley Corporation.
    • Thermal Power, generated by burning coal, petroleum, and natural gas to power turbines, relies on non-renewable fossil fuels.

Question for Chapter Notes: Minerals & Energy Resources
Try yourself:
Which form of energy is generated by tapping into the heat from the Earth's interior?
View Solution

2. Non-conventional Sources of Energy 

Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

i. Nuclear or Atomic Energy: Nuclear Energy is acquired by modifying the structure of atoms, with Uranium and Thorium serving as key elements for generating atomic or nuclear power.

ii. Solar Energy: Solar energy is harnessed from the Sun's light, and photovoltaic technology directly converts sunlight into electricity.

Solar EnergySolar Energy

iii. Wind Power: Wind Energy, or Wind Power, involves utilizing the force of wind to generate electricity, commonly achieved through the use of wind turbines. Tamil Nadu hosts the largest cluster of wind farms, spanning from Nagercoil to Madurai.

iv. Biogas: Biogas, a form of biofuel, naturally results from the decomposition of organic waste. It is notably efficient when produced from cattle dung and enhances the quality of manure. Gobar gas plants (using cattle dung) offer dual benefits: energy production and improved manure quality, reducing deforestation and dung cake burning.Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

v. Tidal Energy: Tidal energy, a hydropower form, transforms the energy derived from tides into usable power, primarily electricity. Ideal conditions for utilizing tidal energy are found in the Gulf of Khambhat, the Gulf of Kachchh in Gujarat on the western coast, and the Gangetic Delta in the Sunderban regions of West Bengal in India.

vi. Geo-Thermal Energy:   Geothermal energy is the heat and electricity generated from the Earth's internal heat. The Earth's temperature increases with depth, creating high geothermal gradients in certain areas. In these areas, groundwater absorbs heat from rocks and becomes extremely hot. The heated groundwater rises to the surface as steam, which can be used to drive turbines and produce electricity. India has several hundred hot springs that could be utilized for generating electricity through geothermal energy. Two experimental geothermal energy projects in India: Parvati Valley near Manikaran, Himachal Pradesh and Puga Valley, Ladakh.

Conservation of Energy Resources

  • Energy is crucial for all sectors of the economy, including agriculture, industry, transport, and domestic use. 
  • The rising demand for energy has been driven by economic development since Independence.
  • The increasing energy consumption highlights the urgent need for a sustainable energy development path, focusing on energy conservation and renewable energy sources.
  • India's Energy Efficiency: India is currently among the least energy-efficient countries. A cautious and judicious use of limited energy resources is essential.

Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

Here are some key strategies for conserving energy resources:

  • Using public transport systems instead of individual vehicles
  • Switching off electricity when not in use
  • Using power-saving devices.
  • Using non-conventional sources of energy
The document Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources is a part of the Class 10 Course Social Studies (SST) Class 10.
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FAQs on Class 10 Geography Chapter 5 Notes - Minerals and Energy Resources

1. What are the different types of minerals?
Ans. There are two main types of minerals - metallic minerals (such as iron ore, copper, and gold) and non-metallic minerals (such as limestone, gypsum, and quartz).
2. What are some of the hazards associated with mining activities?
Ans. Mining activities can lead to environmental degradation, land subsidence, water pollution, and loss of biodiversity. It can also pose health risks to miners due to exposure to dust, chemicals, and physical hazards.
3. How can minerals be conserved?
Ans. Minerals can be conserved by recycling and reusing them, promoting sustainable mining practices, and reducing wastage. Efforts should also be made to explore alternative materials to reduce the dependency on mineral resources.
4. What are some examples of energy resources?
Ans. Energy resources include fossil fuels (such as coal, oil, and natural gas), renewable energy sources (such as solar, wind, and hydroelectric power), and nuclear energy.
5. How can energy resources be conserved?
Ans. Energy resources can be conserved by promoting energy efficiency, using renewable energy sources, reducing energy wastage, and implementing policies and technologies that promote sustainable energy consumption.
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