Category: Class 10
Chemical Reaction and Equation Notes Class 10 NCERT Sci. Ch.1
Chemical Reaction and Equation Notes Class 10: Explore the fascinating world of Science, where we discover how things work and learn about chemical reactions that bring changes around us. From metal rusting to things breaking down, chemical reactions show us how tiny particles interact and create transformations. In Class 10 Science, Chapter 1 explains how substances change their form.
In the article “Chemical Reaction and Equation Notes Class 10” you can learn more about CBSE science class 10 chapter 1 Chemical Reaction and Equation. These notes are carefully made to give you the right amount of information without overwhelming you. They will help you prepare for exams smoothly. Understand how substances change and be ready to explore the amazing world of science. Start this educational journey now and discover the wonders of chemistry.
CBSE Science Chapter 1: Chemical Reaction and Equation Notes Class 10
Chemical Reactions
In a chemical reaction, one or more reactants change into one or more products. During this process, the atoms of the reactants get rearranged, leading to the creation of different substances as the end products.
Chemical reactions are transformations in which reactants change into products by forming or breaking bonds between different atoms.
During a chemical reaction, one set of chemical components undergoes a change to become another. These changes involve the movement of electrons in the formation and breaking of chemical bonds between atoms, with no alteration in the nuclei. Chemical equations are used to describe these reactions. The rate at which chemical reactions occur can be predicted at a given temperature and chemical concentration. Generally, reaction rates increase with higher temperatures since more thermal energy is available to reach the activation energy required to break bonds between atoms.
Types of Chemical Reactions Described in Chemical Reaction and Equation Notes Class 10
Considering various factors, chemical reactions can be categorized into multiple groups. Here are a few examples:
- Combination
- Decomposition
- Single Displacement
- Double displacement
- Redox
- Endothermic
- Exothermic
- Precipitation
- Neutralisation
Combination Reaction
A combination reaction is a type of chemical reaction where two or more substances react to form a single new compound. In this reaction, elements or compounds come together to create a more complex compound as the product.
Let’s take the example of the reaction between iron (Fe) and sulfur (S) to form iron(II) sulfide (FeS):
Fe + S → FeS
In this combination reaction, solid iron and solid sulfur combine to produce iron(II) sulfide, a new compound. This type of reaction can occur under appropriate conditions, such as when iron and sulfur are heated together. The atoms of iron and sulfur rearrange to form the compound FeS.
Combination reactions are essential in various chemical processes, ranging from the formation of simple compounds like water to more complex ones found in industrial applications and biological systems.
Decomposition Reaction
Decomposition reactions involve the breakdown of one compound into two or more compounds or elements. They are the opposite of combination reactions.
A typical decomposition reaction is represented as follows:
AB → A + B
Examples:
1. When hydrogen peroxide (H2O2) decomposes, it forms water (H2O) and oxygen gas (O2).
2H2O2(l) → 2H2O(l) + O2(g)
Hydrogen peroxide → Water + Oxygen gas
2. Silver chloride (AgCl) decomposes upon exposure to light, forming silver (Ag) and chlorine gas (Cl2).
2AgCl(s) + light → 2Ag(s) + Cl2(g)
Silver chloride + Light → Silver + Chlorine gas
Decomposition reactions are significant in various fields, such as chemistry, biology, and environmental science. They are involved in processes ranging from the breakdown of compounds in nature to chemical reactions in industrial applications.
a. Decomposition reactions that require heat are known as thermolytic decomposition or thermolysis.
Example:
Thermal decomposition of HgO:
2HgO(s) → 2Hg(l) + O2(g)
b. Decomposition reactions that require light are called photolytic decomposition or photolysis.
Example:
Photolytic decomposition of H2O2:
2H2O2(l) + light → 2H2O(l) + O2(g)
c. Decomposition reactions that require electricity are referred to as electrolytic decomposition or electrolysis.
Example:
Electrolytic decomposition of water:
2H2O(l) → 2H2(g) + O2(g)
In these specific types of decomposition reactions, the input of heat, light, or electricity triggers the breakdown of compounds into their constituent elements or simpler compounds.
Displacement Reaction
Displacement reactions, also known as Substitution Reactions or Single Displacement/Replacement Reactions, occur when a more reactive element displaces a less reactive element from a compound.
A typical displacement reaction can be expressed using a chemical equation as follows:
A + BC → AC + B
For a displacement reaction to occur, element ‘A’ must be more reactive than element ‘B’. If ‘B’ is more reactive than ‘A’, then ‘A’ will not displace ‘C’ from ‘BC’, and the reaction will not take place.
Examples:
1. When zinc reacts with hydrochloric acid, it produces hydrogen gas and zinc chloride.
Zn(s) + 2HCl(aq) → ZnCl2(aq) + H2(g)
2. When zinc reacts with copper sulfate, it forms zinc sulfate and copper metal.
Zn(s) + CuSO4(aq) → ZnSO4(aq) + Cu(s)
In these examples, zinc, being more reactive than hydrogen in hydrochloric acid and copper in copper sulfate, displaces them from the compounds, resulting in the formation of new products. Displacement reactions play a significant role in various chemical processes and have practical applications in different industries.
Double Displacement Reaction or Precipitation Reaction
Double displacement reactions, also known as Double Replacement Reactions, involve the exchange of ions between two reactants, resulting in the formation of new compounds.
The general representation of a double displacement reaction is:
AB + CD → AC + BD
Examples:
1. When a solution of barium chloride reacts with a solution of sodium sulphate, a white precipitate of barium sulphate is formed, along with sodium chloride.
BaCl2(aq) + Na2SO4(aq) → BaSO4(s) (Precipitate) + 2NaCl(aq)
2. When sodium hydroxide (a base) reacts with hydrochloric acid, sodium chloride and water are formed.
NaOH(aq) + HCl(aq) → NaCl(aq) + H2O(l)
Note: A double displacement reaction that forms a precipitate is also referred to as a precipitation reaction. Neutralization reactions are also examples of double displacement reactions, where an acid and a base react to form a salt and water. Double displacement reactions play a crucial role in various chemical processes and are encountered in different applications, such as in the synthesis of salts and precipitation reactions.
Redox Reaction
A redox reaction occurs when the oxidation states of the substances involved change. Oxidation refers to the loss of electrons or an increase in the oxidation state of a chemical or its atoms, while reduction refers to the gain of electrons or a decrease in the oxidation state of a chemical or its atoms.
During a redox reaction, both oxidation and reduction processes happen simultaneously. In oxidation, a substance loses electrons, gains oxygen, or loses hydrogen. On the other hand, in reduction, a substance gains electrons, loses oxygen, or gains hydrogen.
An oxidizing agent is a substance that causes another substance to undergo oxidation while it itself gets reduced. Conversely, a reducing agent is a substance that causes another substance to undergo reduction while it itself gets oxidized.
Redox reactions play a crucial role in various chemical processes, including combustion, corrosion, and energy production. They are essential for the transfer of electrons between substances, leading to significant transformations in the properties and behavior of chemicals.
Exothermic reaction
During a reaction, heat is released. Many combination reactions are exothermic, meaning they release heat.
Examples:
1. Al + Fe2O3 → Al2O3 + Fe + heat
In this reaction, when aluminum reacts with iron(III) oxide, it forms aluminum oxide and iron, releasing heat in the process.
2. CH4 + 2O2 → CO2 + 2H2O + heat
When methane reacts with oxygen, it produces carbon dioxide and water, along with the release of heat.
In both these combination reactions, the formation of new compounds leads to the release of heat energy, making them exothermic reactions. Exothermic reactions are common in nature and industry and play a significant role in various chemical processes, providing valuable energy and driving various natural phenomena.
Endothermic
Energy in the form of heat is necessary to drive the reaction.
6CO2 + 6H2O + Sunlight → C6H12O6 + 6O2
Glucose
In this reaction, glucose is produced from carbon dioxide and water in the presence of sunlight, and oxygen is released. The reaction requires the input of heat energy from sunlight to proceed.
Most of the decomposition reactions are endothermic, meaning they absorb heat from the surroundings to proceed. In these reactions, energy is required to break down a compound into its constituent elements or simpler compounds.
Chemical Reaction and Equation Notes Class 10
Corrosion
The gradual deterioration of a material, often a metal, due to the influence of moisture, air, or chemicals in the surrounding environment is known as corrosion.
Rusting:
4Fe(s) + 3O2(from air) + xH2O(moisture) → 2Fe2O3.xH2O(rust)
Corrosion of copper:
Cu(s) + H2O(moisture) + CO2(from air) → CuCO3.Cu(OH)2(green)
Corrosion of silver:
Ag(s) + H2S (from air) → Ag2S(black) + H2(g)
In these examples, rusting, copper corrosion, and silver corrosion all occur due to the interaction with elements in the environment, such as moisture, air, and chemicals. These reactions lead to the formation of new compounds on the surface of the materials, causing them to deteriorate over time. Corrosion is a common phenomenon that affects various materials, and it is a significant concern in various industries and everyday applications.
Rancidity
Food undergoes a process called rancidity when fats and oils in it undergo oxidation over an extended period. This results in the food developing a foul smell and unpleasant taste. Consuming rancid food can lead to stomach infections and discomfort.
Prevention methods include:
(i) Using air-tight containers to minimize exposure to air and oxygen.
(ii) Packaging food with nitrogen to create a protective atmosphere.
(iii) Refrigeration to slow down the oxidation process.
(iv) Adding antioxidants or preservatives to inhibit the oxidation of fats and oils.
By employing these prevention measures, we can prolong the freshness and quality of food, ensuring safer and more enjoyable consumption.
Word Equation
A word equation represents a chemical reaction using words instead of chemical formulas, making it easier to identify the reactants and products involved.
In this shorthand representation, the names of the reactants appear on the left side of the word equation. If there is more than one reactant, their names are separated by a plus sign (+). Similarly, the products are listed on the right side of the word equation, with their names separated by a plus sign (+) if there is more than one product.
For instance,
Sodium + Chlorine → Sodium chloride
The equation above can be read as: “Sodium reacts with chlorine to form sodium chloride.
Symbols of Elements and Their Valencies used in Chemical Reaction and Equation Notes Class 10
A symbol serves as a chemical code for an element. Every element is represented by a one or two-letter atomic symbol, typically an abbreviation of its name.
Valency refers to the combining capacity of an element. It represents the number of electrons that an atom gains, loses, or shares when it combines with another atom to form a molecule.
Writing Chemical Equations
A chemical equation is the representation of a chemical reaction using symbols and chemical formulas for the reactants and products.
In chemical equations:
- “(s)” is used for solids.
- “(l)” is used for liquids.
- “(g)” is used for gases.
- “(aq)” is used for aqueous solutions.
- “(↑)” is used to indicate a gas produced in the reaction.
- “(↓)” is used to indicate a precipitate formed in the reaction.
Ex: Zn(s) + H2SO4(aq) → ZnSO4(aq) + H2(g) ↑
Physical and Chemical Changes
Chemical change happens when one or more new substances are created, and these substances have different physical and chemical properties compared to the original ones.
In a physical change, there is a modification in color or state, but no new substance is produced. For instance, when water is boiled and changes into steam, no new substance is formed (even though water and steam appear different, they react in the same way when exposed to sodium, producing identical products). This change solely involves a shift in the state of matter, from liquid to vapor.
Observations that Help Determine a Chemical Reaction
To identify a chemical reaction, you can make use of the following observations:
a) The release of a gas
b) A change in temperature
c) The formation of a precipitate
d) A change in color
e) A change in state
Balancing of a Chemical Reaction
Law of Conservation of Mass
The Law of Conservation of Mass states that in a chemical reaction, atoms cannot be created or destroyed. Therefore, the total number of atoms of each element on the reactants side must be equal to the total number of atoms on the products side.
In simpler terms, the total mass of the products formed during a chemical reaction is always equal to the total mass of the reactants involved in the reaction. Mass is conserved throughout the entire process.
Balanced chemical equation
A chemical equation is considered balanced when the number of atoms for each element on the reactants side is equal to the number of atoms on the products side. Such an equation is referred to as a balanced chemical equation.
Steps for Balancing Chemical Equations
A chemical equation represents the changes that occur during a chemical reaction.
Reactants → Products
For a chemical equation to be balanced, the equilibrium must be maintained, meaning the number of each type of atom must be the same on both sides of the arrow.
Scientists use coefficients to balance chemical equations. Coefficients are numerical values added in front of chemical symbols or formulas, indicating the number of atoms or molecules involved.
Place coefficients as needed to achieve a balanced chemical equation, ensuring the same number of each type of atom appears in both reactants and products.
For instance:
Zn + HCl → ZnCl2 + H2
The balanced equation is:
Zn + 2HCl → ZnCl2 + H2
To balance the equation, you may use the hit and trial method, adjusting the coefficients until the number of atoms of each element is the same on both sides of the chemical equation.
Read Also:
- Acids Bases and Salts Class 10 Notes of NCERT Science Ch. 2
- Life Process Notes Class 10 NCERT Science Chapter 5
- Control and Coordination Notes Class 10: NCERT Science Ch. 6
- Class 10th How Do Organisms Reproduce Notes: Science Ch. 7
- Class 10th Heredity and Evolution Notes: NCERT Science Ch. 8
- Class 10th Chapter 11 Science Notes for NCERT Students
- Notes of Our Environment Class 10: NCERT Science Chapter 13
Frequently Asked Questions on Chemical Reaction and Equation Notes Class 10
Q 1. How can you identify a chemical reaction?
Several observable changes and indicators can identify a chemical reaction. During a chemical reaction, it forms new substances with different properties than the original reactants.
These changes can be evident through alterations in color, the evolution of gas, the formation of a precipitate, and variations in temperature. Some reactions emit light or produce distinct odors, providing further evidence of chemical change.
Additionally, the irreversibility of most chemical reactions sets them apart from physical changes. Observing effervescence or the rapid release of gas in the form of bubbles is also a common clue. Scientists rely on these recognizable signs to study and understand chemical processes across various disciplines.
Identifying chemical reactions is essential for advancing research, developing new materials, and comprehending the transformations that occur in the world around us.
Q 2. Why chemical equation balancing important?
In chemistry, the balancing of chemical equations is of paramount importance as it upholds the fundamental principle of the Law of Conservation of Mass. This law states that the total mass of the reactants in a chemical reaction must be equal to the total mass of the products. By balancing the equation, the same number of atoms of each element appears on both sides of the reaction, guaranteeing the preservation of mass.
Balanced chemical equations accurately represent the stoichiometry of a reaction, illustrating the correct proportions in which the reactants combine and the products are formed. This information is crucial for understanding the quantitative aspects of the reaction and for predicting the amounts of reactants and products needed or obtained.
Furthermore, chemical equation balancing is essential for performing stoichiometric calculations in laboratories and industries, allowing efficient synthesis and production of substances. Furthermore, accurate reproducibility and standardized study of the reaction require clear communication among scientists and researchers.
In summary, chemical equation balancing is the backbone of chemical understanding and enables precise calculations, ensuring the consistent application of chemical principles in research, industry, and education.
Q 3. How do chemical reactions impact our daily lives and the environment?
Chemical reactions have a profound impact on our daily lives and the environment. In our daily routines, chemical reactions are integral to numerous processes, such as cooking, digestion, and combustion in vehicles and appliances. They provide us with essential products like medicines, plastics, and cleaning agents. Chemical reactions in food preservation and fermentation play a vital role in food industry practices.
However, certain chemical reactions also pose environmental challenges. Combustion of fossil fuels releases carbon dioxide and other greenhouse gases, contributing to climate change. Industrial processes and emissions generate air and water pollutants, leading to environmental degradation and health concerns. Chemical reactions in fertilizers and pesticides can harm ecosystems and disrupt biodiversity.
Balancing these effects is crucial. To minimize the negative environmental impact of chemical reactions, we employ sustainable practices, green chemistry, and waste reduction. Understanding and managing chemical reactions contribute to finding solutions for environmental sustainability and improving our overall quality of life.
Q 4. How do chemical reactions play a role in food preparation and cooking?
Chemical reactions play a crucial role in food preparation and cooking, transforming raw ingredients into delicious and nutritious dishes. The Maillard reaction is responsible for the browning and development of savory flavors in grilled meats, roasted vegetables, and toasted bread. Caramelization of sugars produces a rich and sweet taste in dishes like caramelized onions and desserts. Fermentation, driven by yeast and bacteria, enhances the taste and texture of foods like bread, cheese, and pickles.
Chemical leavening agents like baking powder and baking soda release carbon dioxide, making dough and batters rise, resulting in light and fluffy cakes and bread. Denaturation of proteins through heat and acids changes their structure and texture in foods like eggs and meat.
Understanding these chemical processes empowers cooks and chefs to manipulate ingredients and cooking techniques, creating a wide array of flavors, textures, and appearances in culinary delights. Chemical reactions, when harnessed skillfully, are the key to transforming raw ingredients into delectable and visually appealing dishes that tantalize our taste buds and nourish our bodies.
Q 5. What are some safety precautions to consider when conducting chemical reactions in the laboratory?
Safety is of utmost importance when conducting chemical reactions in the laboratory to prevent accidents, injuries, and exposure to hazardous substances. Here are some essential safety precautions to consider:
1. Wear Appropriate Personal Protective Equipment (PPE): Always wear safety goggles, lab coats, gloves, and closed-toe shoes to protect eyes, skin, and clothing from chemical splashes and spills.
2. Work in a Well-Ventilated Area: Ensure proper ventilation to minimize exposure to fumes and gases. Use fume hoods when handling volatile or toxic substances.
3. Label and Store Chemicals Properly: Clearly label all chemicals and store them in designated, secure locations, following safety data sheet guidelines.
4. Know Emergency Procedures: Familiarize yourself with emergency protocols, including eyewash stations, safety showers, and fire extinguishers.
5. Do Not Taste or Smell Chemicals: Avoid tasting or smelling chemicals, as some substances can be toxic, corrosive, or harmful.
By observing these safety precautions and practicing responsible laboratory conduct, researchers can minimize risks and create a safe working environment for themselves and others.
