
Introduction
Acids, bases, and salts are among the most important substances we encounter in our daily lives. From the lemon juice we drink and the vinegar used in cooking to the soap we use for cleaning and the medicines that relieve acidity, these substances play a vital role in our everyday activities.
In this chapter, you will learn how to identify acids and bases using different indicators, understand their physical and chemical properties, explore the concept of the pH scale, and discover how neutralisation reactions occur. You will also study the preparation and uses of important salts such as baking soda, washing soda, bleaching powder, and plaster of Paris, along with their applications in homes, industries, and healthcare.
These Class 10 Science notes are designed according to the latest CBSE syllabus and explain every concept in simple, student-friendly language. With easy explanations, balanced chemical equations, real-life examples, exam tips, and quick revision points, these notes will help you build a strong conceptual foundation and prepare effectively for school and board examinations.
Learning Objectives
After studying this chapter, you will be able to:
- Understand the meaning of acids, bases, and salts.
- Identify the physical and chemical properties of acids and bases.
- Differentiate between strong and weak acids as well as strong and weak bases.
- Explain how natural, synthetic, and olfactory indicators help identify acidic and basic substances.
- Write and understand the chemical reactions of acids and bases with metals, metal carbonates, metal bicarbonates, and metal oxides.
- Understand the concept of neutralisation and its practical applications.
- Explain the pH scale and its importance in everyday life.
- Describe the role of pH in digestion, tooth decay, soil health, and self-defence mechanisms of plants and animals.
- Learn about the preparation, properties, and uses of important salts such as baking soda, washing soda, bleaching powder, and plaster of Paris.
- Solve board exam questions confidently using important definitions, reactions, and revision tips.
What Are Acids?
Acids are substances that produce hydrogen ions (H⁺) when dissolved in water. They usually have a sour taste and can react with metals to produce hydrogen gas. Many naturally occurring substances, such as lemon juice and vinegar, are acidic.
Definition
An acid is a substance that releases hydrogen ions (H⁺) in an aqueous solution.
Common Examples of Acids
| Acid | Chemical Formula | Found In |
|---|---|---|
| Hydrochloric Acid | HCl | Stomach juice |
| Sulphuric Acid | H₂SO₄ | Car batteries |
| Nitric Acid | HNO₃ | Fertiliser industry |
| Acetic Acid | CH₃COOH | Vinegar |
| Citric Acid | C₆H₈O₇ | Lemon, Orange |
| Lactic Acid | C₃H₆O₃ | Curd |
| Tartaric Acid | C₄H₆O₆ | Tamarind, Grapes |
Physical Properties of Acids
Acids possess several characteristic physical properties that help in their identification.
1. Sour Taste
Most acids have a sour taste.
Examples:
- Lemon
- Orange
- Tamarind
- Vinegar
Note: Never taste chemicals in a laboratory to identify them.
2. Conduct Electricity
Acidic solutions conduct electricity because they contain free hydrogen ions (H⁺).
This property makes them electrolytes.
3. Corrosive Nature
Strong acids can corrode metals and damage skin, clothing, and laboratory equipment if handled carelessly.
Examples include:
- Sulphuric acid
- Nitric acid
Always handle acids with proper safety precautions.
4. Turn Blue Litmus Red
Blue litmus paper changes to red when dipped in an acidic solution.
This is one of the simplest tests to identify an acid.
5. pH Less Than 7
Acidic solutions have a pH value below 7.
The lower the pH value, the stronger the acid.
Strong and Weak Acids
Acids are classified based on the extent to which they ionise in water.
| Strong Acids | Weak Acids |
|---|---|
| Ionise completely in water | Ionise partially in water |
| Produce more H⁺ ions | Produce fewer H⁺ ions |
| Highly reactive | Comparatively less reactive |
| HCl, H₂SO₄, HNO₃ | CH₃COOH, Citric Acid, Carbonic Acid |
Did You Know?
The human stomach secretes hydrochloric acid (HCl), which helps digest food and destroys harmful microorganisms. To prevent damage to the stomach lining, the stomach produces a protective layer of mucus.
Exam Tip
Remember: All acids contain hydrogen, but not all hydrogen-containing compounds behave as acids. For example, glucose (C₆H₁₂O₆) and alcohol (C₂H₅OH) contain hydrogen but do not release H⁺ ions in water, so they are not acids.
What Are Bases?
Bases are substances that produce hydroxide ions (OH⁻) when dissolved in water. They are generally bitter in taste and have a slippery or soapy feel. Bases are commonly found in soaps, detergents, toothpaste, and many household cleaning products.
Bases play an important role in neutralising acids and are widely used in industries, agriculture, medicine, and everyday life.
Definition
A base is a substance that releases hydroxide ions (OH⁻) in an aqueous solution.
