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NDA & Naval Academy General Ability Test

Chemistry

Chemistry introduces the basic principles of matter, chemical changes, elements, compounds, mixtures, symbols, formulae, simple chemical equations, air, water, common gases, acids, bases, salts, carbon, fertilizers, everyday chemical materials, and elementary atomic structure.

General Science Chemistry Competitive Exams

Chemistry introduces the basic principles of matter, chemical changes, elements, compounds, mixtures, symbols, formulae, simple chemical equations, air, water, common gases, acids, bases, salts, carbon, fertilizers, everyday chemical materials, and elementary atomic structure. In competitive examinations, this chapter tests conceptual clarity, scientific observation, and the ability to connect chemistry with daily life.

What is Chemistry?

Chemistry is the branch of science that deals with matter, its composition, structure, properties, and the changes it undergoes. Everything around us—air, water, food, medicines, fuels, soaps, glass, paper, cement, fertilizers, paints, and metals—has a chemical basis.

Chemistry helps students understand the difference between physical and chemical changes, classify substances as elements, compounds, and mixtures, read chemical symbols and formulae, understand common gases, and recognize the role of chemistry in agriculture, industry, health, environment, and daily life.

Quick idea: Chemistry explains what substances are made of, how they behave, and how one substance can change into another under suitable conditions.

Area	What It Covers	Exam Focus
Matter and Changes	Physical changes, chemical changes, elements, mixtures, compounds.	Identification and examples.
Chemical Language	Symbols, formulae, valency, simple equations.	Meaning of symbols and balanced equations.
Air, Water and Gases	Properties of air and water; hydrogen, oxygen, nitrogen, carbon dioxide.	Preparation idea, properties, uses.
Basic Chemical Concepts	Oxidation, reduction, acids, bases, salts, carbon forms.	Definitions and common examples.
Applied Chemistry	Fertilizers, soap, glass, ink, paper, cement, paints, matches, gun-powder awareness.	Materials used and practical importance.

“Chemistry connects the invisible world of atoms with the visible world of daily life.”

Science Tip

Key points

Differentiate physical and chemical changes.
Understand elements, compounds, and mixtures.
Learn common chemical symbols and formulae.
Know basic laws of chemical combination conceptually.
Study air, water, and common gases.
Understand oxidation, reduction, acids, bases, and salts.
Connect chemistry with fertilizers and common industrial products.

matter elements compounds gases acids fertilizers atom

Major Topics Covered in Chemistry

Chemistry is best studied by dividing it into basic concepts, chemical language, common substances, and practical applications.

Matter and Classification

Study of substances and their types.

Physical change
Chemical change
Elements
Compounds
Mixtures

Chemical Language

Symbols and formulae used in chemistry.

Chemical symbols
Formulae
Simple equations
Valency
Molecular weight

Air, Water and Gases

Properties and uses of common substances.

Air composition
Water properties
Hydrogen
Oxygen
Nitrogen
Carbon dioxide

Applied Chemistry

Chemistry used in daily life and industry.

Acids, bases and salts
Carbon forms
Fertilizers
Soap, glass and paper
Cement, paints and ink

Rule: Do not memorize chemistry only as definitions. Learn the meaning, examples, uses, and differences between closely related concepts.

Concept Bank

Physical Change

A change in state, shape, size, or appearance without forming a new substance. Example: melting of ice.

Chemical Change

A change in which a new substance is formed. Example: rusting of iron.

Element

A pure substance made of only one kind of atom. Example: oxygen, iron, carbon.

Compound

A pure substance formed by chemical combination of two or more elements. Example: water, carbon dioxide.

Mixture

A substance formed by physical mixing of two or more substances. Example: air, salt solution.

Valency

Combining capacity of an atom or radical. Example: hydrogen has valency 1.

Oxidation

Addition of oxygen or removal of hydrogen. Example: burning of carbon.

Reduction

Removal of oxygen or addition of hydrogen. Example: extraction of metals from oxides.

Tip: Most exam questions ask for correct classification, examples, properties, or uses.

Chemistry Study Guide

Chemistry questions become easier when the student first identifies whether the question is based on classification, property, reaction, formula, use, or daily-life application.

Question Type	What to Recall	Typical Clue
Change-based question	Physical or chemical change	New substance formed or not formed
Substance classification	Element, compound, or mixture	Pure substance, fixed composition, physical mixing
Chemical equation	Reactants, products, balancing	Arrow sign, formulae, conservation of atoms
Gas-based question	Hydrogen, oxygen, nitrogen, carbon dioxide	Combustion, respiration, photosynthesis, inert nature
Acid-base question	Acids, bases, salts, indicators	Sour taste, bitter taste, neutralization
Daily-life chemistry	Soap, glass, paper, cement, fertilizers, paints	Raw material, use, property

Exam shortcut: For factual chemistry questions, connect every substance with three things: composition, property, and use.