Chemical Equations and Reactions Class 10: Solution of Sci. Ch.1
Welcome to our comprehensive guide on mastering chemical equations and reactions for Class 10 students. In this article, we delve into the fascinating world of chemistry, specifically focusing on the essential topic of “chemical equations and reactions class 10.”
Chemical equations and reactions are fundamental concepts in chemistry that form the basis for understanding various chemical processes and transformations. As you progress through your Class 10 studies, this topic becomes increasingly important and lays the foundation for more advanced chemistry topics in higher grades.
In this guide, we will take you through the key aspects of chemical equations and reactions, including how to write and balance chemical equations, identifying different types of reactions, and understanding the underlying principles behind each reaction type.
By the end of this article, you will gain a thorough understanding of chemical equations and reactions, enabling you to confidently tackle related questions and problems in your Class 10 examinations and beyond. Let’s embark on this exciting journey into the world of chemical reactions and equations! For other chapter’s solution, visit NCERT Solutions Science Class 10 All Chapter
NCERT Chapter 1 Chemical Equations and Reactions Class 10 Solution
1. Why should a magnesium ribbon be cleaned before burning in the air?
Solution:
Before burning in air, it is crucial to clean the magnesium ribbon since it readily reacts with atmospheric oxygen, leading to the formation of a highly stable compound known as Magnesium Oxide (MgO). To prevent any subsequent reactions with oxygen, it becomes imperative to cleanse the ribbon and remove the MgO layer.
2. Write a balanced equation for the following chemical reactions.
i) Hydrogen + Chloride —-> Hydrogen chloride
ii) Barium chloride + Aluminium sulphate —-> Barium sulphate + Aluminium chloride
iii) Sodium + Water —-> Sodium hydroxide + Hydrogen
Solution:
i) H2 + Cl2 → 2HCl
ii) 3BaCl2 + Al2(SO4)3 →3BaSO4 + 2AlCl3
iii) 2Na + 2H2O → 2NaOH + H2
3. Write a balanced chemical equation with state symbols for the following reactions
i) Solutions of Barium chloride and Sodium sulphate in water react to give insoluble Barium sulphate and solution of Sodium chloride.
ii) Sodium hydroxide solution in water reacts with the hydrochloric acid solution to produce Sodium chloride solution and water.
Solution:
i) BaCl2 + Na2SO4 → BaSO4 + 2NaCl
ii) NaOH + HCl → NaCl + H2O
Chemical Equations and Reactions Class 10: Set 2, Page number – 10
1. A solution of a substance, ‘X,’ is used for whitewashing.
(i) Name the substance ‘X’ and write its formula.
(ii) Write the reaction of the substance ‘X’ named in (i) above with water.
Solution:
i) The substance ‘X’ which is used in whitewashing is quick lime or Calcium Oxide and its formula is CaO.
ii) CaO + H2O → Ca(OH)2
2. Why is the amount of gas collected in one of the test tubes in Activity 1.7 double the amount collected in the other? Name this gas.
Solution:
In activity 1.7, there is a notable difference in the amount of gas collected between two test tubes. This variance occurs because water undergoes hydrolysis, resulting in the release of H2 and O2 gases. During electrolysis, two molecules of hydrogen and one molecule of oxygen gas are generated. It explains why the quantity of hydrogen collected is twice that of oxygen.
Chemical Equations and Reactions Class 10: Set 3, Page number – 13
1. Why does the colour of copper sulphate solution change when an iron nail is dipped in it?
Solution:
When immersing an iron nail in the copper sulphate solution, a displacement reaction occurs wherein iron displaces copper from the copper sulphate compound due to iron’s higher reactivity compared to copper. Consequently, the color of the copper sulphate solution changes. The reaction can be represented as:
Fe + CuSO4 → FeSO4 + Cu
2. Give an example of a double displacement reaction other than the one given in Activity 1.10.
Solution:
The interaction between silver nitrate (AgNO3) and sodium chloride (NaCl) exemplifies a double displacement reaction. In this reaction, the negative and positive ions exchange places, leading to the creation of a white precipitate called silver chloride (AgCl). The chemical equation representing this process is as follows:
Ag+ + NO3– + Na+ + Cl– → AgCl + Na+ + NO3–
3. Identify the substances that are oxidised and that are reduced in the following equation.
i) 4Na(s) + O2(g) → 2Na2O(s)
ii) CuO(s) + H2(g) → Cu(s) + H2O(l)
Solution:
In the first equation, Sodium (Na) undergoes oxidation upon reacting with Oxygen (O2), while in the second equation, Copper (Cu) gets reduced as a result of its reaction with Hydrogen (H2).
Chemical Equations and Reactions Class 10: Exercise Questions (Q 1 to Q 5)
1. Which of the statements about the reaction below are incorrect?
2PbO(s) + C(s) → 2Pb(s) + CO2(g)
(a) Lead is getting reduced
(b) Carbon Dioxide is getting oxidised
(c) Carbon is getting oxidised
(d) Lead oxide is getting reduced
(i) (a) and (b)
(ii) (a) and (c)
(iii) (a), (b) and (c)
(iv) all the above
Solution:
(i) (a) and (b)
2. Fe2O3 + 2Al → Al2O3 + 2Fe
The above reaction is an example of a
- Combination reaction
- Double displacement reaction
- Decomposition reaction
- Displacement reaction
Answer:
4. Displacement reaction.
3. What happens when dilute hydrochloric acid is added to iron fillings? Tick the correct answer.
- Hydrogen gas and Iron chloride are produced.
- Chlorine gas and Iron hydroxide are produced.
- No reaction takes place.
- Iron salt and water are produced.
Answer: 1. Hydrogen gas and Iron chloride are produced.
4. What is a balanced chemical equation? Why should a chemical equation be balanced?
Answer:
A balanced equation ensures that the count of distinct atoms on both the reactant and product sides is identical. Balancing chemical equations is very important to follow the Law of Conservation of Mass. According to this law matter can’t be created or destroyed during a chemical reaction. Balancing equations doesn’t have a set way to do it, so people try different methods until they find the right one that works.
5. Translate the following statements into chemical equations and balance them.
(a) Hydrogen gas combines with nitrogen to form ammonia.
(b) Hydrogen sulphide gas burns in the air to give water and sulphur dioxide.
(c) Barium chloride reacts with aluminium sulphate to give Aluminium chloride and a precipitate of barium sulphate.
(d) Potassium metal reacts with water to give potassium hydroxide and Hydrogen gas.
Solution:
(a) Unbalanced: H2 + N2 → NH3
Balanced: 3H2 + N2 → 2NH3
(b) Unbalanced: H2S + O2 → H2O + SO2
Balanced: 2H2S + 3O2 → 2H2O + 2SO2
(c) Unbalanced:
BaCl2 + Al2(SO4)3 → AlCl3 + BaSO4
Balanced: 3BaCl2 + Al2(SO4)3 → 2AlCl3 + 3BaSO4
(d) Unbalanced: K + H2O → KOH + H2
Balanced: 2K + 2H2O → 2KOH + H2
Chemical Equations and Reactions Class 10: Exercise Questions (Q 6 to Q 10)
6. Balance the following chemical equations.
(a) HNO3 + Ca(OH)2 → Ca(NO3)2 + H2O
(b) NaOH + H2SO4 → Na2SO4 + H2O
(c) NaCl + AgNO3 → AgCl + NaNO3
(d) BaCl2 + H2SO4 → BaSO4 + HCl
Solution:
(a) 2HNO3 + Ca(OH)2 → Ca(NO3)2 + 2H2O
(b) 2NaOH + H2SO4 → Na2SO4 + 2H2O
(c) NaCl + AgNO3 → AgCl + NaNO3
(d) BaCl2 + H2SO4 → BaSO4 + 2HCl
7. Write the balanced chemical equation for the following reactions.
Calcium hydroxide + Carbon dioxide —-> Calcium carbonate + Water
Zinc + Silver nitrate —-> Zinc nitrate + Silver
Aluminium + Copper chloride —-> Aluminium chloride + Copper
Barium chloride + Potassium sulphate —-> Barium sulphate + Potassium chloride
Solution:
2Ca(OH)2 + 2CO2 → 2CaCO3 + 2H2O
Zn + 2AgNO3 → Zn(NO3)2 + 2Ag
2Al + 3CuCl2 → 2AlCl3 + 3Cu
BaCl2 + K2SO4 → BaSO4 + 2KCl
8. Write a balanced chemical equation for the following and identify the type of reaction of each case.
KBr + BaI2 → KI + BaBr2
ZnCO3 → ZnO + CO2
H2 + Cl → HCl
Mg + HCl → MgCl2 + H2
Solution:
2KBr + BaI2 → 2KI + BaBr2 (Double Displacement Reaction)
ZnCO3 → ZnO + CO2 (Decomposition Reaction)
H2 + Cl → 2HCl (Combination Reaction)
Mg + 2HCl → MgCl2 + H2 (Displacement Reaction)
9. What is meant by exothermic and endothermic reactions? Give examples.
Answer:
An endothermic reaction takes place when the system absorbs energy from the surroundings, primarily in the form of heat. Examples of endothermic reactions include processes like photosynthesis, melting of ice, and evaporation.
On the other hand, an exothermic reaction is characterized by the release of energy from the system into the surroundings. Instances of exothermic reactions encompass events such as explosions, concrete setting, and nuclear fission and fusion.
10. Why is respiration considered to be an exothermic reaction?
Answer:
Energy is essential for the sustenance of life, and we acquire it from the food we consume. During digestion, the food molecules are broken down into simpler substances, such as glucose.
When these substances interact with the oxygen present in our body cells, they produce carbon dioxide and water, along with a certain amount of energy (a process known as respiration).
Since this energy is in the form of heat, which helps maintain our body temperature, respiration is classified as an exothermic reaction. The equation is describe as:
C6H12O6 + 6O2 → 6CO2 + 6H2O + Energy
Chemical Equations and Reactions Class 10: Exercise Questions (Q 11 to Q 15)
11. Why are decomposition reactions called the opposite of Combination reactions? Write equations for decomposition reactions.
Answer:
A combination reaction involves the interaction of two or more molecules to create a larger molecule, whereas a decomposition reaction refers to the breakdown of larger molecules into two or more smaller molecules. Essentially, the decomposition reaction stands as the reverse process of a combination reaction.
In lots of cases, the decomposition reaction needs heat from the surroundings or added heat to break the bonds of the larger molecule. This makes it an endothermic reaction. A few examples of decomposition reactions include: [Here you can list the examples of decomposition reactions]
ZnCO3 → ZnO + CO2
CaCO3 + Energy → CaO + CO2
2HgO → 2Hg + O2
12. Write one equation each for decomposition reactions in which energy is supplied in the form of heat, light or electricity.
Answer:
(a) Thermal decomposition reaction (Thermolysis)
2KClO3 + Heat → 2KCl + 3O2
(b) Electrolytic decomposition reaction (Electrolysis)
2NaCl → 2Na + Cl2
(c) Photodecomposition reaction (Photolysis)
2H2O2 → 2H2O
13. What is the difference between displacement and double displacement reactions? Write relevant equations for the above.
Solution:
A displacement reaction occurs when a more reactive substance displaces a less reactive one from its salt solution, whereas a double displacement reaction involves a mutual exchange of ions between two compounds.
In a displacement reaction, a single displacement occurs, whereas in the double displacement reaction, as the name suggests, two displacements take place between the molecules.
Examples:
Displacement reaction:
Mg + 2HCl → MgCl2 + H2
Double displacement reaction:
2KBr + BaI2 → 2KI + BaBr2
14. In the refining of Silver, the recovery of silver from Silver nitrate solution involves displacement reaction by Copper metal. Write down the reaction involved.
Solution:
Cu(s) + 2AgNO3(aq) → Cu(NO3)2(aq) + 2Ag(s)
15. What do you mean by a precipitation reaction? Explain by giving examples.
Solution:
When we mix two solutions that have dissolvable salts, a special reaction called double displacement happens. In this reaction, the ions in the compounds switch places with each other. If one of the compounds formed in this reaction is in a solid form and insoluble in the aqueous solution, it settles down at the bottom of the container. Here are a few examples of precipitation reactions:
Example 1:
CdSO4(aq) + K2S(aq) → CdS(s) + K2SO4(aq)
Example 2:
2NaOH(aq) + MgCl2(aq) → 2NaCl(aq) + Mg(OH)2(s)
Chemical Equations and Reactions Class 10: Exercise Questions (Q 16 to Q 20)
16. Explain the following in terms of the gain of oxygen with two examples each.
(a) Oxidation
(b) Reduction
Solution:
(a) In a chemical reaction, when oxygen combines with an element to form its corresponding oxide, the element is undergoing oxidation. Examples:
1. 4Na(s) + O2(g) → 2Na2O(s)
In this reaction, sodium (Na) is being oxidized as it combines with oxygen (O2) to form sodium oxide (Na2O).
2. H2S + O2 → H2O + SO2
Here, hydrogen sulfide (H2S) is oxidized by oxygen (O2) to produce water (H2O) and sulfur dioxide (SO2).
(b) In a chemical reaction, when oxygen is removed from a compound, it is considered to be reduced. Examples:
1. CuO(s) + H2(g) → Cu(s) + H2O(l)
In this reaction, copper oxide (CuO) is reduced as it loses oxygen, and hydrogen gas (H2) is oxidized to form water (H2O).
2. 2HgO → 2Hg + O2
In this case, mercury oxide (HgO) is reduced as it gives up oxygen, resulting in the production of mercury (Hg), and the released oxygen (O2) becomes a separate gas.
17. A shiny brown coloured element ‘X’ on heating in the air becomes black in colour. Name the element ‘X’ and the black-coloured compound formed.
Solution:
The lustrous, brown-colored element is Copper metal (Cu). When we heat this metal while it is near air, it reacts with the oxygen in the air. This reaction makes copper oxide. Therefore, the black-colored compound obtained is copper oxide.
The chemical equation representing the reaction is:
2Cu(s) + O2(g) → 2CuO(s)
18) Why do we apply paint on iron articles?
Solution:
Iron particles are coated with paint to safeguard them from rusting. When left unpainted, the metal surface comes into contact with atmospheric oxygen and, in the presence of moisture, forms Iron(III) oxide, commonly known as rust. But when we paint the surface, it stays protected from water and air. This stops rusting from happening and keeps the object safe.
19) Oil and Fat containing food items are flushed with Nitrogen. Why?
Solution:
The primary objective of flushing Nitrogen into food packets containing oil and fat items is to inhibit rancidity. Rancidity occurs when the oil or fat reacts with oxygen, resulting in an unpleasant smell and taste. When we put Nitrogen into the packets, it creates a special environment where things don’t react much. This stops rancidity from happening and keeps the items fresh for a longer time.
20) Explain the following terms with one example each.
(a) Corrosion
(b) Rancidity
Solution:
(a) Corrosion is a natural process where a refined metal undergoes oxidation upon exposure to atmospheric oxygen, resulting in the formation of more stable compounds like oxides. Over time, the metal gradually degrades during the corrosion process. A common example of corrosion is the rusting of iron, which happens when iron turns into iron oxide. Preventing rusting is very important because it can cause damage to bridges and monuments, leading to millions of dollars spent each year to protect them from harm.
(b) Rancidity refers to the condition caused by the aerial oxidation of oil and fat present in food materials, leading to an unpleasant taste and smell. To slow down this process of degradation, you can put the food in the refrigerator. The cold temperature stops the reaction that causes the unpleasant taste and smell, keeping the food fresh and good to eat.
NCERT Solutions for Science Chapter 1 Chemical Equations and Reactions Class 10
“Chemical Reactions and Equations” is a foundational chapter that imparts fundamental knowledge about chemical reactions and equations. It is essential for students to grasp the concepts in this chapter as it forms the basis for understanding more advanced topics in chemistry. If you want to study science, especially in higher secondary school, it’s highly recommended to become very familiar with this chapter. The concepts learned here will hold great importance and relevance throughout their academic journey.
Features of NCERT Solutions for Chapter 1 Science Chemical Equations and Reactions Class 10
By engaging in comprehensive practice, students can refine their skills in balancing various types of equations.
NCERT Solutions play a crucial role in guiding students to write chemical equations correctly, offering valuable assistance.
Thoroughly working through NCERT Solutions, which involve solving questions of different levels of difficulty, can effectively prepare students for the CBSE examination.
Chemical reactions are integral to our lives. It is observed in the rusting of iron, curdling of milk, respiration, digestion, and growth.
To do well in the CBSE Class 10 examination, students should focus on practicing the NCERT Solutions for Chemical Equations and Reactions Class 10, which are available here.
Frequently Asked Question – FAQs on Chemical Equations and Reactions Class 10
Q 1. What are 10 chemical reactions examples?
Certainly! Here are 10 chemical reaction examples:
- Combustion of methane: CH4 + 2O2 → CO2 + 2H2O
- Photosynthesis: 6CO2 + 6H2O + light energy → C6H12O6 + 6O2
- Rusting of iron: 4Fe + 3O2 + 6H2O → 4Fe(OH)3
- Decomposition of hydrogen peroxide: 2H2O2 → 2H2O + O2
- Formation of table salt (sodium chloride): Na + Cl2 → 2NaCl
- Acid-base neutralization: HCl + NaOH → NaCl + H2O
- Fermentation of glucose: C6H12O6 → 2C2H5OH + 2CO2
- Synthesis of water: 2H2 + O2 → 2H2O
- Precipitation reaction: AgNO3 + NaCl → AgCl + NaNO3
- Single displacement reaction: Zn + CuSO4 → ZnSO4 + Cu
Keep in mind that these are simplified representations of the reactions, and in practice, various factors and conditions can influence the reactions.
Q 2. What are the 4 types of chemical equations?