Common Examples of Bases
| Base | Chemical Formula | Common Uses |
|---|---|---|
| Sodium Hydroxide | NaOH | Soap and paper manufacturing |
| Potassium Hydroxide | KOH | Soft soap and alkaline batteries |
| Calcium Hydroxide | Ca(OH)₂ | Whitewashing and water treatment |
| Magnesium Hydroxide | Mg(OH)₂ | Antacid (Milk of Magnesia) |
| Ammonium Hydroxide | NH₄OH | Household cleaning solutions |
Physical Properties of Bases
Bases have several characteristic properties that help distinguish them from acids.
1. Bitter Taste
Most bases have a bitter taste.
Examples:
- Baking soda solution
- Soap solution
Safety Note: Never taste chemicals in a laboratory.
2. Slippery or Soapy Feel
Bases feel slippery when touched because they react with the natural oils present on the skin.
Examples:
- Soap solution
- Detergent solution
3. Turn Red Litmus Blue
A base changes red litmus paper to blue.
This is one of the simplest tests used to identify a basic solution.
4. Conduct Electricity
Aqueous solutions of bases conduct electricity because they contain free hydroxide ions (OH⁻).
Therefore, bases are also electrolytes.
5. pH Greater Than 7
Basic solutions have a pH value greater than 7.
The higher the pH value, the stronger the base.
Strong and Weak Bases
Bases are classified according to the extent to which they produce hydroxide ions in water.
| Strong Bases | Weak Bases |
|---|---|
| Ionise completely in water | Ionise partially in water |
| Produce more OH⁻ ions | Produce fewer OH⁻ ions |
| Highly reactive | Comparatively less reactive |
| NaOH, KOH | NH₄OH, Mg(OH)₂ |
Difference Between Strong and Weak Bases
| Property | Strong Bases | Weak Bases |
|---|---|---|
| Ionisation | Complete | Partial |
| OH⁻ Ion Concentration | High | Low |
| pH Value | Usually 12–14 | Usually 8–11 |
| Examples | NaOH, KOH | NH₄OH, Mg(OH)₂ |
What Are Indicators?
Indicators are substances that help determine whether a solution is acidic, basic, or neutral by changing colour or producing a characteristic smell.
They are commonly used in laboratories, industries, and educational experiments.
Definition
An indicator is a substance that changes colour or smell in acidic and basic solutions.
Types of Indicators
Indicators are classified into three main categories:
- Natural Indicators
- Synthetic Indicators
- Olfactory Indicators
1. Natural Indicators
Natural indicators are obtained from plants and other natural sources.
(a) Litmus
Litmus is extracted from lichens and is the most commonly used natural indicator.
Colour Change
| Solution | Blue Litmus | Red Litmus |
|---|---|---|
| Acidic | Turns Red | No Change |
| Basic | No Change | Turns Blue |
| Neutral | No Change | No Change |
(b) Turmeric
Turmeric acts as a natural indicator.
| Solution | Colour Change |
|---|---|
| Acidic | Yellow (No Change) |
| Basic | Reddish-Brown |
(c) China Rose (Hibiscus)
Extract from China rose flowers acts as a natural indicator.
| Solution | Colour |
|---|---|
| Acidic | Dark Pink / Magenta |
| Basic | Green |
2. Synthetic Indicators
Synthetic indicators are man-made chemicals used in laboratories for accurate testing.
(a) Phenolphthalein
| Solution | Colour |
|---|---|
| Acidic | Colourless |
| Neutral | Colourless |
| Basic | Pink |
(b) Methyl Orange
| Solution | Colour |
|---|---|
| Acidic | Red |
| Neutral | Orange |
| Basic | Yellow |
Difference Between Phenolphthalein and Methyl Orange
| Phenolphthalein | Methyl Orange |
|---|---|
| Colourless in acids | Red in acids |
| Pink in bases | Yellow in bases |
3. Olfactory Indicators
Olfactory indicators are substances whose smell changes in acidic and basic solutions.
Common Olfactory Indicators
- Onion
- Vanilla essence
- Clove oil
Observation
| Indicator | Acidic Solution | Basic Solution |
|---|---|---|
| Onion | Smell remains | Smell disappears |
| Vanilla | Smell remains | Smell disappears |
| Clove Oil | Smell remains | Smell disappears |
Summary of Indicators
| Indicator | Acid | Base |
|---|---|---|
| Blue Litmus | Turns Red | No Change |
| Red Litmus | No Change | Turns Blue |
| Turmeric | Yellow | Reddish-Brown |
| China Rose | Dark Pink | Green |
| Phenolphthalein | Colourless | Pink |
| Methyl Orange | Red | Yellow |
Everyday Uses of Indicators
- Testing soil pH in agriculture
- Water quality testing
- Laboratory experiments
- Medical diagnosis
- Food industry
- Chemical manufacturing
Did You Know?