Physical and Chemical Changes

Changes in matter are broadly classified as physical changes and chemical changes. This distinction is very important in elementary chemistry.

Basis	Physical Change	Chemical Change
New substance	No new substance is formed.	One or more new substances are formed.
Nature	Usually temporary and reversible.	Usually permanent and irreversible.
Composition	Chemical composition remains the same.	Chemical composition changes.
Examples	Melting of ice, boiling of water, cutting paper.	Rusting of iron, burning of paper, curdling of milk.

Remember: If a new substance is formed, the change is chemical. If only state, shape, size, or appearance changes, it is generally physical.

Elements, Mixtures and Compounds

Matter can be classified into pure substances and mixtures. Elements and compounds are pure substances, while mixtures are formed by physical combination of substances.

Type	Meaning	Composition	Example
Element	Simplest pure substance made of one kind of atom.	Fixed, only one type of atom.	Iron, gold, oxygen, carbon.
Compound	Pure substance formed by chemical combination of elements.	Fixed ratio by mass.	Water, carbon dioxide, sodium chloride.
Mixture	Physical combination of two or more substances.	Variable composition.	Air, soil, milk, salt solution.

Common trap: Air is a mixture, not a compound, because its gases are physically mixed and their proportions may vary slightly.

Symbols, Formulae and Simple Chemical Equations

Chemistry uses symbols and formulae as a short language to represent elements and compounds. Chemical equations represent chemical reactions using symbols and formulae.

Chemical Symbols

A chemical symbol represents an element.

Hydrogen: H
Oxygen: O
Nitrogen: N
Carbon: C
Sodium: Na
Iron: Fe

Chemical Formulae

A formula represents a molecule or compound.

Water: \(H_2O\)
Carbon dioxide: \(CO_2\)
Oxygen gas: \(O_2\)
Hydrogen gas: \(H_2\)
Sodium chloride: \(NaCl\)
Ammonia: \(NH_3\)

Chemical Equations

A chemical equation shows reactants and products.

\(2H_2 + O_2 \rightarrow 2H_2O\)
\(C + O_2 \rightarrow CO_2\)
\(CaCO_3 \rightarrow CaO + CO_2\)
Atoms should be balanced on both sides.

Balanced equation: A chemical equation is balanced when the number of atoms of each element is equal on both the reactant side and the product side.

Law of Chemical Combination

Laws of chemical combination explain how substances combine during chemical reactions. For this chapter, the focus is on conceptual understanding only, not numerical problems.

Law	Meaning	Simple Idea
Law of Conservation of Mass	Matter is neither created nor destroyed in a chemical reaction.	Total mass of reactants equals total mass of products.
Law of Constant Proportion	A pure compound always contains the same elements in the same fixed proportion by mass.	Pure water always contains hydrogen and oxygen in a fixed ratio.
Law of Multiple Proportion	When two elements form more than one compound, their combining masses show a simple ratio.	Carbon and oxygen form CO and \(CO_2\).

Exam focus: Remember the statement of each law and a simple example. Numerical problems are excluded here.

Properties of Air and Water

Air

Air is a mixture of gases. It is essential for respiration, combustion, weather, and many natural processes.

Mainly contains nitrogen and oxygen.
Contains carbon dioxide, water vapour, and noble gases in small amounts.
Supports burning due to oxygen.
Exerts pressure.
Has mass and occupies space.
Impure air may contain dust, smoke, and harmful gases.

Water

Water is a compound of hydrogen and oxygen. It is essential for life and is known as a universal solvent because it dissolves many substances.

Chemical formula: \(H_2O\)
Pure water is colourless, odourless, and tasteless.
Exists as solid, liquid, and gas.
Boils at \(100^\circ C\) and freezes at \(0^\circ C\) at normal pressure.
Dissolves many salts and gases.
Hard water contains dissolved calcium and magnesium salts.

Remember: Air is a mixture, while water is a compound.

Hydrogen, Oxygen, Nitrogen and Carbon Dioxide

These four gases are important in elementary chemistry because they are connected with respiration, combustion, photosynthesis, industry, agriculture, and daily life.

Gas	Formula	Important Properties	Common Uses / Importance
Hydrogen	\(H_2\)	Lightest gas, highly combustible, forms water on burning.	Fuel cells, manufacture of ammonia, hydrogenation of oils.
Oxygen	\(O_2\)	Supports combustion and respiration; colourless and odourless gas.	Medical oxygen, welding, steel industry, respiration.
Nitrogen	\(N_2\)	Major component of air; relatively inactive under ordinary conditions.	Fertilizer manufacture, food packaging, liquid nitrogen cooling.
Carbon Dioxide	\(CO_2\)	Non-combustible, heavier than air, turns lime water milky.	Fire extinguishers, soft drinks, photosynthesis, dry ice.