The four main types of chemical equations are:
1. Combination (Synthesis) Reactions: In these reactions, two or more substances combine to form a single product. The general form of a combination reaction is:
A + B → AB
2. Decomposition Reactions: In decomposition reactions, a single compound breaks down into two or more simpler substances. The general form of a decomposition reaction is:
AB → A + B
3. Single Displacement (Replacement) Reactions: In single displacement reactions, an element replaces another element in a compound, leading to the formation of a new compound and a different element. The general form of a single displacement reaction is:
A + BC → AC + B
4. Double Displacement (Metathesis) Reactions: In double displacement reactions, the positive and negative ions of two compounds exchange places, leading to the formation of two new compounds. The general form of a double displacement reaction is:
AB + CD → AD + CB
These types of chemical equations represent the various ways in which chemical reactions can occur and are essential for understanding the behavior of substances during chemical transformations.
Q 3. How many chemical formulas are there in Chemical Equations and Reactions Class 10?
The number of chemical formulas is virtually infinite because there are countless possible combinations of elements that can form different compounds. Each unique chemical compound has its own distinct chemical formula, which represents the types and proportions of atoms present in the compound.
Chemical formulas are a concise and standardized way to represent chemical compounds, and they follow specific rules to convey information about the elements and their relative ratios in the compound. As scientists continue to discover and synthesize new compounds, the number of chemical formulas continues to grow. While it is not possible to determine an exact count of all possible chemical formulas, the diversity of compounds is a fundamental aspect of the vast and intricate field of chemistry.
Q 4. Which is the best example of a chemical reaction?
One of the best and most well-known examples of a chemical reaction is the combustion of methane (CH4) with oxygen (O2) to produce carbon dioxide (CO2) and water (H2O). The reaction complete combustion of methane represented by the following chemical equation:
CH4 + 2O2 → CO2 + 2H2O
In this reaction, methane (a hydrocarbon) reacts with oxygen gas in the presence of heat or a flame. The result is the complete transformation of the reactants (methane and oxygen) into the products (carbon dioxide and water). This reaction releases a significant amount of energy in the form of heat and light, making it an essential process for various applications, including cooking, heating, and power generation.
The combustion of methane is a fundamental example of a chemical reaction that showcases the rearrangement of atoms and the formation of new substances with distinct properties from the original reactants.
Q 5. Use of chemical reaction in daily life according to Chemical Equations and Reactions Class 10?
Chemical reactions are an integral part of our daily lives, impacting various processes and activities. Combustion, such as burning fuels for cooking and transportation, releases heat and light through chemical reactions.
Photosynthesis in plants converts carbon dioxide and water into glucose and oxygen, sustaining life. Respiration in our bodies utilizes chemical reactions to produce energy and expel carbon dioxide. During digestion, chemical reactions break down food for nutrient absorption. Rusting occurs as metals react with oxygen and moisture. Baking involves reactions between ingredients, causing dough or batter to rise.
Fermentation creates products like yogurt and alcoholic beverages through microbial reactions. Cleaning products work by chemical reactions to remove dirt and stains. Batteries operate through chemical reactions to generate electrical energy. Additionally, pharmaceuticals use chemical reactions to produce medicines for treating diseases. These examples illustrate how chemical reactions play a vital role in our daily activities and advancements in modern life.
10th Class Geography: NCERT Chapter-Wise Solutions
Welcome to our comprehensive guide to NCERT 10th Class Geography! If you’re a student seeking chapter-wise solutions and in-depth explanations for your Geography course, you’ve come to the right place. We understand the importance of acing your 10th Class Geography exams. That’s why we have curated a collection of high-quality, chapter-wise solutions to help you excel in your studies.
In this article, you will find well-structured and easy-to-understand solutions to all the chapters of the 10th Class Geography textbook. Our expert educators have crafted these solutions to provide you with a clear understanding of the concepts, making your learning experience enjoyable and productive.

Overview of 10th Class Geography Chapters
The Class 10 Geography book comprises a total of seven insightful chapters. In this article, you’ll find a concise overview and description of each of these chapters, providing you with valuable insights into the topics covered. Let’s take a closer look at what each chapter has to offer!
Chapter 1: Resources and Development
In Class 10 Geography Chapter 1, we embark on an exploration of resources and development. The chapter commences by defining resources and delving into their classification, considering factors such as origin, exhaustibility, ownership, and potential for development. The focus then shifts to the development of resources and the crucial aspect of resource planning.
The central theme revolves around land resources, where we delve into topics like land utilization, land use patterns in India, land degradation, and the measures for conservation. Another significant aspect covered in-depth is soil as a resource, including a detailed classification of soils, soil erosion, and methods of soil conservation.
10th Class Geography covered the following topics:
1. Concept of Resources
2. Development of Resources
3. Resource Planning in India
4. Conservation of Resources
5. Land Resources
6. Land Utilisation
7. Land Use Pattern in India
8. Land Degradation and Conservation Measures
9. Soil as a Resource
10. Classification of Soils
11. Soil Erosion and Soil Conservation (excluding Box Information on State of India’s Environment)
Through this chapter, students gain a profound understanding of the significance of resources and their sustainable development for a thriving future.
Chapter 2: Forest and Wildlife Resources
Class 10 Geography Chapter 2 offers valuable insights into the fascinating world of flora and fauna, encompassing their diversity and the factors contributing to their depletion. Delving deeper, the chapter explores the conservation and distribution of forests and wildlife in India, shedding light on the crucial efforts to safeguard these precious resources.
The topics covered in this enriching chapter include:
1. Conservation of Forest and Wildlife in India: Understanding the measures taken to preserve and protect the invaluable forest and wildlife resources of India.
2. Types and Distribution of Forests and Wildlife Resources: An exploration of the different types of forests and wildlife found across India, along with their distribution patterns.
3. Community and Conservation: Learning about the roles played by communities in conservation efforts, recognizing the importance of collective action in safeguarding our natural heritage.
Through this chapter, students gain a deeper appreciation for the significance of preserving our forests and wildlife and are inspired by the efforts of common people in ensuring the sustainable coexistence of humans and nature.
Chapter 3: Water Resources
In Class 10 Geography Chapter 3, students embark on a comprehensive exploration of the world’s most precious resource – water. The chapter commences by illuminating the availability of fresh water on the Earth’s surface. It delves into the causes of water scarcity, emphasizing the urgent need for conserving and effectively managing water resources.
Key topics covered in this insightful chapter include:
1. Water Scarcity and the Need for Water Conservation and Management: Understanding the reasons behind water scarcity and recognizing the importance of conservation and efficient management of water resources.
2. Multi-Purpose River Projects and Integrated Water Resources Management: Learning about multi-purpose river projects and the concept of integrated water resources management, which aim to optimize water usage and promote sustainable development.
3. Rainwater Harvesting: Exploring the practice of rainwater harvesting, a vital technique for conserving water and replenishing groundwater sources.
Additionally, the chapter includes a list of map items related to various dams, such as Salal, Bhakra Nangal, Tehri, Rana Pratap Sagar, Sardar Sarovar, Hirakud, Nagarjuna Sagar, and Tungabhadra, providing students with a comprehensive understanding of water resources management and its implementation in different regions.
Chapter 4: Agriculture
Delving into the heart of India’s agricultural heritage, Class 10 Geography Chapter 4 unravels the intricate tapestry of farming practices that have thrived in the country for centuries. As an agricultural nation, India’s farming legacy spans diverse types of farming systems, cropping patterns, and a plethora of major crops cultivated across its fertile landscapes.
Key topics covered in this enriching chapter include:
1. Types of Farming: Students gain insights into the three prominent types of farming in India, including Primitive Subsistence, Intensive Subsistence, and Commercial farming.
2. Cropping Pattern: Exploring the fascinating mosaic of crops, the chapter illuminates the major crops produced in India, encompassing food crops other than grains, non-food crops, and the role of technological and institutional reforms in shaping the agricultural landscape.
3. Food Security: The chapter underscores the importance of food security and its relationship with agriculture, while excluding the impact of globalization on this vital sector.
The chapter also features a list of map items, offering students the opportunity to identify and comprehend the major areas of rice and wheat cultivation and the largest/major producer states of sugarcane, tea, coffee, rubber, cotton, and jute, thereby enriching their understanding of India’s diverse agricultural geography.
Chapter 5: Minerals and Energy Resources
Embarking on a fascinating journey beneath the Earth’s surface, Class 10 Geography Chapter 5 uncovers the mesmerizing world of minerals and energy resources. Delving into the very foundation of the planet’s crust, the chapter unravels the mysteries of minerals, their occurrence, and their diverse classifications.
The chapter unfolds with a comprehensive exploration of minerals, shedding light on their definition and the mode of their occurrence. Students are introduced to a wide array of minerals, including ferrous minerals, non-ferrous minerals, nonmetallic minerals, and rock minerals, each explained in meticulous detail.
Furthermore, the chapter addresses the crucial topic of mineral conservation, emphasizing the significance of preserving these invaluable resources for future generations.
In addition to minerals, the chapter also delves into the captivating realm of energy resources. It acquaints students with conventional sources of energy and non-conventional sources of energy, providing a holistic understanding of the world’s energy landscape.
The significance of conserving energy resources is underscored, highlighting the need to harness and utilize energy in a sustainable manner.
To enhance geographical knowledge, the chapter features a list of map items, enabling students to identify key mineral locations. It includes iron ore mines in Mayurbhanj, Durg, Bailadila, Bellary, and Kudremukh, coal mines in Raniganj, Bokaro, Talcher, and Neyveli, and oil fields in Digboi, Naharkatia, Mumbai High, Bassein, Kalol, and Ankleshwar. It also includes the location of power plants, both thermal and nuclear.
By unraveling the intricate web of minerals and energy resources, this chapter equips students with a deeper understanding of the Earth’s hidden treasures and their importance in sustaining our world.
Chapter 6: Manufacturing Industries
Unlocking the gateway to development, the manufacturing sector stands as a cornerstone of progress. Nestled within the pages of NCERT Geography, Chapter 6 unveils the significance of manufacturing industries and their vital contribution to the national economy. With a focus on enlightening students, the chapter unravels the intricacies of industrial locations and the factors influencing them.
Venturing further, the chapter delves into a captivating exploration of agro-based industries, mineral-based industries, chemical industries, and more. Each industry is intricately explained, providing students with a comprehensive understanding of their functions and significance.
Moreover, the chapter delves into a critical topic – industrial pollution and its repercussions on the environment. Students are made aware of the detrimental impact of industrial activities on the ecosystem and the measures undertaken to prevent environmental degradation.
To enhance geographical knowledge, the chapter includes a list of map items. It enables students to locate and label various manufacturing industries. It includes Software Technology Parks in Noida, Gandhinagar, Mumbai, Pune, Hyderabad, Bengaluru, Chennai, and Thiruvananthapuram.
By journeying through the realms of manufacturing industries, students gain insights into the foundation of development, the role of industries in the economy, and the imperative to balance progress with environmental preservation.
Chapter 7: Lifelines of National Economy
Embarking on a voyage of connectivity, Chapter 7 of NCERT Geography unveils the lifelines of our nation’s economy – modern means of transport and communication. Within its pages, students will uncover the intricate web of roadways, railways, pipelines, waterways, seaports, and airways. That link humanity to the world, fostering significant growth in India’s economy.
The chapter begins by delving into the vast network of roadways, railways, and pipelines. Which facilitate the smooth flow of goods and people across the country. Students will traverse the waterways and major seaports that play a pivotal role in bolstering trade and commerce.
Venturing into the skies, the chapter sheds light on the expansive airways that have shrunk distances and intensified international trade. Moreover, students will gain insights into the essential realm of communication in India. The pivotal role it plays in connecting individuals and communities.
To further enrich their geographical acumen, the chapter also sheds light on international trade and the economic potential of tourism.
For a comprehensive learning experience, the chapter includes a list of map items, inviting students to locate and label major ports. Such as Kandla, Mumbai, Chennai, and international airports like Delhi (Indira Gandhi), Mumbai (Chhatrapati Shivaji), and Hyderabad (Rajiv Gandhi).
As students navigate through the lifelines of national economy, they will develop a profound appreciation for the intricate mechanisms that bind the nation and foster economic prosperity.
Frequently Asked Question – FAQs on Class 10 Geography
Q1. Which chapter in Geography class 10?
In the Class 10 Geography NCERT textbook (India and Contemporary World-II), the various chapters are as follows:
- Chapter 1: Resources and Development
- Chapter 2: Forest and Wildlife Resources
- Chapter 3: Water Resources
- Chapter 4: Agriculture
- Chapter 5: Minerals and Energy Resources
- Chapter 6: Manufacturing Industries
- Chapter 7: Lifelines of National Economy
Each chapter covers different aspects of geography, such as natural resources, agriculture, industries, transport, and communication. They providing students with a comprehensive understanding of the subject.
Q 2. Who is the father of geography?
The ancient Greek scholar Eratosthenes is often referred to as the “Father of Geography.” He was a mathematician, astronomer, and librarian at the Library of Alexandria during the third century BCE. Eratosthenes made significant contributions to geography and cartography during his time.
Egypt has one of his most famous achievements. At there two locations, it accurately calculating the circumference of the Earth using the angles of shadows. His calculation was remarkably close to the actual circumference, considering the limited technology available in his era.
Additionally, Eratosthenes compiled one of the earliest known world maps, incorporating information from travelers, traders, and scholars of his time. His work laid the foundation for the development of geography as a discipline and greatly influenced later geographers and explorers.
Q 3. Which chapter is most important in Geography class 10 cbse?
The importance of chapters in Geography Class 10 CBSE may vary for different students based on their interests and future career paths. However, some chapters are generally considered important as they cover fundamental concepts and provide a strong foundation in the subject. Here are a few chapters that are often considered significant:
- Chapter 1: Resources and Development
- Chapter 2: Forest and Wildlife Resources
- Chapter 5: Minerals and Energy Resources
- Chapter 7: Lifelines of National Economy
While these chapters are important, it is essential to study all the chapters in the syllabus to have a comprehensive understanding of Geography and excel in the subject.
Power Sharing Notes Class 10th of NCERT Civic Chapter 1
Welcome to our definitive guide: “Power Sharing Notes Class 10th – Unlocking Success.” If you’re a Class 10th student striving for academic excellence, understanding the intricacies of power sharing is paramount. Mastering this essential topic not only enriches your knowledge of political science but also cultivates your sense of responsibility as an informed citizen.
Within this article, we have curated a comprehensive set of power sharing notes exclusively designed to cater to the needs of Class 10th students. Crafted by subject matter experts, these notes offer a clear and concise grasp of the subject matter. Whether you’re preparing for exams or seeking a deeper understanding, these notes will become your ultimate study companion.
In this article, we will delve into the intriguing narratives of Belgium and Sri Lanka, exploring their unique stories. We’ll also examine the concept of Majoritarianism in Sri Lanka, shedding light on its implications. Additionally, we’ll explore the reasons why power sharing is considered desirable and the various forms it can take. Get ready to embark on a captivating journey through the histories of Belgium and Sri Lanka, while gaining valuable insights into the significance of power sharing in governance.
Important terms Used in Power Sharing Notes Class 10th
Definition of Power Sharing
Power sharing refers to a mutually agreed-upon policy between political parties or within a coalition to collectively shoulder responsibility for decision-making and political actions.
The significance of power sharing becomes evident when it is practiced among the three organs of the state, namely the Legislature, Executive, and Judiciary. Such an arrangement is vital for ensuring the proper functioning of a democratic system.
Ethnic
An ethnic group is formed through a social division based on a shared culture. Its members believe in a common descent, either due to similarities in physical characteristics, cultural practices, or both. It is important to note that members of an ethnic group may not necessarily share the same religion or nationality.
Community Government
Community government is a decentralized governance system in linguistically diverse countries. It allows linguistic or cultural groups to have autonomy over cultural, educational, and language-related matters. For example, in Belgium, separate community governments represent Dutch-speaking, French-speaking, and German-speaking communities, promoting their unique interests while contributing to national unity. These governments work alongside central and regional authorities, ensuring a balance between local autonomy and national cohesion.
Majoritarianism
Majoritarianism refers to the ideology that grants the majority community the unrestricted power to govern a country as it pleases, even if it means neglecting the desires and interests of the minority groups. For instance, Sri Lanka adopted a majoritarian approach, where the majority Sinhala community holds authority over the governance of the country.
Civil War
Civil war is a type of armed conflict that occurs within the borders of a single country or state, usually between different factions or groups within the same nation. Unlike international wars, civil wars are internal conflicts where the parties involved are from the same country. The reasons for civil wars can vary and may include political, ethnic, religious, or economic factors, among others.
Power Sharing Notes Class 10th
Story of Belgium
Belgium, a compact federal state located in Western Europe, possesses a land area smaller than the Indian state of Haryana. The country’s population comprises a diverse and intricate ethnic composition. Situated at a strategic geographical position, Belgium shares its borders with neighboring countries, including the Netherlands, France, Germany, and Luxembourg.
In Belgium, there existed a minority French-speaking community (40%) that held considerable wealth and influence, while the Dutch-speaking community (59%) experienced delayed access to development and education. The capital city of Belgium is Brussels, where 80% of the population speaks French, while the remaining 20% speaks Dutch. Within this dynamic, the minority French-speaking community enjoyed relative affluence and power.
Accommodation in Belgium
Brussels, the capital of Belgium, is predominantly occupied by French-speaking residents. Over time, power has predominantly rested in the hands of the French-speaking population, granting them advantages in terms of economic development and education.
As a result, the French-speaking community exhibited higher levels of education and qualification, with access to greater resources compared to the native Dutch population. Additionally, the French-speaking individuals formed a well-established aristocracy of tradespeople, contributing to their financial strength and influence in the region.
During the 1950s and 1960s, the social disparities between the Dutch-speaking and French-speaking communities gave rise to tensions.
Causes of Conflict in Belgium
The French-speaking minority community enjoyed relative wealth and influence, which caused resentment among the Dutch-speaking community. The latter received the benefits of economic development and education at a later stage, leading to tensions between the two language groups.
Steps taken to Remove Tensions in Belgium
The central government consists of an equal number of Dutch and French-speaking ministers. State governments hold extensive powers and are not subordinate to the central government.
In Brussels, a separate government operates with equal representation for both language communities. Additionally, a “community government” is elected by each particular language-speaking community, which holds authority over cultural, educational, and language-related matters.