The pH paper used in science laboratories is made by combining several indicators. This allows it to display different colours over a wide range of pH values, making it more accurate than using a single indicator.
Exam Tip
Remember these colour changes:
- Blue Litmus → Red in Acid
- Red Litmus → Blue in Base
- Phenolphthalein → Pink in Base
- Methyl Orange → Red in Acid
- Turmeric → Reddish-Brown in Base
These are among the most frequently tested concepts in CBSE Class 10 Science examinations.
Quick Revision
- Bases release OH⁻ ions in water.
- Bases are bitter, slippery, and have a pH greater than 7.
- Strong bases ionise completely, while weak bases ionise only partially.
- Indicators help identify acidic and basic solutions.
- Natural indicators include litmus, turmeric, and China rose.
- Synthetic indicators include phenolphthalein and methyl orange.
- Olfactory indicators such as onion, vanilla, and clove oil change their smell in basic solutions.
What Are Bases?
Bases are substances that produce hydroxide ions (OH⁻) when dissolved in water. They are generally bitter in taste and have a slippery or soapy feel. Bases are commonly found in soaps, detergents, toothpaste, and many household cleaning products.
Bases play an important role in neutralising acids and are widely used in industries, agriculture, medicine, and everyday life.
Definition
A base is a substance that releases hydroxide ions (OH⁻) in an aqueous solution.
Common Examples of Bases
| Base | Chemical Formula | Common Uses |
|---|---|---|
| Sodium Hydroxide | NaOH | Soap and paper manufacturing |
| Potassium Hydroxide | KOH | Soft soap and alkaline batteries |
| Calcium Hydroxide | Ca(OH)₂ | Whitewashing and water treatment |
| Magnesium Hydroxide | Mg(OH)₂ | Antacid (Milk of Magnesia) |
| Ammonium Hydroxide | NH₄OH | Household cleaning solutions |
Physical Properties of Bases
Bases have several characteristic properties that help distinguish them from acids.
1. Bitter Taste
Most bases have a bitter taste.
Examples:
- Baking soda solution
- Soap solution
Safety Note: Never taste chemicals in a laboratory.
2. Slippery or Soapy Feel
Bases feel slippery when touched because they react with the natural oils present on the skin.
Examples:
- Soap solution
- Detergent solution
3. Turn Red Litmus Blue
A base changes red litmus paper to blue.
This is one of the simplest tests used to identify a basic solution.
4. Conduct Electricity
Aqueous solutions of bases conduct electricity because they contain free hydroxide ions (OH⁻).
Therefore, bases are also electrolytes.
5. pH Greater Than 7
Basic solutions have a pH value greater than 7.
The higher the pH value, the stronger the base.
Strong and Weak Bases
Bases are classified according to the extent to which they produce hydroxide ions in water.
| Strong Bases | Weak Bases |
|---|---|
| Ionise completely in water | Ionise partially in water |
| Produce more OH⁻ ions | Produce fewer OH⁻ ions |
| Highly reactive | Comparatively less reactive |
| NaOH, KOH | NH₄OH, Mg(OH)₂ |
Difference Between Strong and Weak Bases
| Property | Strong Bases | Weak Bases |
|---|---|---|
| Ionisation | Complete | Partial |
| OH⁻ Ion Concentration | High | Low |
| pH Value | Usually 12–14 | Usually 8–11 |
| Examples | NaOH, KOH | NH₄OH, Mg(OH)₂ |
What Are Indicators?
Indicators are substances that help determine whether a solution is acidic, basic, or neutral by changing colour or producing a characteristic smell.
They are commonly used in laboratories, industries, and educational experiments.
Definition
An indicator is a substance that changes colour or smell in acidic and basic solutions.
Types of Indicators
Indicators are classified into three main categories:
- Natural Indicators
- Synthetic Indicators
- Olfactory Indicators
1. Natural Indicators
Natural indicators are obtained from plants and other natural sources.
(a) Litmus
Litmus is extracted from lichens and is the most commonly used natural indicator.
Colour Change
| Solution | Blue Litmus | Red Litmus |
|---|---|---|
| Acidic | Turns Red | No Change |
| Basic | No Change | Turns Blue |
| Neutral | No Change | No Change |
(b) Turmeric
Turmeric acts as a natural indicator.
| Solution | Colour Change |
|---|---|
| Acidic | Yellow (No Change) |
| Basic | Reddish-Brown |
(c) China Rose (Hibiscus)
Extract from China rose flowers acts as a natural indicator.
| Solution | Colour |
|---|---|
| Acidic | Dark Pink / Magenta |
| Basic | Green |
2. Synthetic Indicators
Synthetic indicators are man-made chemicals used in laboratories for accurate testing.