Preparation idea: In exams, focus on the general laboratory source, properties, test, and uses of each gas rather than detailed experimental procedures.

Oxidation and Reduction

Oxidation and reduction are opposite processes. In modern chemistry, they are also explained in terms of electron transfer, but at elementary level they are often understood using oxygen and hydrogen.

Process	Elementary Meaning	Modern Meaning	Example Idea
Oxidation	Addition of oxygen or removal of hydrogen.	Loss of electrons.	Burning of carbon to form carbon dioxide.
Reduction	Removal of oxygen or addition of hydrogen.	Gain of electrons.	Metal oxide changing into metal.
Redox Reaction	Oxidation and reduction happen together.	Electron transfer reaction.	Many metal displacement reactions.

Memory aid: OIL RIG means Oxidation Is Loss of electrons and Reduction Is Gain of electrons.

Acids, Bases and Salts

Acids, bases, and salts are very common in daily life. They are found in food, medicines, cleaning agents, soil, fertilizers, and many industrial products.

Type	Properties	Examples	Common Uses
Acids	Sour taste, turn blue litmus red, react with bases to form salts.	Hydrochloric acid, sulphuric acid, acetic acid, citric acid.	Batteries, digestion, food preservation, industry.
Bases	Bitter taste, soapy touch, turn red litmus blue.	Sodium hydroxide, calcium hydroxide, ammonium hydroxide.	Soap making, cleaning agents, neutralizing acids.
Salts	Formed by neutralization of acid and base.	Sodium chloride, calcium carbonate, sodium bicarbonate.	Food, medicine, agriculture, construction.

Neutralization: Acid + Base → Salt + Water. Example: \(HCl + NaOH \rightarrow NaCl + H_2O\).

Carbon and Its Different Forms

Carbon is a very important non-metal. It exists in different forms and forms a large number of compounds. The different forms of the same element are called allotropes.

Form of Carbon	Nature	Properties / Uses
Diamond	Crystalline form of carbon.	Hardest natural substance; used in jewellery and cutting tools.
Graphite	Crystalline form of carbon.	Soft, slippery, conducts electricity; used in pencils and electrodes.
Charcoal	Amorphous form of carbon.	Used as fuel and adsorbent.
Coke	Impure carbon obtained from coal.	Used in metallurgy and as industrial fuel.
Carbon Black	Fine form of carbon.	Used in inks, paints, rubber tyres, and pigments.

Exam focus: Diamond and graphite are both carbon, but their properties differ because of different arrangements of carbon atoms.

Fertilizers: Natural and Artificial

Fertilizers are substances added to soil to improve fertility and plant growth. They supply essential nutrients such as nitrogen, phosphorus, and potassium.

Type	Meaning	Examples	Advantages / Notes
Natural Fertilizers	Obtained from natural sources.	Compost, manure, green manure, bone meal.	Improve soil texture and long-term fertility.
Artificial Fertilizers	Manufactured chemically to supply nutrients.	Urea, ammonium sulphate, superphosphate, NPK fertilizers.	Provide nutrients quickly but should be used carefully.
Nitrogenous Fertilizers	Supply nitrogen.	Urea, ammonium nitrate.	Promote leafy growth.
Phosphatic Fertilizers	Supply phosphorus.	Superphosphate.	Help root development.
Potassic Fertilizers	Supply potassium.	Potassium chloride, potassium sulphate.	Improve disease resistance and plant strength.

Balanced use: Excessive use of artificial fertilizers can affect soil health and water quality. Proper dosage and soil testing are important.

Materials Used in Common Substances

Chemistry is closely connected with everyday materials. Many commonly used items are made from naturally available or industrially processed raw materials.

Substance	Common Materials Used	Important Note
Soap	Oils or fats, alkali such as sodium hydroxide or potassium hydroxide.	Soap is made by saponification.
Glass	Silica, soda ash, limestone.	Used in windows, bottles, lenses, and laboratory ware.
Ink	Dyes or pigments, solvent, stabilizers, and additives.	Used for writing, printing, and marking.
Paper	Cellulose fibres from wood, bamboo, cotton rags, or recycled paper.	Made from plant-based fibres.
Cement	Limestone, clay, gypsum, and other minerals.	Used as a binding material in construction.
Paints	Pigments, binders, solvents, and additives.	Used for protection and decoration of surfaces.
Safety Matches	Wood or cardboard stick, oxidizing agent, binder, glass powder, and striking surface materials.	Safety matches ignite only on a special striking surface.
Gun-powder	Traditionally associated with charcoal, sulphur, and potassium nitrate.	Study only for historical and general awareness; preparation details are not required.

Safety note: For examination purposes, learn only the names of common materials and their uses. Do not attempt to prepare hazardous substances.