Concept of ‘Community government’ of Belgium
The concept of ‘Community government’ in Belgium refers to a form of decentralized governance that recognizes the linguistic and cultural diversity within the country. Belgium is composed of distinct linguistic communities, primarily Dutch-speaking (Flemish), French-speaking (Walloon), and German-speaking.
To address the interests and needs of these communities, separate ‘Community governments’ were established. Each community government has authority over cultural, educational, and language-related matters for its respective linguistic group, empowering them to promote and preserve their unique identity while contributing to the overall unity of Belgium.
Power Sharing Notes Class 10th
Story of Sri Lanka
Sri Lanka, officially known as the Democratic Socialist Republic of Sri Lanka, is an island country situated in South Asia. It is located in the Indian Ocean, to the southwest of the Bay of Bengal and to the southeast of the Arabian Sea. The island is renowned for its rich history, diverse culture, and stunning natural beauty.
Colombo serves as the capital and largest city of Sri Lanka. The country boasts a fascinating heritage, with ancient cities, temples, and historical sites, as well as breathtaking landscapes, including tropical beaches, lush forests, and tea plantations. Sri Lanka is a popular destination for tourists seeking a blend of cultural exploration and natural wonders.
In Sri Lanka, the major social groups are comprised of Sinhala speakers (74%) and Tamil speakers (18%). The Tamil community further divides into two subgroups: “Sri Lankan Tamils” and “Indian Tamils.” For a visual representation of the population distribution of these diverse communities, please refer to the map below.
Sri Lankan Tamils
The Tamil natives of Sri Lanka are known as Sri Lankan Tamils, comprising 13% of the population and primarily residing in the Northern and Eastern regions of the country. The majority of Sinhala speakers follow Buddhism, whereas most Tamils practice Hinduism or Islam.
Indian Tamils
Indian Tamils in Sri Lanka refer to Tamil individuals whose ancestors migrated from India as plantation workers during the colonial era and settled in the country. They make up approximately 5% of the population.
Majoritarianism in Sri Lanka
The Sinhala community in Sri Lanka held dominance over the minority Tamil population and implemented majoritarian policies.
In 1956, an Act was passed, declaring Sinhala as the sole official language. The government also adopted preferential policies that favored Sinhala applicants for university positions and government employment.
Additionally, the state protected and promoted Buddhism, further exacerbating the sense of alienation among Sri Lankan Tamils. Over time, these measures contributed to a growing feeling of marginalization among the Tamil community.
The Sri Lankan Tamils voiced their demands for regional autonomy, equal opportunities in education and employment, and recognition of Tamil as an official language.
However, their pleas were consistently rejected, leading to the rise of various political organizations like the LTTE (Liberation Tigers of Tamil Eelam). As tensions escalated, the situation eventually escalated into a full-fledged civil war during the 1980s.
Factors Led to A Civil War in Sri Lanka
The civil war in Sri Lanka was a complex and multi-faceted conflict with various factors contributing to its outbreak. Some of the key factors that led to the civil war include:
- Ethnic and Linguistic Tensions: Deep-rooted ethnic and linguistic divisions between the Sinhalese majority and Tamil minority communities fueled tensions and grievances.
- Discriminatory Policies: The implementation of policies favoring the Sinhala community in areas such as language, education, and employment created a sense of marginalization and inequality among the Tamil population.
- Regional Autonomy Demand: The Sri Lankan Tamils demanded greater autonomy and recognition of their distinct cultural identity, which was met with resistance and denial by the government.
- Insurgency and Militancy: The formation of militant groups, such as the Liberation Tigers of Tamil Eelam (LTTE), emerged in response to perceived injustices and sought to achieve Tamil separatism through armed struggle.
- Failed Negotiations: Repeated failure of negotiations between the government and Tamil representatives to address the root issues and find a peaceful resolution contributed to the escalation of the conflict.
- International Involvement: The involvement of external actors and support to various parties in the conflict further complicated the situation and prolonged the war.
- Escalating Violence: Escalation of violence and atrocities committed by both sides deepened animosity and further polarized communities.
Overall, the combination of historical grievances, discriminatory policies, political complexities, and armed resistance culminated in a prolonged and devastating civil war in Sri Lanka that lasted for decades.
Form of Power Sharing in Class 10th Political Science
You might have thought that sharing power means dividing it, which could weaken the country. Many people used to believe this in the past. They thought that all the power of the government should be in the hands of one person or a group in one place. This way, they believed, decisions could be made quickly and enforced effectively. However, things have changed with the rise of democracy!
In a democratic system, the people themselves have the power. We rule ourselves through self-governing institutions. Every single one of us has a say in shaping the policies that affect our lives. That’s what makes democracy special! So, in a democratic country, it’s important to distribute political power among all citizens. This way, everyone gets to participate and have a say in how the country is run. It’s about fairness, representation, and making sure everyone’s voice is heard.
Remember, democracy is all about inclusivity and making sure that each of us has a part in shaping our nation’s future. By sharing power among citizens, we create a stronger and more united country, where everyone’s rights and perspectives matter. So, let’s embrace democracy and celebrate the power we all have as citizens to create a better and more inclusive society!
Power Sharing Notes Class 10th Political Science
1. Power is shared among different organs of government, such as the legislature, executive and judiciary
We call this type of power distribution “horizontal distribution” because it allows different branches of the government, placed at the same level, to have distinct powers. This separation ensures that no single branch can have absolute power. Instead, each branch acts as a check on the others, creating a system of checks and balances. This arrangement promotes accountability and prevents any one branch from becoming too dominant, safeguarding the rights and interests of the people.
2. Power can be shared among governments at different levels
In this system, there is a central government that governs the entire country, alongside governments at the provincial or regional level, collectively known as the federal government. This arrangement allows for a division of responsibilities and authority between the central and regional authorities, ensuring effective governance at both levels. The federal government is responsible for matters that affect the entire nation. While provincial or regional governments handle issues specific to their respective areas, catering to the diverse needs of different regions within the country.
3. Power shared among different social groups
This type of arrangement is designed to provide representation and participation in the government. Also, administration for diverse social groups that might otherwise feel marginalized and excluded. It aims to give minority communities a fair share of power and influence in decision-making processes. An example of this approach can be seen in India, where reserved constituencies exist in the assemblies and Parliament.
Another excellent example of this type of power-sharing is the Community Government system in Belgium. This arrangement empowers linguistic and cultural communities, granting them autonomy over specific matters related to their identity and heritage. By fostering inclusivity and acknowledging the diversity of its population, Belgium promotes unity and ensures the equitable distribution of power among its communities.
4. Power shared among political parties, pressure groups and moments
In a democracy, citizens have the freedom to choose from a range of contenders vying for power. This competition is vital as it prevents power from becoming concentrated in the hands of a single entity. Over time, power is shared among diverse political parties, each representing distinct ideologies and social groups. This form of government is known as a “Coalition Government.”
Moreover, various interest groups, such as traders, businessmen, farmers, and industrial workers, also have a stake in governmental power. They participate in the decision-making process and exert influence, ensuring that the government considers a wide array of perspectives and interests.
In essence, democracy thrives on the principles of inclusivity and power-sharing, granting citizens a voice in shaping their nation’s future and fostering a dynamic and responsive governance system.
What do we learn from the two stories of Belgium and Srilanka?
The stories of Belgium and Sri Lanka offer essential lessons in governance and managing diversity. Belgium’s power-sharing model, with federalism allowing linguistic communities to have regional autonomy, has fostered social cohesion and political stability. By recognizing and respecting the unique identities of different communities, Belgium has strengthened national unity.
In contrast, Sri Lanka’s experience warns against the perils of majoritarianism. The dominance of the Sinhala community over the Tamil minority, coupled with discriminatory policies, led to tensions and alienation among Sri Lankan Tamils. This resulted in a prolonged civil war, emphasizing the need for equitable power-sharing and respect for the rights of all communities.
Both stories underscore the significance of cultural recognition. Embracing diverse identities promotes stronger social bonds and national pride, while denying linguistic and cultural rights can fuel division and grievances.
Peaceful resolution emerges as a crucial aspect of conflict management. Open dialogue, negotiation, and compromise are essential in addressing grievances and finding lasting solutions. International involvement can also facilitate peace-building efforts.
In conclusion, the stories of Belgium and Sri Lanka highlight the value of power sharing, inclusivity, and respect for cultural identities in governance. By learning from these experiences, societies can strive towards building inclusive and harmonious nations, where citizens’ rights are upheld, and conflicts are resolved through peaceful means. Emphasizing the importance of cultural recognition and dialogue can pave the way for a more united and stable future.
Summery of Power Sharing Notes Class 10th
In Power sharing notes class 10th article we have read about Belgium and Sri Lanka. Belgium, a compact federal state in Western Europe, exemplifies the strength of inclusive governance despite its small land area. Its diverse ethnic composition and strategic geographical location near neighboring countries like the Netherlands, France, Germany, and Luxembourg underscore its significance.
Within Belgium, the imbalance between the French-speaking minority (40%) enjoying wealth and influence and the Dutch-speaking community (59%) facing development and education challenges led to tensions. To address these disparities, Belgium adopted power-sharing measures. The central government ensured equal representation of Dutch and French-speaking ministers, while state governments gained autonomy from the central authority. Brussels, with its mixed linguistic population, had a separate government to cater to both communities. Additionally, a unique “community government” granted linguistic autonomy, preserving identities while promoting national unity.
In contrast, Sri Lanka’s history serves as a cautionary tale of majoritarianism. The dominance of the Sinhala community over the Tamil minority and preferential policies led to alienation and a civil war. Both stories offer crucial lessons on governance and diversity management. Which emphasizing the value of power sharing for inclusivity, accountability, and citizen participation in decision-making. Through equitable distribution of power among various entities, societies can build harmonious nations, respecting diverse identities and resolving conflicts peacefully. Power sharing remains the key to creating a united and stable future where every citizen’s voice shapes the country’s destiny.
Read Also:
- Class 10th Political Parties Notes of NCERT Civics Chapter 4
- Outcomes of Democracy Class 10 Notes of NCERT Civics Ch. 7
Frequently Asked Question – FAQ on Power Sharing Notes Class 10th
Q 1. What kind of power sharing problems were faced by Belgians and Sri Lankans?
The Belgians faced power sharing problems related to linguistic and cultural diversity. The country is divided between Dutch-speaking (Flemish) and French-speaking (Walloon) communities. Each of them were seeking recognition and representation. Struggles for regional autonomy, language rights, and fair representation in government posed significant challenges.
Similarly, Sri Lanka encountered power sharing issues primarily centered around ethnic tensions. The conflict arose between the Sinhalese majority and Tamil minority communities, demanding equality, regional autonomy, and recognition of their cultural identity. The denial of these demands led to prolonged civil strife and violence, highlighting the complexities of power sharing in a diverse society.
Q 2. Why power sharing is desirable?
Power sharing is desirable because it prevents the concentration of power. It reducing the risk of tyranny and abuse. It fosters social stability by accommodating diverse interests and ensuring representation of various communities in decision-making.
Power sharing mechanisms, like checks and balances, promote accountability and prevent the dominance of any single authority. It can also resolve conflicts and promote reconciliation in divided societies.
Encouraging cooperation and compromise, power sharing enhances the legitimacy of the government and fosters inclusivity, making it an essential aspect of democratic governance.
Q 3. What are the system various democratic rules?
In a democratic system, various rules are crucial for ensuring fair and effective governance. These include the rule of law, which holds everyone accountable to the law.
The separation of powers, dividing authority among different branches to prevent concentration of power. Checks and balances, enabling each branch to limit the powers of others.
Freedom of speech and expression; freedom of the press; protection of minority rights; and respect for human rights. These democratic principles collectively promote transparency, accountability, inclusivity, and protection of individual liberties within the framework of democratic governance.
Outcomes of Democracy Class 10 Notes of NCERT Civics Ch. 7
Welcome to our exclusive and comprehensive guide on “Outcomes of Democracy Class 10 Notes.” This chapter delves into the fascinating world of democracy. Explore its profound impact on societies and the diverse outcomes it generates. Democracy, as a system of governance, holds a special place in modern societies. It offers citizens the power to participate in decision-making and ensuring accountability of the ruling authorities.
In this article, we aim to provide you with a well-rounded understanding of the outcomes that emerge from democratic processes. Democracy plays a pivotal role in shaping the course of nations. Fostering political stability, social harmony, and economic development, promoting individual rights. Also, in freedom of expression, and equitable distribution of resources.
Our meticulously curated notes present complex concepts in a clear and concise manner, making it an invaluable resource for Class 10 students. Say goodbye to overwhelming textbooks and disjointed online resources; our user-friendly approach ensures a seamless learning experience.
Join us on this enlightening journey as we explore the multifaceted outcomes that democracy brings to the world. Happy learning!
NCERT Chapter 7 Outcomes of Democracy Class 10 Notes
Political Science Chapter 7 Outcomes of Democracy Class 10 Notes
How Do We Assess Democracy’s Outcomes?
In comparing democracy to dictatorship, the advantages of democracy become evident:
1. Fosters Equality: Democracy promotes equality among citizens, ensuring that every individual’s voice and opinion hold significance.
2. Upholds Dignity: The democratic system enhances the dignity of each individual, empowering them to participate in the decision-making process.
3. Enhances Decision-Making: With diverse perspectives and opinions taken into account, democracy leads to more informed and inclusive decision-making.
4. Conflict Resolution: Democratic governance provides a structured method to resolve conflicts peacefully through dialogue and consensus-building.
5. Allows Learning from Mistakes: The democratic setup allows for corrections and improvements as citizens can hold their representatives accountable.
These attributes make democracy a preferred form of government. It priorities the rights and involvement of citizens, fostering a just and progressive society.
Democracy Produces Accountable, Responsive and Legitimate Government
In a democracy, people are bestowed with the right to elect their rulers, granting them control over the governance process. This empowerment enables citizens to actively participate in decision-making, fostering a government that remains accountable and responsive to their needs and expectations.
One of the key strengths of democracy lies in its adherence to norms and procedures during decision-making. This transparency allows citizens to access information about how decisions were made, ensuring a fair and just process. Moreover, in a democratic setup, citizens have the opportunity to engage in decision-making whenever they desire, making their voices heard in shaping policies and governance.
In Democracy, fundamentally, is the people’s government, where representatives are chosen through elections by the very individuals they will govern. This ensures that the government truly represents the will of the people. Leading to a system that reflects the collective aspirations of the nation.
Economic Growth and Development
Economic development is influenced by a multitude of factors, such as the country’s population size, the global economic situation, international cooperation, and the economic priorities adopted by the nation. Notably, there exists a substantial disparity in economic growth rates between countries governed under dictatorship and those under democracy. In light of these observations, democracy emerges as the preferred form of governance, as it leads to several positive outcomes in terms of economic progress and prosperity.
Economic Outcomes of Democracy
The relationship between democracy and economic growth, as well as economic inequalities, can be outlined as follows:
1. Dictatorial regimes have shown a slightly better economic growth record. However, when considering only poor countries, there is virtually no difference in their economic performance compared to democracies.
2. Democracies can also exhibit a high degree of inequality, both in terms of income and wealth distribution.
3. Opportunities available to the poorer sections of society are often unequal, leading to disparities in accessing essential resources and services.
In summary, while economic growth may vary between dictatorships and democracies, both systems can experience economic inequalities, and the distribution of opportunities may remain unequal in democratic setups as well.
Reduction of Inequality and Poverty
In a democratic setup, all individuals have equal weight in electing representatives, aiming to bring them into the political arena on an equal footing. However, despite these intentions, we observe growing economic inequalities in society:
1. A small minority of ultra-rich individuals holds a significantly disproportionate share of wealth and incomes. Over time, their portion of the total national income has been increasing, accentuating income disparities.
2. Conversely, those at the bottom strata of society face limited economic opportunities and have very little to depend upon. Their incomes have been declining, exacerbating their financial challenges.
In practice, democracies have not been entirely successful in effectively reducing economic inequalities, highlighting the complexity of addressing this issue within the democratic framework. Despite the principle of equal representation, societal disparities persist and require ongoing attention and efforts to achieve more equitable outcomes.
Accommodation of Social Diversity
While no society can entirely eliminate conflicts among diverse groups, the key lies in learning to respect these differences and developing mechanisms to negotiate them peacefully. Democracy emerges as the most suitable system to achieve this outcome. The strength of democratic regimes lies in their ability to handle social differences, divisions, and conflicts effectively. However, for democracy to successfully attain this goal, two vital conditions must be met:
- The majority must collaborate with the minority to ensure that governments represent the collective views and interests of the entire populace.
- Rule by the majority implies that different individuals and groups may form majorities during various decisions and elections, fostering a system where varying perspectives are considered and accommodated.
Dignity and Freedom of the Citizens
Democracy stands as the most exemplary form of government, championing the dignity and freedom of each individual. The essence of democracy lies in its unwavering commitment to respect and liberty. One significant aspect where democracy has made remarkable strides is in upholding the dignity of women. The tireless efforts of women’s movements have instilled a profound awareness that respect and equal treatment for women are indispensable pillars of a democratic society. Similarly, democracy has played a pivotal role in challenging caste inequalities, empowering disadvantaged and discriminated castes to demand equal status and opportunities.
In the democratic framework, people firmly believe that their votes hold the power to shape the government’s functioning and impact their own well-being. The process of democratic evaluation is perpetual, continuously setting new standards and aspirations. As individuals experience the benefits of democracy, their desire for greater progress grows, fueling a collective quest to refine and strengthen democracy further. The fact that people voice their concerns and expectations is a testament to democracy’s success in fostering an environment where citizen participation and continuous improvement are valued and embraced.
Read ALso:
- Power Sharing Notes Class 10th of NCERT Civic Chapter 1
- Class 10th Political Parties Notes of NCERT Civics Chapter 4
Frequently Asked Question – FAQs on Outcomes of Democracy Class 10 Notes
Q 1. What are the five outcomes of democracy for Class 10?
five outcomes of democracy are
- Equality: Democracy promotes equality among citizens by giving each individual an equal say in decision-making regardless of their social status or background.