(a) Phenolphthalein
| Solution | Colour |
|---|---|
| Acidic | Colourless |
| Neutral | Colourless |
| Basic | Pink |
(b) Methyl Orange
| Solution | Colour |
|---|---|
| Acidic | Red |
| Neutral | Orange |
| Basic | Yellow |
Difference Between Phenolphthalein and Methyl Orange
| Phenolphthalein | Methyl Orange |
|---|---|
| Colourless in acids | Red in acids |
| Pink in bases | Yellow in bases |
3. Olfactory Indicators
Olfactory indicators are substances whose smell changes in acidic and basic solutions.
Common Olfactory Indicators
- Onion
- Vanilla essence
- Clove oil
Observation
| Indicator | Acidic Solution | Basic Solution |
|---|---|---|
| Onion | Smell remains | Smell disappears |
| Vanilla | Smell remains | Smell disappears |
| Clove Oil | Smell remains | Smell disappears |
Summary of Indicators
| Indicator | Acid | Base |
|---|---|---|
| Blue Litmus | Turns Red | No Change |
| Red Litmus | No Change | Turns Blue |
| Turmeric | Yellow | Reddish-Brown |
| China Rose | Dark Pink | Green |
| Phenolphthalein | Colourless | Pink |
| Methyl Orange | Red | Yellow |
Everyday Uses of Indicators
- Testing soil pH in agriculture
- Water quality testing
- Laboratory experiments
- Medical diagnosis
- Food industry
- Chemical manufacturing
Did You Know?
The pH paper used in science laboratories is made by combining several indicators. This allows it to display different colours over a wide range of pH values, making it more accurate than using a single indicator.
Exam Tip
Remember these colour changes:
- Blue Litmus → Red in Acid
- Red Litmus → Blue in Base
- Phenolphthalein → Pink in Base
- Methyl Orange → Red in Acid
- Turmeric → Reddish-Brown in Base
These are among the most frequently tested concepts in CBSE Class 10 Science examinations.
Quick Revision
- Bases release OH⁻ ions in water.
- Bases are bitter, slippery, and have a pH greater than 7.
- Strong bases ionise completely, while weak bases ionise only partially.
- Indicators help identify acidic and basic solutions.
- Natural indicators include litmus, turmeric, and China rose.
- Synthetic indicators include phenolphthalein and methyl orange.
- Olfactory indicators such as onion, vanilla, and clove oil change their smell in basic solutions.
Chemical Properties of Acids and Bases
Chemical properties describe how acids and bases react with other substances. These reactions are among the most important topics in the CBSE Class 10 Science syllabus and are frequently tested in board examinations.
In this section, you will learn how acids and bases react with metals, metal carbonates, metal bicarbonates, metal oxides, and non-metal oxides. You will also study the neutralisation reaction, which is widely used in everyday life and various industries.
1. Reaction of Acids with Metals
When acids react with metals, they produce salt and hydrogen gas.
General Equation
Acid + Metal → Salt + Hydrogen Gas (H₂)
Example 1
Zn + 2HCl → ZnCl₂ + H₂↑
Observation:
- Bubbles of hydrogen gas are produced.
- Zinc gradually dissolves in hydrochloric acid.
- The reaction is exothermic (heat is released).
Example 2
Mg + 2HCl → MgCl₂ + H₂↑
Magnesium reacts vigorously with hydrochloric acid to produce hydrogen gas.
Test for Hydrogen Gas
Hydrogen gas burns with a ‘pop’ sound when a burning splint is brought near it.
This is the standard laboratory test for identifying hydrogen gas.
Important Note
Not all metals react with dilute acids.
For example:
- Copper (Cu)
- Silver (Ag)
- Gold (Au)
These metals are less reactive and do not react with dilute hydrochloric acid.
2. Reaction of Acids with Metal Carbonates
Acids react with metal carbonates to produce:
- Salt
- Water
- Carbon dioxide gas
General Equation
Acid + Metal Carbonate → Salt + Water + Carbon Dioxide
Example
CaCO₃ + 2HCl → CaCl₂ + H₂O + CO₂↑
Observation
- Brisk effervescence is observed.
- Carbon dioxide gas is evolved.
Test for Carbon Dioxide
Pass the gas through lime water.
CO₂ + Ca(OH)₂ → CaCO₃ + H₂O
Observation:
Lime water turns milky due to the formation of calcium carbonate.
3. Reaction of Acids with Metal Bicarbonates
Metal bicarbonates also react with acids to produce:
- Salt
- Water
- Carbon dioxide gas
General Equation
Acid + Metal Bicarbonate → Salt + Water + Carbon Dioxide
Example
NaHCO₃ + HCl → NaCl + H₂O + CO₂↑
Everyday Example
Baking soda reacts with lemon juice or vinegar, releasing carbon dioxide gas. This reaction makes cakes and bread soft and fluffy.