- Dignity and Freedom: Democracy upholds the dignity and freedom of individuals, safeguarding their fundamental rights and liberties.
- Quality Decision-Making: Democracy enhances the quality of decision-making by following transparent norms and procedures and allowing citizens access to information and active participation.
- Conflict Resolution: Democracy provides a peaceful mechanism to resolve conflicts, recognizing that differences and diverse interests exist in society.
- Empowerment of Marginalized Groups: Democracy empowers marginalized groups by giving them a voice in political processes, promoting social justice and equal opportunities for all.
Q 2. What is the importance of Democracy?
Democracy holds immense importance in shaping a just and inclusive society. Here are the key reasons why democracy is essential:
- Protection of Rights and Freedoms: Democracy ensures the protection of individual rights and freedoms. Citizens have the right to express their opinions, assemble peacefully, and participate in decision-making, fostering an environment of tolerance and respect.
- Government Accountability: In a democratic system, the government is accountable to the people. Regular elections allow citizens to hold their representatives responsible for their actions, promoting transparency and reducing corruption.
- Inclusive Governance: Democracy promotes inclusive governance, where diverse voices and perspectives are considered in policy-making. It gives a platform to marginalized groups and minorities, safeguarding their interests.
- Peaceful Conflict Resolution: Democratic societies provide peaceful mechanisms to resolve conflicts through negotiation and dialogue, preventing the escalation of tensions into violence.
- Economic Development: Democracy encourages economic growth and development. Political stability, protection of property rights, and rule of law attract investments and foster entrepreneurship.
- Social Progress: Democracy supports social progress by addressing inequalities, promoting education, and ensuring access to healthcare and social welfare.
- Global Peace and Cooperation: Democracies tend to maintain peaceful relations with other democracies, fostering global cooperation and reducing the likelihood of armed conflicts.
- Human Dignity: Democracy upholds human dignity by recognizing the inherent value and rights of every individual, irrespective of their background or social status.
In conclusion, democracy is essential for building a just, progressive, and peaceful society that empowers its citizens and upholds their rights and freedoms. It is a system that allows for continuous growth, social cohesion, and a collective pursuit of common goals.
Q 3. How democracy offers freedom and dignity to citizens?
Democracy empowers citizens with freedom and dignity through active participation in the decision-making process, expressing their opinions, and electing representatives. It upholds the values of equality and safeguards individual rights, ensuring that every citizen is treated with respect and impartiality. In democratic societies, the rule of law ensures that everyone receives fair treatment and that the government remains answerable to the people. By encouraging political engagement and protecting human rights, democracy fosters a sense of dignity and ownership among individuals, empowering them to influence their society’s development.
Money and Credit Class 10 Solution of NCERT Economics Ch. 3
Welcome to our comprehensive guide on the “Solution of Money and Credit of Class 10.” If you’re a Class 10 student seeking a deeper understanding of the intriguing world of money, credit, and financial systems, you’ve come to the right place. In this article, we present a well-structured and detailed solution to the chapter “Money and Credit” from the Class 10 curriculum.
Explore the various concepts and mechanisms related to money. Its role in an economy, the functioning of banks, and the significance of credit systems. With our expertly crafted explanations and step-by-step solutions, you’ll grasp the fundamentals and complexities of the financial world with ease. Let’s dive in and unlock the secrets of “Money and Credit of Class 10.
The fascinating chapter on “Money and Its Evolution” has been thoughtfully included in the Class 10 Economics curriculum. This chapter delves into the intriguing history of money, exploring its various forms and usage throughout different periods. Additionally, students will gain valuable insights into the interconnection between modern forms of money and the intricate banking system. As a comprehensive resource, this chapter concludes with exercise questions to test and reinforce students’ understanding of the subject matter. Prepare to embark on an enlightening journey through the evolution of money and its profound impact on economies worldwide.
Solution of NCERT Chapter 3 Economics Money and Credit of Class 10

Money and Credit of Class 10 Question and Solutions
Q 1. In situations with high risks, credit might create further problems for the borrower. Explain.
In situations with high risks, credit can indeed create further problems for the borrower. When a borrower takes on credit in a high-risk scenario, several potential issues may arise:
1. Increased Debt Burden: If the borrower faces difficulties in repaying the borrowed amount due to the high-risk nature of the venture, it could lead to an increased debt burden. This may result in mounting interest payments and the risk of defaulting on the loan, leading to further financial distress.
2. Financial Stress: High-risk situations are often associated with uncertain outcomes, such as in speculative investments or ventures with an uncertain future. If the borrower’s investment or venture does not yield expected returns, they may struggle to meet their credit obligations, leading to financial stress and potential insolvency.
3. Limited Access to Credit: High-risk borrowers may find it challenging to access credit in the future, especially if they have a history of defaulting on loans. Lenders may view them as risky borrowers and be hesitant to extend credit. It make difficult for them to meet their financial needs in the future.
4. Higher Interest Rates: Lenders typically charge higher interest rates to compensate for the increased risk they take when lending to high-risk borrowers. The higher interest rates can further strain the borrower’s financial situation, making it more challenging to repay the loan.
5. Adverse Impact on Credit Score: Failure to repay credit in a high-risk situation can adversely affect the borrower’s credit score. A poor credit score can hinder their ability to access credit in the future and may lead to limited financial opportunities.
Q 2. How does money solve the problem of double coincidence of wants? Explain with an example of your own.
Money solves the problem of double coincidence of wants by acting as a medium of exchange. In a barter system, where goods and services are directly exchanged for other goods and services, there is a requirement for a perfect match of wants between two parties involved in the exchange. However, this can be challenging and inefficient, as finding someone who has what you need and needs what you have can be quite difficult.
With the introduction of money, individuals no longer need to find a direct coincidence of wants. They can exchange their goods and services for money, which is universally accepted as a medium of exchange. Money acts as an intermediary, enabling transactions to occur smoothly and efficiently.
For example, let’s consider a scenario in a barter system where Alice, who is a baker, needs a pair of shoes, and Bob, who is a cobbler, needs bread. In a barter system, Alice and Bob would have to find each other and directly exchange bread for shoes. However, this may not always be possible, and they may not come across each other at the right time.
Now, let’s introduce money into the scenario. Instead of directly exchanging bread for shoes, Alice and Bob can use money as an intermediary. Alice sells her bread to a customer for money, and Bob sells his shoes to the same customer for money. Then, Alice can use the money she earned to purchase the shoes from Bob. In this way, money facilitates the exchange between Alice and Bob, even though they do not have a direct coincidence of wants.
By eliminating the need for a double coincidence of wants, money greatly simplifies and accelerates economic transactions, making the exchange of goods and services much more efficient and convenient for everyone involved.
Q 3. How do banks mediate between those who have surplus money and those who need money?
Banks play a crucial role in mediating between those who have surplus money and those who need money. They act as financial intermediaries, facilitating the flow of funds between savers (those with surplus money) and borrowers (those in need of money). Here’s how banks perform this important function:
- Deposits and Savings: Individuals and businesses with surplus money deposit their funds in banks. These deposits can be in the form of savings accounts, fixed deposits, or other types of accounts. By depositing their money in banks, savers earn interest on their deposits, which encourages them to save and invest.
- Loan and Credit Facilities: On the other hand, banks offer various loan and credit facilities to individuals, businesses, and other borrowers who need money for various purposes, such as starting a business, buying a home, or financing their education. When borrowers take loans from banks, they agree to pay back the principal amount along with interest over a specific period.
- Intermediation: Banks act as intermediaries by using the deposits they receive from savers to extend loans and credit to borrowers. They channel funds from the surplus units (savers) to the deficit units (borrowers), effectively allocating capital to where it is needed most. This process ensures that the money is put to productive use and contributes to economic growth and development.
Overall, banks act as crucial financial intermediaries in the economy, bringing together those who have surplus money and those who need money, thereby supporting economic activities and promoting growth and development.
Q 4. Look at a 10 rupee note. What is written on top? Can you explain this statement?
At the top of a 10 rupee note, you will find the inscriptions “Reserve Bank of India” and “Guaranteed by the Central Government.” These statements hold significant importance as they indicate the authority and credibility behind the currency in India.
The Reserve Bank of India (RBI) serves as the central bank of the country and is responsible for issuing and regulating the currency. As the central banking institution, the RBI plays a crucial role in formulating monetary policies, managing the money supply, and maintaining the stability of the Indian rupee.
The statement “Guaranteed by the Central Government” signifies that the currency note is backed by the full faith and credit of the Indian government. This guarantee ensures the trust and confidence of the public in the value and acceptability of the currency for transactions within the country.
Both the Reserve Bank of India and the Central Government are the sole authorities responsible for issuing and managing currency in India. By inscribing these statements on the currency note, it is established that the note is officially authorized, and its value is supported by the combined authority of the central bank and the government.
This ensures the smooth functioning of the monetary system, instills public confidence in the currency’s stability, and upholds the integrity of the Indian rupee as a reliable medium of exchange for economic transactions.
Q 5. Why do we need to expand formal sources of credit in India?
Expanding formal sources of credit in India is essential for several reasons:
1. Financial Inclusion: Expanding formal credit sources ensures that a larger section of the population, including the unbanked and financially marginalized, has access to financial services. This promotes financial inclusion and empowers individuals and businesses with opportunities to participate in the formal economy.
2. Reduced Dependence on Informal Credit: In India, a significant portion of the population relies on informal sources of credit, such as moneylenders and local lenders, which often charge high-interest rates. By expanding formal credit channels, people can access credit at more reasonable and regulated interest rates, reducing their dependency on exploitative informal sources.
3. Boost to Economic Growth: Adequate and accessible credit facilities fuel economic growth by promoting investments, entrepreneurship, and business expansion. Formal credit institutions can cater to the financial needs of small and medium-sized enterprises, which play a crucial role in driving economic development.
4. Employment Generation: When businesses have access to formal credit, they can expand their operations, invest in technology, and create more job opportunities. This, in turn, leads to improved livelihoods and increased economic activity.
5. Financial Stability: Formal credit institutions are regulated and supervised by the central bank. It ensures prudent lending practices and risk management. This contributes to financial stability and reduces the likelihood of systemic risks in the economy.
By expanding formal sources of credit, India can achieve broader financial inclusion, sustainable economic growth, and equitable development, benefitting individuals, businesses, and the nation as a whole.
Q 6. What is the basic idea behind the SHGs for the poor? Explain in your own words.
The basic idea behind Self-Help Groups (SHGs) for the poor is to empower marginalized individuals, particularly women, by bringing them together to form a collective and supportive platform. SHGs are small voluntary associations formed at the community level, comprising members from similar socio-economic backgrounds.
The primary objective of SHGs is to promote financial inclusion, social cohesion, and economic empowerment among its members. Members contribute small amounts of savings regularly to create a common fund. This fund is then utilized to provide microcredit and loans to the group members for various income-generating activities and personal needs.
SHGs enable the poor to access financial services, build a savings habit, and access credit without relying on traditional banks or moneylenders. By pooling their resources, SHG members can collectively address their financial requirements and uplift their socio-economic status.
Moreover, SHGs also serve as platforms for capacity building, skill development, and knowledge-sharing among members. They encourage leadership, decision-making, and entrepreneurship skills, fostering a sense of ownership and responsibility among the participants.
Furthermore, SHGs promote social solidarity and support systems among the members. They create a sense of belonging and encourage mutual trust and cooperation. Members share their experiences, offer emotional support, and collectively address various social and economic challenges faced by their community.
In summary, SHGs for the poor aim to promote self-reliance, financial independence, and socio-economic empowerment among marginalized individuals by providing them with access to credit, financial literacy, and a supportive community. Through these groups, the poor can break the cycle of poverty, improve their livelihoods, and lead a dignified life.
Q 7. What are the reasons why banks might not be willing to lend to certain borrowers?
Banks might not be willing to lend to certain borrowers due to various reasons, including:
1. Poor Credit History: If a borrower has a history of defaulting on previous loans or has a low credit score, banks may consider them as high-risk borrowers and may be reluctant to lend to them.
2. Insufficient Income: Banks assess a borrower’s ability to repay the loan. If the borrower’s income is not sufficient to cover the loan repayments, the bank may deny the loan application.
3. Lack of Collateral: Some loans, especially large ones, may require collateral as security. If a borrower does not have sufficient assets to offer as collateral, the bank may be hesitant to approve the loan.
4. Unstable Employment: Banks prefer borrowers with stable employment history as it indicates a steady source of income. Borrowers with irregular or uncertain employment may face difficulties in obtaining loans.
5. High Debt-to-Income Ratio: If a borrower already has significant existing debts in relation to their income, the bank may be concerned about their ability to manage additional loan repayments.
6. Industry Risk: Banks may avoid lending to borrowers in industries that are considered high-risk or volatile.
7. Lack of Documentation: Insufficient or incomplete documentation can lead to loan rejection as banks require proper verification of a borrower’s identity, income, and other relevant information.
8. Age of the Borrower: Some banks have age restrictions for borrowers, especially for long-term loans, as older borrowers may be perceived as having higher repayment risks.
It is important for borrowers to understand these factors and maintain a good financial profile to increase their chances of obtaining loans from banks and other financial institutions.
Q 8. In what ways does the Reserve Bank of India supervise the functioning of banks? Why is this necessary?
The Reserve Bank of India (RBI) supervises the functioning of banks in several ways to ensure financial stability and maintain the integrity of the banking system. It employs both on-site and off-site inspections to assess banks’ financial health, risk management practices, compliance with regulations, and governance standards.
RBI also sets prudential norms and guidelines for capital adequacy, asset quality, and liquidity to safeguard depositors’ interests and maintain the overall health of the banking sector.
This supervision is crucial to prevent risks, detect potential issues early on, and take corrective measures to protect the interests of depositors, maintain financial stability, and foster a sound and secure banking environment in the country.
Q 9. Analyse the role of credit for development.
Credit plays a vital role in driving economic development by providing financial resources to individuals, businesses, and governments. It fuels investment, fosters entrepreneurship, and promotes job creation, leading to increased productivity and overall growth.
Access to credit empowers the poor, promotes financial inclusion, and supports poverty alleviation efforts. Moreover, credit facilitates the development of critical infrastructure, technological advancements, and industrial growth.
However, proper supervision and regulation by institutions like the Reserve Bank of India are essential to prevent misuse and ensure financial stability. By balancing credit availability and risk management, economies can harness its potential to drive sustainable development and improve living standards.
Q 10. Manav needs a loan to set up a small business. On what basis will Manav decide whether to borrow from the bank or the moneylender? Discuss.
Manav’s decision to borrow from a bank or a moneylender will depend on several factors. If Manav can meet the bank’s eligibility criteria and has a good credit history, borrowing from the bank may offer several advantages. Banks generally provide loans at lower interest rates, flexible repayment terms, and are regulated by authorities, ensuring fair practices.
On the other hand, if Manav faces challenges in meeting the bank’s requirements or has a poor credit history, the moneylender might be more accessible. Moneylenders may offer quick loans without strict eligibility checks, but often charge higher interest rates.
Manav should carefully consider the terms, interest rates, and the reputation of the lender before making an informed decision to ensure financial stability and avoid potential debt traps.
Q 11 (a). Why might banks be unwilling to lend to small farmers?
Banks might be unwilling to lend to small farmers due to various reasons:
1. Lack of Collateral: Small farmers often lack substantial assets or collateral to secure loans, making banks hesitant to extend credit, as they face higher risks of default.
2. Uneven Income and Cash Flows: Agricultural income is seasonal and dependent on factors like weather and crop yield. Banks may perceive this income variability as a risk, leading to reluctance in lending.
3. Limited Financial Literacy: Some small farmers may have limited financial literacy and struggle with documentation and loan procedures Thus it is challenging for banks to assess their creditworthiness.
4. High Administrative Costs: Providing small loans to numerous farmers can result in high administrative costs for banks, making it less profitable for them.
5. Previous Loan Defaults: If small farmers have a history of loan defaults, banks may become cautious about lending to them in the future.
To address these challenges, governments and financial institutions can work on providing targeted support. Also, promoting financial literacy among farmers, and offering loan products tailored to their specific needs.
Q 11 (b). What are the other sources from which the small farmers can borrow?
Banks might be unwilling to lend to small farmers due to several reasons. Firstly, small farmers often lack proper collateral or credit history, making them riskier borrowers in the eyes of banks.
Additionally, the administrative costs associated with processing small loans may deter banks from lending to them. Moreover, unpredictable weather conditions and the vulnerability of agriculture as an economic activity can affect the repayment capacity of small farmers.
As a result, banks may prefer larger and more established borrowers with higher creditworthiness. To address this issue, the government and financial institutions need to implement measures to support and incentivize banks to provide affordable credit to small farmers, ensuring their financial inclusion and agricultural development.
Q 11 (c). Explain with an example of how the terms of credit can be unfavourable for the small farmer.
Let’s take the example of a small farmer named Ramesh who needs a loan to purchase seeds and fertilizers for the upcoming crop season. He approaches a local moneylender as he faces difficulty obtaining credit from a formal financial institution.
The moneylender agrees to lend Ramesh the required amount but imposes a high-interest rate of 24% per annum, significantly above the prevailing market rate. Additionally, the moneylender demands that Ramesh repay the loan within three months, leaving him with a short repayment period.
This unfavorable term puts immense financial pressure on Ramesh, making it challenging for him to repay the loan on time. Leading to a cycle of debt and financial vulnerability for the small farmer.
Q 11 (d). Suggest some ways by which small farmers can get cheap credit.
Small farmers face challenges in accessing credit from formal financial institutions due to various reasons. Banks may be unwilling to lend to small farmers because of their limited financial resources. Also due to lack of collateral, and higher credit risk associated with agriculture.
Small farmers often operate on small landholdings, making it difficult for banks to recover loans in case of default. Additionally, the seasonal and unpredictable nature of agriculture poses risks to loan repayment. As a result, banks may perceive lending to small farmers as less profitable and may prefer lending to more established and creditworthy borrowers.
To address this, governments and financial institutions must design tailored credit schemes and improve financial inclusion to support the needs of small farmers.
Q 12. Fill in the blanks:
- Majority of the credit needs of the _________________households are met from informal sources. (Answer: Poor)
- ___________________costs of borrowing increase the debt-burden. (Answer: High)
- __________________ issues currency notes on behalf of the Central Government. (Answer: Reserve Bank of India)
- Banks charge a higher interest rate on loans than what they offer on __________. (Answer: Deposits)
- _______________ is an asset that the borrower owns and uses as a guarantee until the loan is repaid to the lender. (Answer: Collateral)
Q 13. Choose the most appropriate answer.
1. In an SHG, most of the decisions regarding savings and loan activities are taken by
-
-
- Bank
- Members
- Non-government organisation
-
Answer: 2. Members
2. Formal sources of credit do not include
-
-
- Banks
- Cooperatives
- Employers
-
Answer: 3. Employers
Money and Credit of Class 10 Summery
“Money and Credit” is a crucial chapter in Class 10 Economics that explores the concepts of money, credit, and their significance in the economy. The chapter delves into the history of money, the evolution of different forms of money, and how modern forms of money are linked to the banking system.
It also highlights the role of banks in mediating between surplus money and those in need of credit. The chapter discusses the importance of formal sources of credit and the challenges faced by small farmers in accessing credit.
It further explains the functioning of Self-Help Groups (SHGs) for the poor and the need for expanding formal sources of credit in India. Overall, “Money and Credit” offers valuable insights into the functioning of the monetary and credit systems, providing students with a comprehensive understanding of these vital economic aspects.
Read Also:
Frequently Asked Questions – FAQs on Money and Credit Class 10
Q 1. Importance of money and credit for class 10 students?
The chapter on “Money and Credit” holds immense importance for Class 10 students. It provides a fundamental understanding of the crucial role of money and credit in an economy.
By studying this chapter, students grasp the concept of money as a medium of exchange, unit of account, and store of value. They learn about various forms of money used historically and the evolution of modern banking systems. Understanding credit becomes essential as it enables students to comprehend the financial needs of different sections of society, especially small farmers and the poor.
Overall, this chapter equips students with essential knowledge about the functioning of monetary systems. Also, about significance of credit in fostering economic development and financial inclusion.
Q 2. What are the various Sources of Credit for Rural Households?
Rural households in India have access to various sources of credit to meet their financial needs. Some of the significant sources of credit for rural households include:
1. Formal Financial Institutions: These include banks, cooperative societies, and regional rural banks. They offer agricultural loans and other financial services to farmers and rural households.
2. Self-Help Groups (SHGs): SHGs are community-based organizations. It provide micro-credit and other financial services to their members, primarily women, in rural areas.
3. Moneylenders: Despite the formal financial institutions, moneylenders still play a role in rural credit. Especially in remote areas where formal credit is not easily accessible.
4. Microfinance Institutions: Microfinance institutions offer small loans and financial services to low-income individuals, including rural households, to support their livelihood activities.
5. Government Schemes: Various government schemes provide credit support to rural households for agricultural and entrepreneurial activities. Also for promoting rural development and financial inclusion.
Rural households often rely on a combination of these sources to fulfill their credit requirements and improve their economic well-being.
Q 3. What are the various modern form of money?
- Cash
- Deposits in Bank
- Check
Economics Class 10 Chapter 1 NCERT Solutions
Welcome to our comprehensive guide on “Economics Class 10 Chapter 1.” If you are a student gearing up to ace your economics studies or an eager learner seeking a deeper understanding of fundamental economic concepts, you’ve come to the right place.
In this article, we delve into the intricacies of Class 10 Economics Chapter 1, unlocking its valuable insights and practical applications. Economics plays a pivotal role in shaping the world around us, influencing decision-making, resource allocation, and overall societal well-being.

Join us as we demystify economic concepts, equip you with valuable knowledge, and empower you to make informed decisions in both academic and real-world scenarios. Let’s embark on this rewarding exploration of Economics Class 10 Chapter 1!
NCERT Economics Class 10 Chapter 1 Solution Explained
1. Development of a country can generally be determined by
- its per capita income
- its average literacy level
- health status of its people
- all of the above
Answer: d. all of the above
2. Which of the following neighbouring countries has better performance in terms of human development than India?
- Bangladesh
- Sri Lanka
- Nepal
- Pakistan
Answer: b. Sri Lanka
3. Assume there are four families in a country. The average per capita income of these families is Rs. 5000. If the income of three families is Rs. 4,000, Rs. 7,000 and Rs. 3,000, respectively, what is the income of the fourth family?
- Rs. 7,500
- Rs. 3,000
- Rs. 2,000
- Rs. 6,000
Answer: d. Rs. 6,000
(4000+7000+3000+x) ÷ 4 = 5000
14000+x = 5000 × 4
x = 20000-14000
x = 6000
4. What is the main criterion used by the World Bank in classifying different countries? What are the limitations of this criterion, if any?
The World Bank employs per capita income as a classification method for various countries. Per capita income is derived by dividing the total income of a country by its population. According to the World Bank, countries with a per capita income of US$955 or below for the year 2017 are classified as low-income countries.
However, this criterion has certain limitations:
1. Ignoring Key Factors: The classification solely relies on per capita income and overlooks critical indicators such as literacy rate, infant mortality rate, and healthcare facilities, which are crucial for assessing a country’s overall development and well-being.
2. Neglecting Income Inequality: The World Bank’s classification fails to consider information regarding the unequal distribution of income within a country. Inequality can significantly impact the socio-economic conditions of its citizens, influencing overall development.
3. Limited Scope: The per capita income criterion does not encompass the broader complexities of an economy and may not fully reflect a country’s development status. Economic development is influenced by numerous interconnected factors that extend beyond income levels alone.
To gain a comprehensive understanding of a country’s development, it is essential to consider a more inclusive approach that takes into account multiple indicators and factors affecting the well-being of its population.
5. In what respects is the criterion used by the UNDP for measuring development different from the one used by the World Bank?
The UNDP (United Nations Development Programme) employs a distinct criterion compared to the World Bank for country comparisons. Unlike the World Bank, which primarily uses per capita income to measure development, the UNDP takes a more comprehensive approach.
UNDP’s criterion considers three key indicators to assess development:
1. Educational Level: The educational level of the people within a country is a crucial factor in determining development. Education empowers individuals, enhances their skills, and contributes to overall human development.
2. Health Status: The health status of a population is another vital aspect of development. Factors such as life expectancy, infant mortality rate, and access to healthcare services play a significant role in assessing a country’s well-being.
3. Per Capita Income: While UNDP considers per capita income like the World Bank, it also integrates it with education and health indicators for a more holistic evaluation of development.
This approach by UNDP offers a more comprehensive and nuanced perspective on development, taking into account multiple dimensions that impact the quality of life and well-being of a country’s citizens. By considering education, health, and income together, UNDP’s criterion provides a more inclusive understanding of a country’s development status.
6. Why do we use averages? Are there any limitations to their use? Illustrate with your own examples related to development.
Calculating averages is a useful method for estimating and comparing different aspects across countries with varying populations. However, there are limitations to relying solely on averages, as they may not provide a complete picture of the income disparities within a country or state.
Let’s illustrate this with an example of two countries, A and B, each having 5 people:
In Country A, the incomes of the five individuals are Rs. 23,000, Rs. 22,000, Rs. 23,500, Rs. 28,000, and Rs. 25,000. The average income of Country A would be Rs. 24,300.
In Country B, the incomes of the five individuals are Rs. 1,50,000, Rs. 22,000, Rs. 50,000, Rs. 4,000, and Rs. 2,500. The average income of Country B would be Rs. 45,700.
While the average income of Country B appears higher than that of Country A, it doesn’t account for the significant disparity in income distribution within each country. In Country B, there seems to be a wide variation in incomes, with some individuals earning substantially higher than others. Conversely, Country A appears to have a more evenly distributed income among its population.
This example highlights that relying solely on average income figures may overlook the inequalities in income distribution within countries. To obtain a comprehensive understanding of economic conditions, it is crucial to consider additional factors, such as income distribution and the overall well-being of the population, to gain a more accurate assessment of a country’s economic situation.
7. Kerala, with lower per capita income, has a better human development ranking than Haryana. Hence, per capita income is not a useful criterion at all and should not be used to compare states. Do you agree? Discuss.
Despite having a lower per capita income, Kerala outperforms Haryana in terms of human development ranking. This indicates that per capita income alone is not a comprehensive criterion for comparing states. Kerala’s superior human development ranking can be attributed to factors like higher literacy rates, lower infant mortality rates, and better healthcare facilities compared to Haryana.
Per capita income merely calculates the average income of a state’s population without considering other crucial factors that contribute to overall development. In the case of Kerala and Haryana, the focus on per capita income alone fails to reflect the significant disparities in social indicators and human well-being.
To make accurate and meaningful comparisons between states, it is essential to consider a holistic set of indicators that encompass economic, social, and human development aspects. These include factors such as literacy rates, access to quality healthcare, education facilities, and infant mortality rates, which provide a more comprehensive picture of a state’s overall development and well-being.
8. Find out the present sources of energy that are used by the people in India. What could be the other possibilities fifty years from now?
Currently, people in India primarily rely on sources of energy such as firewood, coal, petroleum, crude oil, and natural gas. However, looking ahead to the next fifty years, there is significant potential for utilizing renewable sources like solar energy and wind energy to fulfill our diverse energy needs. Embracing these sustainable alternatives is crucial as the continued reliance on conventional energy sources could deplete precious natural resources, leaving future generations at a disadvantage. By transitioning towards renewable energy, we can ensure a greener and more sustainable future for all, preserving our planet’s resources for the well-being of generations to come.
9. Why is the issue of sustainability important for development?
Sustainable development is the responsible utilization of natural resources to meet the needs of both present and future generations. The concept of sustainability holds great significance for overall development because the careful management of natural resources ensures their availability for the well-being of future generations. Failing to use resources judiciously may lead to their depletion, hindering the progress and development of a country. Therefore, embracing sustainable practices is essential to ensure a harmonious balance between development and preservation, securing a prosperous and thriving future for all.
10. “The Earth has enough resources to meet the needs of all but not enough to satisfy the greed of even one person.” How is this statement relevant to the discussion of development? Discuss.
Development relies not solely on a country’s economic factors but also on the availability of resources for its people. The saying, “The Earth has enough resources to meet the needs of all but not enough to satisfy the greed of even one person,” is highly pertinent to a country’s development as natural resources are finite. Responsible utilization of these resources is crucial to meet present needs without compromising the needs of future generations. It is incumbent upon society to use resources wisely, prioritizing needs over greed. Failure to do so could lead to the exhaustion of resources, ultimately hampering a country’s development. Embracing sustainable practices ensures a prosperous future for all.
11. List a few examples of environmental degradation that you may have observed around you.
Numerous instances of environmental degradation are evident in our surroundings, including:
1. Vehicle emissions and excessive fuel consumption leading to pollution
2. Improper disposal of industrial waste in residential areas and water bodies
3. Deforestation activities depleting forest cover
4. Mining operations affecting natural landscapes
5. Soil erosion impacting fertile land
6. Escalating pollution contributing to global warming, glacial melting, and deteriorating atmospheric conditions.
12. For each of the items given in Table 1.6, find out which country is at the top and which is at the bottom.
According to Table 1.6, Sri Lanka secures the top position in all four categories, namely Gross National Income, Life Expectancy at birth, mean years of schooling for individuals aged 25 and above, and HDI rank worldwide. On the other hand, Nepal holds the lowest Gross National Income among the listed countries. Pakistan has the least Life Expectancy at birth and ranks the lowest in HDI rank among the given countries. Finally, Myanmar and Nepal have the lowest mean years of schooling for individuals aged 25 and above.
13. The following table shows the proportion of adults (aged 15-49 years) whose BMI is below normal (BMI <18.5 kg/m2) in India. It is based on a survey of various states for the year 2015-16. Look at the table and answer the following questions.
- Compare the nutritional level of people in Kerala and Madhya Pradesh.
- Can you guess why around 40 per cent of people in the country are undernourished even though it is argued that there is enough food in the country? Describe in your own words.
Ans 1. The nutritional level of people in Kerala surpasses that of people in Madhya Pradesh.
Ans 2. The argument supporting the presence of enough food in the country is based on the following reasons:
1. Disparity in PDS Distribution: The Public Distribution System (PDS) faces disparities in the distribution of food grains, leading to unequal access to food among the population.
2. Affordability of Nutritious Food: The poor population in the country may struggle to afford nutritious food, which impacts their overall food security.
3. Educational Backwardness and Unemployment: Educational backwardness and unemployment can lead to financial constraints, making it difficult for people to afford basic necessities like food.
4. Inadequate Ration Distribution: There are issues with the proper distribution of ration at fixed-price stores, hindering access to food for certain sections of the population.
Summery of Economics Class 10 Chapter 1
The summary of Economics Class 10 Chapter 1 provides an insight into the fundamental concepts of development and the importance of resources in a country’s progress. The chapter discusses various criteria used to measure development, such as per capita income, literacy rate, and healthcare facilities. It highlights the limitations of using only per capita income as a measure of development and emphasizes the significance of considering other socio-economic factors. The chapter also explores the concept of sustainable development, which involves using natural resources responsibly for the well-being of present and future generations. It emphasizes the need to strike a balance between economic growth and environmental preservation. Additionally, the chapter touches upon the impact of environmental degradation on the planet, emphasizing the urgency to adopt sustainable practices. Overall, this chapter serves as a foundational understanding of development and its broader implications for society and the environment.
Students will Get In Economics class 10 chapter 1:
1. Diverse development goals: The varied aspirations people have for development.
2. Purchasing power parity (PPP) concept: Understanding the comparative value of currencies.
3. Perspectives on development: Examining different viewpoints on progress.
4. Common indicators and measurement methods: Assessing development through various criteria.
5. Income and other aspirations: Identifying factors like salary and job security as development goals.
6. National development: Analyzing a nation’s ability to enhance its citizens’ living standards, considering per capita income, Gross Domestic Product (GDP), literacy rate, etc.
7. Comparison of countries or states based on per capita income due to population variations.
8. Calculation of per capita income and other criteria.
9. Access to public facilities: Understanding the availability of essential services.
10. Emphasis on sustainable development: Focusing on responsible resource use for future generations.
“Exploring Economic Development” is a crucial component of Class 10 SST Economics. For comprehensive solutions to the entire NCERT Class 10 Social Science syllabus, refer to the provided link.
Read Also:
Frequently Asked Question on Economics Class 10 Chapter 1
Q 1. What is the name of the book of Economics class 10?
Q 2. How many chapters are there in Economics Class 10 CBSE?
Five.
Q 3. How to pass in Economics?
Resources and Development Class 10 Notes of NCERT Geo. Ch. 1
Welcome to our exclusive and comprehensive guide on “Resources and Development Class 10 Notes.” If you’re a Class 10 student looking to excel in your geography studies or an eager learner seeking a deeper understanding of resources and their development, you’ve landed on the perfect page.
The subject of “Resources and Development” is a fundamental aspect of geography, encompassing the exploration, distribution, and sustainable use of various resources that shape our world. From understanding the significance of natural resources like water, minerals, and forests to analyzing the impact of human activities on the environment, this topic holds immense relevance in today’s context.
In the article, “Resources and Development Class 10 Notes” we have meticulously curated notes and study materials that cater specifically to Class 10 students. Say goodbye to overwhelming textbooks and disjointed online resources; here, we present the information in a clear, concise, and student-friendly manner. Join us on this enlightening journey as we equip you with the knowledge and insights needed to conquer your exams and gain a deeper appreciation for the intricate workings of our planet. Let’s dive in!
Resources and Development Class 10 Notes

Topics in Resources and Development Class 10 Chapter 1
- Resources
- Classification of Resources
- On the basis of origin
- On the Basis of Exhaustibility
- On the Basis of Ownership
- On the Basis of the Status of Development
- Development of Resources
- Resource Planning
- Land Resources
- Land Resources in India
- Land Use Pattern in India
- Land Degradation and Conservation measures
- Soil as a Resource
- Classification of Soils
- Alluvial Soils
- Black Soil
- Red and Yellow Soils
- Laterite Soils
- Arid Soils
- Forest Soils
- Soil Erosion and Soil Conservation
Resources and Development Class 10 Notes
Resources
The term “Resource” encompasses everything in our environment that satisfies our needs, is technologically accessible, economically feasible, and culturally acceptable. Interestingly, human beings themselves are integral components of these resources.
They play a vital role in transforming materials available in the environment into valuable resources and subsequently utilize them for various purposes. This intricate process of conversion and utilization highlights the dynamic relationship between humanity and its surroundings, showcasing our ability to adapt and harness the elements of nature to meet our requirements effectively.
As we delve into the concept of resources, we begin to realize the profound impact our actions have on the environment, underlining the importance of sustainable practices to ensure a harmonious coexistence with the natural world.
Classification of Resources
(a) Based on their Origin –
Biotic and Abiotic
Biotic Resources are derived from the biosphere and encompass all living organisms such as human beings, flora, fauna, fisheries, and livestock.
Example: Human populations, plant life, animals, aquatic life, etc.
Abiotic Resources, on the other hand, consist of non-living elements like rocks and metals.
Example: Minerals, ores, rocks, metals, etc.
(b) Based on Exhaustibility –
Renewable and Non-Renewable
Renewable or Replenishable Resources can be replenished or reproduced through natural processes, such as solar and wind energy, water, forests, and wildlife.
Example: Solar energy, wind power, water resources, etc.
Non-Renewable Resources take millions of years to form and cannot be readily replaced. Some non-renewable resources, like metals, are recyclable, while others, like fossil fuels, are exhausted with use.
Example: Fossil fuels (coal, oil, natural gas), minerals (iron, copper, gold), etc.
(c) Based on Ownership –
Individual, Community, National, and International
Individual Resources are privately owned by individuals and include lands, plots, houses, and other properties.
Example: Private estates, personal farms, etc.
Community Owned Resources are accessible to all members of a community and may include grazing grounds, public parks, and picnic spots.
Example: Village common lands, community parks, etc.