Difference Between Carbonates and Bicarbonates
| Metal Carbonates | Metal Bicarbonates |
|---|---|
| Example: CaCO₃ | Example: NaHCO₃ |
| Produce CO₂ with acids | Produce CO₂ with acids |
| Usually less soluble | More soluble in water |
4. Reaction of Acids with Metal Oxides
Metal oxides are generally basic in nature.
They react with acids to produce:
- Salt
- Water
General Equation
Acid + Metal Oxide → Salt + Water
Example
CuO + 2HCl → CuCl₂ + H₂O
Observation
- Black copper oxide dissolves.
- Blue-green copper chloride solution is formed.
Another Example
MgO + 2HCl → MgCl₂ + H₂O
Why Are Metal Oxides Called Basic Oxides?
Metal oxides neutralise acids to produce salt and water.
Therefore, they behave like bases.
5. Reaction of Bases with Non-Metal Oxides
Non-metal oxides are generally acidic in nature.
They react with bases to form:
- Salt
- Water
General Equation
Base + Non-Metal Oxide → Salt + Water
Example
Ca(OH)₂ + CO₂ → CaCO₃ + H₂O
Observation
- White precipitate of calcium carbonate is formed.
- Lime water turns milky.
Why Are Non-Metal Oxides Called Acidic Oxides?
They react with bases just as acids do.
Hence, they are known as acidic oxides.
6. Neutralisation Reaction
One of the most important chemical reactions involving acids and bases is the neutralisation reaction.
Definition
A neutralisation reaction is a chemical reaction in which an acid reacts with a base to produce salt and water.
General Equation
Acid + Base → Salt + Water
Example
HCl + NaOH → NaCl + H₂O
Hydrochloric acid reacts with sodium hydroxide to form sodium chloride (common salt) and water.
Another Example
H₂SO₄ + 2NaOH → Na₂SO₄ + 2H₂O
Characteristics of Neutralisation
- Heat is released (exothermic reaction).
- Salt and water are formed.
- The acidic and basic properties are neutralised.
Everyday Applications of Neutralisation
1. Indigestion
Excess hydrochloric acid in the stomach causes acidity.
Antacids such as Milk of Magnesia (Mg(OH)₂) neutralise the excess acid and provide relief.
2. Ant Bite
An ant bite injects formic acid into the skin.
Applying baking soda paste or calamine lotion helps neutralise the acid and reduces irritation.
3. Soil Treatment
- Acidic soil is treated with quick lime (CaO) or slaked lime [Ca(OH)₂].
- Basic soil is treated with organic compost to reduce alkalinity.
4. Factory Waste
Industrial waste often contains acids.
These acidic wastes are neutralised before being released into rivers to reduce environmental pollution.
Summary of Important Reactions
| Reaction | Products Formed |
|---|---|
| Acid + Metal | Salt + Hydrogen Gas |
| Acid + Metal Carbonate | Salt + Water + CO₂ |
| Acid + Metal Bicarbonate | Salt + Water + CO₂ |
| Acid + Metal Oxide | Salt + Water |
| Base + Non-Metal Oxide | Salt + Water |
| Acid + Base | Salt + Water |
Important Chemical Equations
Zinc with Hydrochloric Acid
Zn + 2HCl → ZnCl₂ + H₂↑
Calcium Carbonate with Hydrochloric Acid
CaCO₃ + 2HCl → CaCl₂ + H₂O + CO₂↑
Sodium Bicarbonate with Hydrochloric Acid
NaHCO₃ + HCl → NaCl + H₂O + CO₂↑
Copper Oxide with Hydrochloric Acid
CuO + 2HCl → CuCl₂ + H₂O
Carbon Dioxide with Lime Water
Ca(OH)₂ + CO₂ → CaCO₃ + H₂O
Neutralisation Reaction
HCl + NaOH → NaCl + H₂O
Did You Know?
Fire extinguishers used for electrical and oil fires often contain sodium hydrogen carbonate (baking soda). When heated, it releases carbon dioxide gas, which helps smother the fire by cutting off the oxygen supply.
Exam Tip
Memorise the products formed in each type of reaction. In board exams, questions often ask you to identify the products or complete a chemical equation. Understanding the reaction pattern is more effective than rote memorisation.
Quick Revision
- Acids react with metals to produce salt and hydrogen gas.
- Acids react with metal carbonates and bicarbonates to produce salt, water, and carbon dioxide.
- Acids react with metal oxides to form salt and water.
- Bases react with non-metal oxides to produce salt and water.
- Neutralisation is the reaction between an acid and a base, producing salt and water.
- Carbon dioxide turns lime water milky.
- Hydrogen gas burns with a characteristic ‘pop’ sound.