National Resources are owned by a nation or country, including minerals, water resources, forests, and land within its political boundaries.
Example: National parks, railways, etc.
International Resources are regulated by international institutions and encompass oceanic resources beyond 200 nautical miles of the Exclusive Economic Zone.
Example: Open ocean resources, international waters, etc.
(d) Based on the Status of Development –
Potential, Developed Stock, and Reserves
Potential Resources are available in a region but remain untapped or underutilized.
Example: Untapped wind and solar energy potential in certain regions.
Developed Resources have been surveyed, and their quantity and quality have been determined for utilization based on technology and feasibility.
Example: Extracted minerals, available water sources, etc.
Stocks are materials in the environment with potential to meet human needs, but current technology does not allow access.
Example: Hydrogen as a rich energy source without advanced utilization technology.
Reserves are a subset of stocks that can be utilized with existing technology but have not yet been put into use.
Example: Water stored in dams, untapped forest resources, etc.
Understanding these classifications helps us appreciate the diverse nature of resources and guides us in responsible and sustainable resource management for a better future.
Development of Resources
The indiscriminate use of resources by human beings has given rise to significant challenges, causing the following major problems:
1. Depletion of Resources: Many resources have been exploited without restraint to fulfill the greed of a few individuals. This uncontrolled consumption has led to the exhaustion of valuable resources, threatening the balance of ecosystems and natural cycles.
2. Unequal Distribution: As resources accumulate in the hands of a privileged few, societal divisions have intensified, creating a stark contrast between the wealthy and the impoverished. This economic disparity can perpetuate social inequalities and hinder overall progress.
3. Global Ecological Crises: The unregulated use of resources has triggered severe ecological crises on a global scale. Issues like global warming, ozone layer depletion, environmental pollution, and land degradation pose severe threats to the environment and all forms of life.
To address these challenges and ensure a sustainable future, resource planning becomes indispensable. Sustainable economic development aims to strike a harmonious balance between human progress and environmental preservation. It emphasizes the importance of developing without causing harm to the environment and ensuring that the needs of future generations are not compromised.
By implementing thoughtful resource management strategies, we can safeguard the well-being of both current and future generations while preserving the natural world for all life forms to thrive.
Resource Planning
In India, there exists a diverse landscape where some regions boast self-sufficiency in resources, while others face acute shortages of vital elements. To address this disparity, it becomes imperative to adopt a balanced resource planning approach at the national, state, regional, and local levels.
Resource Planning in India is a multifaceted process involving the following key steps:
(i) Identification and Inventory: An extensive survey, mapping, and qualitative as well as quantitative estimation of resources are conducted across the country’s various regions. This comprehensive assessment aids in understanding the resource distribution.
(ii) Planning Structure: A well-endowed planning structure is developed, incorporating appropriate technology, skills, and institutional setups to effectively implement resource development plans.
(iii) Alignment with National Development: Resource development plans are harmonized with the broader national development goals to ensure synergy and optimal utilization.
For resources to contribute effectively to development, it is crucial to accompany them with appropriate technological advancements and institutional changes. India has been actively pursuing resource planning since the inception of the First Five Year Plan after Independence, showcasing its commitment to sustainable growth.
To combat irrational consumption and over-utilization of resources, conservation efforts at various levels play a pivotal role in preserving the environment and fostering a sustainable future. By embracing resource planning and conservation, India can pave the way towards a balanced and prosperous tomorrow for all its citizens.
Land Resources
Land stands as a paramount natural resource, bearing immense significance in its support for various aspects of life and development. It sustains natural vegetation, wildlife, human settlements, economic activities, as well as transportation and communication systems. India’s landscape comprises a diverse array of relief features, encompassing mountains, plateaus, plains, and islands, as illustrated below:
Land Utilisation
Land resources find application in the following purposes:
1. Forests: Land is allocated for the growth and preservation of forests, vital for ecological balance and biodiversity conservation.
2. Land not available for cultivation: This category includes two subtypes:
a) Barren and wasteland: Land that is unsuitable for agricultural activities due to its arid or unproductive nature.
b) Land put to non-agricultural uses: Land utilized for non-farming purposes such as residential, industrial, or infrastructural developments.
3. Fallow lands: These are lands that are temporarily left uncultivated to regain fertility or due to seasonal reasons.
4. Other uncultivated lands (excluding fallow land): Lands that are not cultivated, excluding those explicitly categorized as fallow.
5. Net sown area: The total land area under cultivation, which excludes the area under fallow and uncultivated land.
Understanding and efficiently utilizing land resources across these diverse purposes are essential for sustainable development and optimal land management.
Land Use Pattern in India
The utilization of land is influenced by two main sets of factors:
1. Physical Factors: These encompass various elements that are inherent to the land itself, such as topography (terrain features and elevation), climate (temperature, precipitation, etc.), and soil types (fertility, composition, etc.). These physical characteristics significantly impact the suitability and productivity of the land for various activities.
2. Human Factors: These factors relate to human interactions and decisions concerning land use. They include population density (the concentration of people in a specific area), technological capability (the level of technology available for land development and utilization), as well as culture and traditions, which influence the practices and preferences related to land use in a given society.
The interplay between these physical and human factors shapes how land is allocated and utilized for different purposes, ranging from agriculture and settlements to industrial and recreational activities. Understanding and balancing these factors are crucial for effective land management and sustainable development.
Wasteland refers to land that is utilized for non-agricultural purposes, encompassing areas characterized by rockiness, aridity, deserts, as well as spaces allocated for roads, railways, industries, and other non-farming activities. Unfortunately, the prolonged and unregulated use of land without implementing adequate conservation and management measures has led to the degradation of land resources.
As a consequence of this continuous usage, land degradation occurs, impacting the quality and fertility of the soil, reducing its ability to support vegetation and sustainable activities. It is essential to adopt responsible land management practices to counteract this degradation, ensuring the preservation and rejuvenation of our valuable land resources for future generations. Through proactive conservation efforts, we can combat the detrimental effects and promote sustainable land use, thus safeguarding the ecological balance and productivity of our lands.
Land Degradation and Conservation Measures
Land degradation is primarily driven by human activities, including deforestation, overgrazing, mining, and quarrying. These practices have left lasting impacts on the land, evident in deep scars and overburdened areas at mining sites. Additionally, industrial effluents have emerged as significant contributors to land and water pollution in various regions across the country.
Various soil conservation techniques are implemented to combat soil erosion and safeguard fertile land.
1. Afforestation and Grazing Management: Promoting afforestation initiatives and adopting proper grazing management practices help restore vegetation cover and prevent soil erosion.
2. Shelter Belt Planting: Creating shelter belts of plants can serve as protective barriers against wind and soil erosion, enhancing the stability of the land.
3. Sand Dune Stabilization: Growing thorny bushes on sand dunes aids in stabilizing them and curbing the encroachment of desertification.
4. Wasteland Management: Implementing comprehensive plans for the management of wastelands ensures their optimal utilization and potential for reclamation.
5. Control of Mining Activities: Regulating and controlling mining activities can minimize the adverse impacts on land, promoting sustainable extraction practices.
6. Industrial Effluent Treatment: Ensuring proper treatment and disposal of industrial effluents and wastes help mitigate land and water pollution, safeguarding the environment.
By implementing these proactive measures, we can combat land degradation and preserve the productivity and ecological health of our land resources. Emphasizing responsible land management practices is vital to secure a sustainable future for our environment and generations to come.
Soil as a Resource
Soil stands as the most crucial renewable natural resource, serving as the vital medium for plant growth and supporting diverse life forms on our planet.
The formation of soil is an incredibly slow process, taking millions of years to develop just a few centimeters in depth. Nature’s various forces, including temperature fluctuations, the actions of running water, wind, glaciers, and the activities of decomposers, all contribute to the gradual formation of soil.
Several key factors play significant roles in soil formation, such as the composition of the parent rock or bedrock, the prevailing climate, the types of vegetation, other living organisms, and the passage of time. Through a combination of chemical and organic changes, soil evolves, enriching its composition and supporting its essential functions.
Soil consists of both organic matter, commonly known as humus, and inorganic materials. This unique combination of components contributes to the soil’s fertility, making it an indispensable resource for sustaining life and fostering a wide array of ecosystems on Earth.
Classification of Soils
India’s diverse soils are classified based on factors such as soil formation, color, thickness, texture, age, and chemical and physical properties. Different types of soils found in India are:
1. Alluvial Soils:
– Found in the northern plains, as well as Rajasthan, Gujarat, and eastern coastal plains.
– Deposited by important Himalayan rivers like the Indus, Ganga, and Brahmaputra.
– Divided into Old Alluvial (Bangar) and New Alluvial (Khadar) based on age.
– Very fertile, ideal for growing crops like sugarcane, paddy, wheat, and pulses.
2. Black Soil:
– Also known as regur soil, found in Deccan trap (Basalt) regions.
– Ideal for cotton cultivation due to its moisture-retaining capacity.
– Rich in nutrients like calcium carbonate, magnesium, potash, and lime.
3. Red and Yellow Soils:
– Develop on crystalline igneous rocks in areas of low rainfall.
– Get their reddish color from iron diffusion in crystalline rocks.
– Found in parts of Odisha, Chhattisgarh, and southern regions of the Deccan plateau.
4. Laterite Soil:
– Found in tropical and subtropical climates with alternating wet and dry seasons.
– Result of intense leaching due to heavy rain, making it acidic and nutrient-deficient.
– Suitable for tea and coffee cultivation and supports deciduous and evergreen forests.
5. Arid Soils:
– Ranging from red to brown in color, found in arid regions.
– Sandy texture with high saline content, lacking in humus and moisture.
– Kankar layer restricts water infiltration.
6. Forest Soils:
– Located in hilly and mountainous areas with varied textures based on elevation.
– Snow-covered areas in the Himalayas have acidic soils with low humus content.
– Fertile on river terraces and alluvial fans.
Each type of soil supports different ecosystems and is vital for agricultural productivity in its respective region. Understanding and managing these soils are crucial for sustainable land use and successful agricultural practices across the country.
Soil Erosion and Soil Conservation
Soil erosion, resulting from the denudation and subsequent washing down of the soil cover, poses a significant challenge. Deforestation, over-grazing, construction, and mining are the cause of erosion. Natural forces like wind, glaciers, and water. Defective farming methods also contribute to soil erosion.
Various forms of soil erosion occur depending on the terrain and circumstances. Running water carves deep channels known as gullies in clayey soils, rendering the land unsuitable for cultivation and termed as bad land.
To combat soil erosion and preserve fertile land, different soil conservation techniques are employed:
1. Contour Ploughing: Ploughing along the contour lines slows down water flow on slopes, reducing erosion.
2. Terrace Cultivation: Practiced in the Western and Central Himalayas, terrace cultivation helps control erosion.
3. Strip Cropping: Grass is grown between strips of large fields to break the force of the wind and minimize erosion.
4. Shelter Belts: Planting lines of trees to create shelter aids in stabilizing sand dunes and desert areas, particularly in western India.
By adopting these soil conservation methods, we can protect valuable topsoil, maintain fertile land for agriculture, and safeguard the environment from the adverse effects of soil erosion. Keep exploring and stay updated on CBSE and NCERT-related information. Access interactive Maths and Science videos through the BYJU’S App and subscribe to their YouTube channel for continuous learning.
Summery of the Article Resources and Development Class 10 Notes
The summary introduces an exclusive and comprehensive guide on “Resources and Development Class 10 Notes,” catering to Class 10 students seeking a deeper understanding of resources and their development. The article emphasizes the importance of resources for human survival, development, and progress.
The summary further delves into land resources, soil as a vital renewable natural resource, and the classification of soils in India. It concludes by addressing soil erosion and soil conservation measures.
Read Also:
Frequently Asked Questions on CBSE Resources and Development Class 10 Notes
Q 1. Importance of resources and development chapter for class 10 students?
The “Resources and Development” chapter is vital for Class 10 students as it introduces foundational knowledge about various resources, their distribution, and utilization.
It enhances environmental awareness, understanding the implications of human activities on the planet. Students learn about the economic significance of resources and their role in sustainable development. This knowledge fosters global perspective, encouraging responsible resource management.
Additionally, it equips students to analyze policies, participate in discussions, and advocate for environmentally conscious decisions. Mastering this chapter ensures excellent exam preparation while empowering students to become informed and proactive citizens, contributing to a sustainable future for our world.
Q 2. Importance of resources for humans?
Resources are of utmost importance for humans as they are essential for survival, development, and progress. Natural resources like water, air, soil, minerals, and energy sources provide the necessary elements for human sustenance, economic activities, and technological advancements.
They are vital for agriculture, industries, infrastructure, and daily living. Human civilization thrives on the availability and efficient utilization of resources, shaping societies, economies, and lifestyles.
Understanding and managing resources sustainably are crucial to ensure a better quality of life, economic prosperity, and environmental conservation. Recognizing the importance of resources empowers us to make responsible decisions, preserve nature’s gifts, and secure a better future for generations to come.
Q 3. How to protect natural resources?
Protecting natural resources requires a concerted effort and a collective commitment to sustainable practices. Some key measures include:
- Conservation and Preservation: Implementing conservation strategies like afforestation, reforestation, and protected areas helps maintain biodiversity and prevent resource depletion.
- Responsible Consumption: Promote responsible consumption habits, reduce waste, and practice recycling to minimize resource exploitation and environmental impact.
- Sustainable Agriculture: Adopt sustainable agricultural practices that preserve soil fertility, minimize chemical usage, and promote crop rotation for long-term resource preservation.
- Efficient Energy Use: Promote energy efficiency, transition to renewable energy sources, and reduce reliance on fossil fuels to conserve natural resources.
- Water Conservation: Encourage responsible water usage, rainwater harvesting, and the protection of water bodies to preserve this vital resource.
By integrating these measures into our lifestyles and policies, we can safeguard natural resources, promote ecological harmony, and ensure a sustainable future for generations to come.
Trigonometry Class 10 Formulas List for NCERT Maths Students
Below are the provided trigonometry class 10 formulas. Trigonometry involves studying the relationships between angles, lengths, and heights of triangles. It encompasses ratios, functions, identities, and formulas used to solve problems, particularly concerning right-angled triangles.

The applications of trigonometry extend to various fields such as engineering, astronomy, physics, and architectural design. This chapter holds significant importance as it covers various topics, including Linear Algebra, Calculus, and Statistics.
In CBSE Class 10, students are introduced to trigonometry, a completely new and challenging chapter. It requires learning and mastering various formulas to apply them effectively. Below, you can find the tabulated Trigonometry Class 10 formulas.
Trigonometry class 10 formulas
Here are all the essential formulas introduced to Class 10 students. You can refer to these formulas at any time to learn and solve trigonometry-related problems effectively.
The trigonometric formulas for ratios predominantly rely on the three sides of a right-angled triangle, namely the adjacent side or base, perpendicular, and hypotenuse (as shown in the figure above). By applying the Pythagoras theorem to the given right-angled triangle, we get:
(Perpendicular)² + (Base)² = (Hypotenuse)²
⇒ (P)² + (B)² = (H)²
Now, let’s explore the formulas based on trigonometric ratios (sine, cosine, tangent, secant, cosecant, and cotangent).
Learn Trigonometry class 10 formulas
SN. | Variable | Defination |
---|---|---|
1. | Sin A | Perpendicular/Hypotenuse |
2. | Cos A | Base/Hypotenuse |
3. | Tan A | Perpendicular/Base |
4. | Cot A | Base/Perpendicular |
5. | Cosec A | Hypotenuse/Perpendicular |
6. | Sec A | Hypotenuse/Base |
Relation between different trigonometric Function
SN. | Function | Realtion |
---|---|---|
1. | tan A | sin A/cos A |
2. | Cos A | cos A/sin A |
3. | Cosec A | 1/sin A |
4. | Sec A | 1/cos A |
Trigonometric Sign Functions
- sin (-θ) = − sin θ
- cos (−θ) = cos θ
- tan (−θ) = − tan θ
- cosec (−θ) = − cosec θ
- sec (−θ) = sec θ
- cot (−θ) = − cot θ
Trigonometric Identities
- sin2A + cos2A = 1
- tan2A + 1 = sec2A
- cot2A + 1 = cosec2A
Periodic Identities
- sin(2nπ + θ ) = sin θ
- cos(2nπ + θ ) = cos θ
- tan(2nπ + θ ) = tan θ
- cot(2nπ + θ ) = cot θ
- sec(2nπ + θ ) = sec θ
- cosec(2nπ + θ ) = cosec θ
Complementary Ratios
1. Quadrant I
- sin(π/2 − θ) = cos θ
- cos(π/2 − θ) = sin θ
- tan(π/2 − θ) = cot θ
- cot(π/2 − θ) = tan θ
- sec(π/2 − θ) = cosec θ
- cosec(π/2 − θ) = sec θ
2. Quadrant II
- sin(π − θ) = sin θ
- cos(π − θ) = -cos θ
- tan(π − θ) = -tan θ
- cot(π − θ) = – cot θ
- sec(π − θ) = -sec θ
- cosec(π − θ) = cosec θ
3. Quadrant III
- sin(π + θ) = – sin θ
- cos(π + θ) = – cos θ
- tan(π + θ) = tan θ
- cot(π + θ) = cot θ
- sec(π + θ) = -sec θ
- cosec(π + θ) = -cosec θ
4. Quadrant IV
- sin(2π − θ) = – sin θ
- cos(2π − θ) = cos θ
- tan(2π − θ) = – tan θ
- cot(2π − θ) = – cot θ
- sec(2π − θ) = sec θ
- cosec(2π − θ) = -cosec θ
5. Sum and Difference of Two Angles
- sin (A + B) = sin A cos B + cos A sin B
- sin (A − B) = sin A cos B – cos A sin B
- cos (A + B) = cos A cos B – sin A sin B
- cos (A – B) = cos A cos B + sin A sin B
- tan(A + B) = [(tan A + tan B)/(1 – tan A tan B)]
- tan(A – B) = [(tan A – tan B)/(1 + tan A tan B)]
6. Double Angle Formulas
- sin 2A = 2 sin A cos A = [2 tan A /(1 + tan2A)]
- cos 2A = cos2A – sin2A = 1 – 2 sin2A = 2 cos2A – 1 = [(1 – tan2A)/(1 + tan2A)]
- tan 2A = (2 tan A)/(1 – tan2A)
7. Triple Angle Formulas
- sin 3A = 3 sinA – 4 sin3A
- cos 3A = 4 cos3A – 3 cos A
- tan 3A = [3 tan A – tan3A]/[1 − 3 tan2A]
What are Inverse Trigonometric Functions
Inverse trigonometric functions are mathematical functions that “undo” the effect of the regular trigonometric functions (sine, cosine, tangent, cosecant, secant, and cotangent). They are also known as “arc” functions or “antitrigonometric” functions. The inverse trigonometric functions allow us to find the angles associated with specific trigonometric ratios.
The inverse trigonometric functions are denoted by “arc” or “a” followed by the trigonometric function’s abbreviation. For example:
- Inverse Sine (arcsin or asin): The inverse of the sine function. It gives us the angle whose sine is a given value. Domain: [-1, 1] Range: [-π/2, π/2]
- Inverse Cosine (arccos or acos): The inverse of the cosine function. It gives us the angle whose cosine is a given value. Domain: [-1, 1] Range: [0, π]
- Inverse Tangent (arctan or atan): The inverse of the tangent function. It gives us the angle whose tangent is a given value. Domain: (-∞, ∞) Range: (-π/2, π/2)
- Inverse Cosecant (arccsc or acsc): The inverse of the cosecant function. It gives us the angle whose cosecant is a given value. Domain: (-∞, -1] ∪ [1, ∞) Range: [-π/2, 0) ∪ (0, π/2]
- Inverse Secant (arcsec or asec): The inverse of the secant function. It gives us the angle whose secant is a given value. Domain: (-∞, -1] ∪ [1, ∞) Range: [0, π/2) ∪ (π/2, π]
- Inverse Cotangent (arccot or acot): The inverse of the cotangent function. It gives us the angle whose cotangent is a given value. Domain: (-∞, ∞) Range: (0, π)
The inverse trigonometric functions are used to find angles in trigonometric equations and solve various real-world problems involving angles and trigonometric ratios. They are essential tools in calculus, engineering, physics, and other fields where trigonometry is applied.
Tips to Memorize Trigonometry Class 10 Formulas
- Understand the Concepts: Before memorizing, make sure you understand the basic concepts and principles behind each formula. This will make it easier to remember and apply them.
- Create Acronyms or Mnemonics: Associate each formula with a short acronym or mnemonic that represents the formula’s variables or terms. This can help you recall the formula quickly during exams.
- Practice Regularly: Practice solving trigonometry problems using the formulas frequently. Repetition will reinforce your memory.
- Use Flashcards: Write the formulas on flashcards and review them regularly. This technique enhances memory retention.
- Break Down Formulas: Break complex formulas into smaller parts and focus on memorizing each part separately. Then, combine the parts to remember the entire formula.
- Relate Formulas to Real-Life Applications: Connect the trigonometry formulas to real-life scenarios or applications. It will make them more relatable and easier to remember.
- Visualize: Create visual aids like diagrams or charts to represent the formulas. Visual cues can enhance memory.
- Teach Someone Else: Explaining the formulas to someone else helps reinforce your understanding and memorization.
- Use Online Resources: There are many online platforms and mobile apps that offer interactive quizzes and games to help memorize formulas effectively.
- Stay Consistent: Dedicate regular study time to review and practice the formulas. Consistency is key to long-term retention.
Remember, practice and understanding are crucial for memorizing trigonometry formulas effectively. With consistent effort, you’ll master these formulas in no time!
Applications of Trigonometry Class 10 Formulas
Trigonometry formulas from Class 10 have various practical applications in everyday life as well as in various fields of science, engineering, and technology. Some of the key applications include:
- Architecture and Construction: Trigonometry is used in architectural designs, surveying, and construction to calculate angles, distances, and heights of buildings and structures.
- Engineering: Engineers use trigonometry to design and analyze various mechanical, electrical, and civil engineering projects, such as bridges, roads, and buildings.
- Astronomy and Navigation: Trigonometry is crucial in astronomy to calculate the positions of celestial objects and navigate using tools like compasses and GPS.
- Geography and Cartography: Trigonometry is used in mapmaking, cartography, and land surveying to measure distances and map features accurately.
- Computer Graphics and Animation: In computer graphics and animation, trigonometry is essential for calculating angles and positioning objects in 2D and 3D space.
- Physics: Trigonometry is used extensively in physics to analyze forces, motion, and wave phenomena.
- Music and Sound Engineering: Trigonometry plays a role in analyzing sound waves and designing musical instruments.
- Optics: Trigonometry is used in optics to calculate angles of incidence and refraction in lenses and mirrors.
- Medicine: Medical imaging techniques like X-rays and CT scans use trigonometry to reconstruct images of the internal body.
- Mechanical Engineering: Trigonometry is used to analyze mechanical systems, such as gears, pulleys, and levers.
These are just a few examples of how trigonometry formulas are applied in various fields. Trigonometry is a fundamental branch of mathematics with wide-ranging applications, making it essential knowledge for students in Class 10 and beyond.
Read More:
- RD Sharma Class 10 Book Pdf Free Download Without Solutions
- Sample Question Paper for Class 10 CBSE Maths With Solutions
- Median Formula Class 10th For Grouped and Ungrouped Data
Frequently Asked Questions – FAQs
Q 1. How to solve trigonometry?
Ans: To solve trigonometry problems, follow these steps:
- Understand the problem and identify the given information and what needs to be found.
- Label the triangle and use standard labels like “opposite,” “adjacent,” and “hypotenuse” for right-angled triangles.
- Choose the appropriate trigonometric ratio (sin, cos, tan) based on what needs to be found.
- Apply the trigonometric ratio by substituting known values and setting up the equation.
- Use the Pythagoras theorem for right-angled triangles if necessary (a² + b² = c²).
- Check your calculator mode (degrees or radians) before using trigonometric functions.
- Use inverse trigonometric functions (sin⁻¹, cos⁻¹, tan⁻¹) to find angle measures.
- Check for extraneous solutions that may not fit the problem’s requirements.
- Practice regularly and review trigonometric identities for more complex problem-solving.
- Seek help from teachers or online resources if needed. Practice is crucial in mastering trigonometry.
Q 2. How can I learn trigonometry fast?
Ans: To learn trigonometry fast, master basic geometry concepts, understand trigonometric ratios, and memorize key formulas. Regularly practice solving diverse problems, use flashcards, and visualize concepts with diagrams. Watch video tutorials, engage in group study, and teach others to reinforce learning.
Set goals, track progress, and practice under time constraints to improve speed and accuracy. Seek help when needed and stay organized with notes and formulas. Be patient and persistent, as learning trigonometry effectively is a gradual process. With dedication, you can quickly grasp concepts and become proficient in trigonometry problem-solving.
Q 3. What is the formula for a 30 60 90 triangle?
Ans: The formula for the sides of a 30-60-90 triangle is as follows:
- Shortest side (opposite 30-degree angle): a
- Side opposite the 60-degree angle: b = a√3
- Hypotenuse: c = 2a
Remember, this formula is applicable to all 30-60-90 triangles, regardless of their size. If you know the length of one side, you can use these ratios to find the lengths of the other sides. Conversely, if you know the lengths of two sides, you can calculate the third side using these ratios.
Q 4. What angle is depression?
Ans: The term “angle of depression” refers to the angle formed between a horizontal line and the line of sight when an observer looks downward to view an object or point that is at a lower level. In other words, it is the angle measured from the horizontal line to the line of sight directed downward.
The angle of depression is commonly used in various fields, such as surveying, architecture, and physics, to determine the height or distance of an object or point below the observer’s viewpoint. It is the complement of the angle of elevation, which is the angle formed when an observer looks upward to view an object or point that is at a higher level.
Q 5. What is angle of sight?
Ans: The term “angle of sight” is not a standard or widely used trigonometric term. It might be a colloquial or informal expression to refer to either the “angle of elevation” or the “angle of depression,” depending on the context.
1. Angle of Elevation: The angle of elevation is the angle formed between a horizontal line and the line of sight when an observer looks upward to view an object or point that is at a higher level. It is used to determine the height or distance of an object above the observer’s viewpoint.
2. Angle of Depression: The angle of depression, as mentioned earlier, is the angle formed between a horizontal line and the line of sight when an observer looks downward to view an object or point that is at a lower level. It helps determine the height or distance of an object below the observer’s viewpoint.
If you encounter the term “angle of sight” in a specific context, it would be best to clarify with additional context or refer to the specific trigonometric concept it represents, which is either the angle of elevation or the angle of depression.
Class 10th Political Parties Notes of NCERT Civics Chapter 4
Class 10th Political Parties: In Class 10th, students delve into Chapter 6: Political Parties, an essential topic in the Social Science curriculum. This chapter introduces young minds to the world of political parties, their significance in a democratic nation like India, and their role in shaping the country’s governance.
By comprehending the inner workings of political parties, students gain insights into the democratic backbone of India and the process by which leaders and representatives are elected to govern the nation. Let’s embark on a journey to understand the fundamentals of political parties in India and their impact on the nation’s progress.
Class 10th Political Parties
The Importance of Political Parties in a Democracy
In a democratic nation, political parties play a pivotal role in representing the diverse interests and aspirations of the citizens. These organizations are essential for a well-functioning democracy, as they provide a platform for people to participate in governance actively. Here’s why political parties are crucial in a democratic setup:
- Representation of People: Political parties act as intermediaries between the government and the citizens. They voice the concerns and demands of the people, making sure their needs are taken into account in policymaking.
- Formulation and Articulation of Policies: Parties develop and present different policies and ideologies to address societal issues. Through healthy debates, they propose solutions that cater to various sections of the population.
- Electoral Process: Political parties contest elections to fill legislative positions, including the Parliament and state assemblies. These elections offer citizens the opportunity to choose their representatives and participate in the decision-making process.
- Government Formation: Political parties with majority support in the elections form the government, and the party’s leader becomes the Prime Minister or Chief Minister. The party in power is responsible for implementing policies and running the country or state effectively.
- Accountability: Political parties hold elected representatives accountable for their actions and decisions. They act as watchdogs, ensuring that the government works in the best interest of the citizens.
Evolution of Political Parties in India
India’s political landscape has witnessed significant transformations over the years. Understanding the evolution of political parties is crucial to grasp their current impact on the nation’s governance. Here’s a brief overview of the development of political parties in India:
SN. | Party Name | Foundation Year |
---|---|---|
1. | Indian National Congress | 1885 |
2. | Communist Party of India | 1925 |
3. | Bhartiya Janta Party | 1980 |
4. | Bahujan Samaj Party | 1984 |
5. | All India Trinamool Congress | 1998 |
6. | Nationalist Congress Party | 1999 |
7. | Aam Adami Party | 2012 |
8. | National People Party | 2013 |
- Pre-Independence Era: Before India gained independence from British rule in 1947, the political scene was characterized by the Indian National Congress (INC) and a few regional parties. The INC, led by prominent leaders like Mahatma Gandhi and Jawaharlal Nehru, spearheaded the freedom struggle.
- Post-Independence: After independence, the Indian National Congress emerged as the dominant political party. It played a critical role in shaping India’s early democratic institutions and policies.
- Emergence of Regional Parties: Over time, regional parties gained prominence as they addressed specific issues of regional importance. These parties represented the diverse cultural and linguistic identities of various states.
- Era of Coalition Politics: In the 1990s, India witnessed a shift towards coalition politics, where no single party could secure a clear majority. This led to the formation of coalition governments at the central level.
- Rise of Ideology-Based Parties: Alongside regional parties, ideology-based parties like the Bharatiya Janata Party (BJP) and the Communist Party of India (Marxist) (CPI-M) emerged, attracting followers with distinct ideologies.
- Current Scenario: Present-day India features a multi-party system, with a mix of national and regional parties competing in elections. Coalition governments have become more common, requiring parties to form alliances for stability.
The Role of Political Parties in Indian Democracy
Political parties play a crucial role in Indian democracy, serving as the primary means through which citizens participate in the political process. They act as bridges between the government and the people, representing diverse interests and ideologies. Here are some key roles of political parties in Indian democracy:
Representation:
Political parties represent the interests and aspirations of various sections of society. They bring together like-minded individuals and groups who share common goals, providing a platform for their voices to be heard.
Formation of Government:
In a parliamentary democracy like India, the political party or coalition with the majority in the legislative body forms the government. The party with the most seats in the Lok Sabha (House of the People) elects the Prime Minister, who becomes the head of the government.
Political Stability:
Political parties contribute to stability by providing continuity in governance. They establish stable governments, reducing the likelihood of frequent political crises or changes.
Policy Formulation:
Political parties present their visions and policies to the public during elections. Once in power, they implement these policies, shaping the country’s direction and development.
Accountability:
Opposition parties act as watchdogs, holding the ruling party accountable for its actions and decisions. They provide checks and balances, ensuring transparency and preventing misuse of power.
Participation:
Political parties encourage citizen participation in the democratic process. They mobilize people to vote, engage in political debates, and exercise their right to choose their representatives.
Social Transformation:
Political parties promote social change and inclusivity. They advocate for the rights of marginalized communities and work towards a more equitable society.
Regional Representation:
India’s diversity is reflected in the existence of regional parties that represent the interests of specific states or regions. These parties address local issues and concerns, fostering a federal structure.
Coalition Building:
In a multi-party system, alliances and coalitions are formed to gain a majority in the government. This promotes cooperation and consensus-building among different parties.
Promotion of Democratic Values:
Political parties are instrumental in upholding democratic values, such as freedom of speech, expression, and association. They play a vital role in safeguarding the democratic fabric of the country.
However, challenges such as money power, political dynasties, and lack of internal democracy in some parties can undermine the democratic process. Despite these challenges, political parties remain central to the functioning of Indian democracy, shaping its course and reflecting the collective will of the people.
Challenges Faced by Political Parties in India
Despite their significant role in Indian democracy, political parties face various challenges that impact their functioning. Some of the prominent challenges include:
- Corruption: Corruption is a prevalent issue that affects several political parties. It erodes public trust and undermines the democratic process.
- Communalism and Caste-Based Politics: Some parties indulge in communal or caste-based politics to garner votes, leading to social divisions and polarization.
- Money Power: The influence of money in elections and party financing is a concern that needs addressing. It can lead to unequal representation and affect the fairness of the electoral process.
- Lack of Internal Democracy: Some parties lack internal democracy, with decision-making concentrated in the hands of a few leaders.
- Dynastic Politics: The prevalence of dynastic politics, where party leadership is based on family lineage, can hinder meritocracy and limit opportunities for new leaders to emerge.
- Regionalism and Fragmentation: The proliferation of regional parties and fragmented mandates in elections can result in unstable coalition governments.
Role of Election commission of India
Following are the work of Election Commission:
- Independent Constitutional Body overseeing elections.
- Comprises Chief Election Commissioner and two Election Commissioners.
- Conducts elections for Lok Sabha, State Legislative Assemblies, President, and Vice-President.
- Responsible for delimitation of constituencies.
- Prepares and updates electoral rolls.
- Enforces the Model Code of Conduct during elections.
- Conducts voter education and awareness programs.
- Introduced Electronic Voting Machines (EVMs) for secure voting.
- Handles election disputes and complaints.
- Engages in international cooperation and election observation programs.
Summery of Class 10th Political Parties
Political Parties in Class 10th offers students valuable insights into the functioning and significance of political parties in India’s democratic system.
By understanding their evolution, roles, and challenges, students can appreciate the dynamic nature of India’s political landscape.
Political parties remain integral to the nation’s governance, providing citizens with a voice and shaping policies that impact the lives of millions.
As future citizens, the knowledge gained from this chapter empowers students to actively engage in the democratic process, fostering a stronger and more inclusive India.
Read Also:
- Power Sharing Notes Class 10th of NCERT Civic Chapter 1
- Outcomes of Democracy Class 10 Notes of NCERT Civics Ch. 7
Frequently Asked Question – FAQs: Class 10th Political Parties
Q 1. What is political party?
A political party is an organized group of individuals with shared political beliefs and ideologies. Its primary goal is to participate in the electoral process to gain political power and influence government policies. Political parties play a vital role in democratic systems, representing the interests and concerns of their members and supporters. They develop policy platforms, nominate candidates for public offices, and engage in campaigns to attract voter support. Through their participation in elections, political parties seek to govern and enact their agenda, shaping the direction of a country’s governance and legislation.
Q 2. Importance of Class 10th political parties chapter in students life?
The importance of studying political parties in a student’s life is multifaceted and far-reaching. Firstly, it promotes civic awareness by helping students understand the functioning of the political system and the role of parties in representing people’s interests. This knowledge nurtures critical thinking as students learn to evaluate diverse ideologies and policies. It installs a sense of social responsibility, encouraging active participation in the democratic process and fostering leadership development through engagement in political discussions and student groups.
Moreover, studying political parties broadens students’ global awareness, as they explore different party systems worldwide and gain insights into international relations. It raises ethical considerations, promoting discussions on transparency, public interests, and corruption avoidance. This empowerment enables students to be proactive advocates for the causes they believe in and facilitates conflict resolution and negotiation skills development.
For those aspiring to careers in politics or public administration, this knowledge serves as a foundation. Additionally, it promotes diversity appreciation by exposing students to various perspectives. Overall, understanding political parties enriches students’ personal growth, cultivates active citizenship, and contributes to creating well-rounded, responsible, and informed global citizens.
Q 3. What are the main features of class 10th political parties?
Political parties in Class 10 are characterized by their organized structure, shared ideology, and participation in elections. They represent the interests of their members and formulate policy platforms. Winning parties or coalitions form the government, while others act as the opposition. Parties engage in election campaigns, use propaganda, and adapt to changing societal demands. Pluralism is evident in democratic societies, with multiple parties representing diverse interests and opinions. Understanding these features helps students comprehend the role and functioning of political parties in a democratic system.