The pH Scale and Its Importance in Everyday Life
The strength of acids and bases can be measured using the pH scale. The term pH stands for “potential of Hydrogen”, which indicates the concentration of hydrogen ions (H⁺) present in a solution.
The pH scale helps us determine whether a solution is acidic, basic, or neutral. It has numerous applications in medicine, agriculture, industries, environmental science, and our daily lives.
What is the pH Scale?
The pH scale is a numerical scale ranging from 0 to 14.
- pH = 7 → Neutral
- pH less than 7 → Acidic
- pH greater than 7 → Basic (Alkaline)
The lower the pH value, the stronger the acid.
The higher the pH value, the stronger the base.
pH Scale Chart
| pH Value | Nature of Solution |
|---|---|
| 0–3 | Strongly Acidic |
| 4–6 | Weakly Acidic |
| 7 | Neutral |
| 8–10 | Weakly Basic |
| 11–14 | Strongly Basic |
Universal Indicator
A universal indicator is a mixture of several indicators that produces different colours at different pH values.
It provides a more accurate estimate of pH than litmus paper.
Colour Changes of Universal Indicator
| pH Range | Colour |
|---|---|
| 0–2 | Red |
| 3–4 | Orange |
| 5–6 | Yellow |
| 7 | Green |
| 8–9 | Blue-Green |
| 10–11 | Blue |
| 12–14 | Violet/Purple |
Importance of pH in Everyday Life
The concept of pH is closely connected with many biological and environmental processes.
1. pH in Our Digestive System
Our stomach produces hydrochloric acid (HCl) to help digest food and destroy harmful microorganisms.
Sometimes, excess acid is produced, leading to indigestion or acidity.
How is Acidity Controlled?
Doctors recommend antacids, which are mild bases.
Common antacids include:
- Magnesium hydroxide (Milk of Magnesia)
- Sodium hydrogen carbonate
These neutralise excess stomach acid and provide relief.
2. pH and Tooth Decay
The normal pH of our mouth is around 6.5 to 7.5.
When we consume sugary foods, bacteria present in the mouth produce acids.
If the pH falls below 5.5, the enamel of the teeth begins to dissolve, leading to tooth decay.
Prevention
- Brush your teeth twice a day.
- Avoid excessive sugary foods.
- Use toothpaste, which is generally basic and helps neutralise acids.
3. pH of Soil
Plants require a suitable soil pH for healthy growth.
Most crops grow well in slightly acidic to neutral soil (pH 6.5–7.5).
If Soil is Too Acidic
Farmers add:
- Quick lime (CaO)
- Slaked lime [Ca(OH)₂]
These substances increase the soil pH.
If Soil is Too Basic
Organic manure or compost is added to lower the pH gradually.
4. Self-Defence by Plants and Animals
Many plants and animals use acids or bases as a defence mechanism.
Ant Bite
Ants inject formic acid, causing pain and irritation.
Applying baking soda paste or calamine lotion helps neutralise the acid.
Bee Sting
Bee stings are also acidic in nature.
A mild base such as baking soda can help reduce discomfort.
Wasp Sting
Some wasp stings are alkaline (basic).
Applying a weak acid such as vinegar may help neutralise the sting.
5. Acid Rain
Acid rain forms when sulphur dioxide (SO₂) and nitrogen oxides (NOₓ) react with water vapour in the atmosphere.
Harmful Effects
- Damages crops
- Corrodes buildings and monuments
- Pollutes lakes and rivers
- Harms aquatic life
Reducing industrial pollution and vehicle emissions helps control acid rain.
Common Salts
Salts are ionic compounds generally formed during neutralisation reactions.
Many salts are useful in everyday life.
Some important salts included in the CBSE syllabus are:
- Sodium Chloride
- Baking Soda
- Washing Soda
- Bleaching Powder
- Plaster of Paris
1. Sodium Chloride (Common Salt)
Chemical Formula
NaCl
Preparation
Produced by the reaction:
HCl + NaOH → NaCl + H₂O
Uses
- Cooking
- Food preservation
- Manufacture of chemicals
- Preparation of sodium hydroxide
2. Baking Soda
Chemical Name
Sodium Hydrogen Carbonate
Chemical Formula
NaHCO₃
Preparation
Baking soda is prepared by the Solvay Process.
Properties
- White crystalline powder
- Mildly basic
- Soluble in water
Uses
- Baking cakes and bread
- Fire extinguishers
- Antacid
- Soda-acid fire extinguishers
Heating Baking Soda
When heated,
2NaHCO₃ → Na₂CO₃ + H₂O + CO₂
Carbon dioxide released makes cakes and bread soft and fluffy.
3. Washing Soda
Chemical Name
Sodium Carbonate Decahydrate
Chemical Formula
Na₂CO₃·10H₂O
Preparation
Heating baking soda produces sodium carbonate.
Adding water forms washing soda crystals.
Uses
- Softening hard water
- Cleaning agent
- Glass industry
- Soap industry
- Paper industry
4. Bleaching Powder
Chemical Formula
CaOCl₂
Preparation
Prepared by passing chlorine gas over dry slaked lime.
Uses
- Disinfecting drinking water
- Bleaching cotton and linen
- Textile industry
- Paper industry
- Swimming pools
5. Plaster of Paris (POP)
Chemical Name
Calcium Sulphate Hemihydrate
Chemical Formula
CaSO₄·½H₂O
Preparation
Obtained by heating gypsum.
CaSO₄·2H₂O → CaSO₄·½H₂O + 1½H₂O
Properties
- White powder
- Sets into a hard mass when mixed with water
- Easy to mould
Uses
- Orthopaedic casts
- Decorative items
- Statues
- False ceilings
- Toys
- Chalks
Water of Crystallisation
Some salts contain a fixed number of water molecules within their crystal structure.
This water is called water of crystallisation.
Definition
Water of crystallisation is the fixed number of water molecules chemically bound to one formula unit of a salt.
Examples
| Salt | Formula |
|---|---|
| Washing Soda | Na₂CO₃·10H₂O |
| Gypsum | CaSO₄·2H₂O |
| Copper Sulphate | CuSO₄·5H₂O |
Why is Water of Crystallisation Important?
It:
- Maintains the crystal structure.
- Gives the salt its characteristic colour.
- Affects the physical properties of salts.
Important Chemical Equations
Formation of Common Salt
HCl + NaOH → NaCl + H₂O
Heating Baking Soda
2NaHCO₃ → Na₂CO₃ + H₂O + CO₂
Formation of Plaster of Paris
CaSO₄·2H₂O → CaSO₄·½H₂O + 1½H₂O
Did You Know?
The Taj Mahal is affected by acid rain, which gradually damages its marble surface. Environmental protection measures are important to preserve such historical monuments.
Exam Tip
Remember the chemical names, formulae, preparation methods, and uses of Baking Soda, Washing Soda, Bleaching Powder, and Plaster of Paris. Questions based on these compounds appear regularly in CBSE board examinations.
Quick Revision
- The pH scale ranges from 0 to 14.
- pH 7 is neutral.
- Acids have pH below 7.
- Bases have pH above 7.
- Universal indicator shows different colours for different pH values.
- Tooth enamel begins to dissolve when the mouth’s pH falls below 5.5.
- Antacids neutralise excess stomach acid.
- Baking soda is NaHCO₃.
- Washing soda is Na₂CO₃·10H₂O.
- Bleaching powder is CaOCl₂.
- Plaster of Paris is CaSO₄·½H₂O.
- Water of crystallisation is chemically bound water present in certain salts.
Chapter Summary, Important Definitions, FAQs & Board Exam Preparation
Congratulations! You have completed Chapter 2 – Acids, Bases and Salts. This final section will help you revise the entire chapter quickly and prepare effectively for the CBSE Board Examination.
Important Definitions
Acid
A substance that releases hydrogen ions (H⁺) when dissolved in water.
Base
A substance that releases hydroxide ions (OH⁻) when dissolved in water.
Alkali
A base that is soluble in water.
Examples: Sodium hydroxide (NaOH), Potassium hydroxide (KOH)
Salt
An ionic compound formed when an acid reacts with a base during a neutralisation reaction.
Indicator
A substance that changes colour (or smell) to indicate whether a solution is acidic or basic.
Universal Indicator
A mixture of indicators that shows different colours over a wide range of pH values.
Neutralisation
A chemical reaction between an acid and a base to produce salt and water.
pH Scale
A numerical scale from 0 to 14 used to measure the acidity or basicity of a solution.
Water of Crystallisation
The fixed number of water molecules chemically combined with one formula unit of a crystalline salt.
NCERT Keywords
- Acid
- Base
- Alkali
- Salt
- Indicator
- Litmus
- Turmeric
- China Rose Indicator
- Phenolphthalein
- Methyl Orange
- Olfactory Indicator
- Universal Indicator
- pH Scale
- Neutralisation
- Water of Crystallisation
- Baking Soda
- Washing Soda
- Bleaching Powder
- Plaster of Paris
- Gypsum
Important Chemical Formulae
| Compound | Formula |
|---|---|
| Hydrochloric Acid | HCl |
| Sulphuric Acid | H₂SO₄ |
| Nitric Acid | HNO₃ |
| Acetic Acid | CH₃COOH |
| Sodium Hydroxide | NaOH |
| Potassium Hydroxide | KOH |
| Calcium Hydroxide | Ca(OH)₂ |
| Magnesium Hydroxide | Mg(OH)₂ |
| Sodium Chloride | NaCl |
| Baking Soda | NaHCO₃ |
| Washing Soda | Na₂CO₃·10H₂O |
| Bleaching Powder | CaOCl₂ |
| Plaster of Paris | CaSO₄·½H₂O |
| Gypsum | CaSO₄·2H₂O |
Important Chemical Equations
Acid + Metal
Zn + 2HCl → ZnCl₂ + H₂↑
Acid + Metal Carbonate
CaCO₃ + 2HCl → CaCl₂ + H₂O + CO₂↑
Acid + Metal Bicarbonate
NaHCO₃ + HCl → NaCl + H₂O + CO₂↑
Acid + Base (Neutralisation)
HCl + NaOH → NaCl + H₂O
Heating Baking Soda
2NaHCO₃ → Na₂CO₃ + H₂O + CO₂
Formation of Plaster of Paris
CaSO₄·2H₂O → CaSO₄·½H₂O + 1½H₂O
Important Differences
Difference Between Acids and Bases
| Acids | Bases |
|---|---|
| Release H⁺ ions | Release OH⁻ ions |
| Sour in taste | Bitter in taste |
| Turn blue litmus red | Turn red litmus blue |
| pH below 7 | pH above 7 |
| React with metals to release H₂ | Neutralise acids |
Difference Between Strong and Weak Acids
| Strong Acids | Weak Acids |
|---|---|
| Ionise completely | Ionise partially |
| HCl, H₂SO₄ | CH₃COOH, Citric Acid |
Difference Between Strong and Weak Bases
| Strong Bases | Weak Bases |
|---|---|
| NaOH, KOH | NH₄OH, Mg(OH)₂ |
One-Page Quick Revision
✅ Acids release H⁺ ions.
✅ Bases release OH⁻ ions.
✅ Acids turn blue litmus red.
✅ Bases turn red litmus blue.
✅ Neutralisation produces salt + water.
✅ pH less than 7 indicates an acid.
✅ pH greater than 7 indicates a base.
✅ pH 7 is neutral.
✅ Tooth enamel starts dissolving below pH 5.5.
✅ Antacids neutralise excess stomach acid.
✅ Baking Soda = NaHCO₃
✅ Washing Soda = Na₂CO₃·10H₂O
✅ Bleaching Powder = CaOCl₂
✅ Plaster of Paris = CaSO₄·½H₂O
Frequently Asked Questions (FAQs)
1. What is an acid?
An acid is a substance that releases hydrogen ions (H⁺) in an aqueous solution.
2. What is a base?
A base is a substance that releases hydroxide ions (OH⁻) in water.
3. What is an alkali?
An alkali is a water-soluble base.
4. What is the pH of a neutral solution?
A neutral solution has a pH of 7.
5. Why does tooth decay occur?
Tooth decay occurs when bacteria produce acids that lower the pH in the mouth below 5.5, causing the enamel to dissolve.
6. Why are antacids used?
Antacids are mild bases that neutralise excess hydrochloric acid in the stomach and relieve acidity.
7. Why is baking soda used in cakes?
When heated, baking soda releases carbon dioxide gas, making cakes and bread soft and fluffy.
8. What is water of crystallisation?
It is the fixed number of water molecules chemically attached to one formula unit of a crystalline salt.
9. What is the chemical formula of Plaster of Paris?
CaSO₄·½H₂O
10. Name two natural indicators.
- Litmus
- Turmeric
Board Exam Tips
Most Important Topics
⭐ Properties of acids and bases
⭐ Indicators and their colour changes
⭐ Reactions of acids and bases
⭐ pH scale
⭐ Importance of pH in everyday life
⭐ Common salts
⭐ Water of crystallisation
⭐ Chemical equations
Frequently Asked Board Questions
- Define acids, bases, and salts.
- Explain neutralisation with an example.
- Draw the pH scale.
- Why does tooth decay occur below pH 5.5?
- Write the preparation and uses of baking soda.
- Differentiate between strong and weak acids.
- Explain water of crystallisation with examples.
- Give the chemical formulae of important compounds.
Chapter Summary
In this chapter, you learned that acids, bases, and salts are essential substances used in daily life, laboratories, and industries. You studied their properties, indicators used to identify them, and their reactions with different substances. The concept of the pH scale explained how the strength of acids and bases is measured and why maintaining the correct pH is important for human health, agriculture, and the environment.
The chapter also introduced important salts such as baking soda, washing soda, bleaching powder, and plaster of Paris, along with their preparation, properties, and practical applications. These concepts form the foundation for understanding many chemical processes and are highly relevant for CBSE board examinations.
💡 Did You Know?
The pH of human blood is maintained between 7.35 and 7.45. Even a small change in this range can seriously affect the normal functioning of the body, which is why maintaining pH balance is essential for good health.
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✅ Assertion & Reason Questions
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