Elementary Structure of Atom, Atomic Weight, Molecular Weight and Valency

Atoms are the smallest units of elements that take part in chemical reactions. Understanding atoms helps explain symbols, formulae, valency, and chemical combination.

Structure of Atom

An atom has a central nucleus.
The nucleus contains protons and neutrons.
Electrons revolve around the nucleus in shells.
Protons are positively charged.
Electrons are negatively charged.
Neutrons have no charge.
In a neutral atom, number of protons equals number of electrons.

Atomic and Molecular Terms

Atomic number: Number of protons in an atom.
Mass number: Protons + neutrons.
Atomic weight: Relative mass of an atom.
Equivalent weight: Mass that combines with or replaces a fixed amount of hydrogen or oxygen.
Molecular weight: Sum of atomic weights of atoms in a molecule.
Valency: Combining capacity of an atom.

Example: Molecular weight of water, \(H_2O\), is calculated from 2 hydrogen atoms and 1 oxygen atom. If H = 1 and O = 16, then \(H_2O = 2(1) + 16 = 18\).

Step-by-Step Chemistry Learning Method

Step	Action	Example Focus
Step 1	Identify the topic involved.	Matter, gas, acid-base, atom, fertilizer, or industrial material.
Step 2	Learn the definition clearly.	Element, compound, mixture, oxidation, reduction, valency.
Step 3	Connect each concept with examples.	Air as mixture, water as compound, carbon dioxide as gas.
Step 4	Learn properties and uses.	Oxygen supports combustion; CO₂ used in fire extinguishers.
Step 5	Revise common symbols and formulae.	\(H_2O\), \(CO_2\), \(O_2\), \(NaCl\), \(NH_3\).

Important: Chemistry becomes easy when facts are organized as definition, example, property, and use.

Solved Examples

Question	Explanation	Answer
Is melting of ice a physical or chemical change?	No new substance is formed. Ice only changes from solid to liquid water.	Physical change
Is rusting of iron a physical or chemical change?	Iron reacts with oxygen and moisture to form rust, a new substance.	Chemical change
Classify air as element, compound, or mixture.	Air contains nitrogen, oxygen, carbon dioxide, and other gases physically mixed.	Mixture
What is the formula of water?	Water contains hydrogen and oxygen in fixed proportion.	\(H_2O\)
Which gas supports combustion?	Oxygen is necessary for burning and supports combustion.	Oxygen
Which gas turns lime water milky?	Carbon dioxide reacts with lime water to form calcium carbonate.	Carbon dioxide
What is neutralization?	An acid reacts with a base to form salt and water.	Acid + Base → Salt + Water
What is valency?	Valency is the combining capacity of an atom.	Combining capacity

Note: For Chemistry, solved examples are usually based on identification, classification, properties, uses, and simple chemical meaning.

Common Traps and Shortcuts

Common Traps

Calling air a compound instead of a mixture.
Confusing physical change with chemical change.
Thinking all reversible changes are always physical without checking substance formation.
Confusing oxidation and reduction.
Forgetting that oxygen supports burning but does not itself burn.
Calling diamond and graphite different elements.
Mixing up acids and bases in litmus tests.
Confusing atomic weight and molecular weight.
Ignoring valency while writing formulae.

Useful Shortcuts

New substance formed → chemical change.
No new substance formed → usually physical change.
Fixed composition → compound.
Variable composition → mixture.
Oxygen supports combustion.
Carbon dioxide turns lime water milky.
Acid turns blue litmus red.
Base turns red litmus blue.
Valency means combining capacity.

Exam approach: First identify whether the question is asking for a definition, example, property, use, formula, or comparison. Then answer precisely.

Practice

A) Multiple Choice Questions

Which of the following is a physical change?
Rusting of iron Burning of paper Melting of ice Curdling of milk
Air is best classified as:
Element Compound Mixture Metal
Which gas supports combustion?
Nitrogen Oxygen Carbon dioxide Hydrogen
The formula of carbon dioxide is:
CO CO₂ C₂O CaO
A base turns:
Blue litmus red Red litmus blue Lime water milky Water acidic

B) Short Answer Questions

Differentiate between an element and a compound with one example each. (Hint: One kind of atom vs chemically combined elements.)
Why is air considered a mixture? (Hint: It contains several gases physically mixed.)
What is oxidation in elementary chemistry? (Hint: Addition of oxygen or removal of hydrogen.)
Name two natural and two artificial fertilizers. (Hint: Compost, manure, urea, superphosphate.)
What is valency? (Hint: Combining capacity of an atom.)

C) Match the Concept with the Correct Meaning

Concept	Correct Meaning / Example
Physical Change	No new substance is formed
Chemical Change	New substance is formed
Compound	Elements chemically combined in fixed proportion
Mixture	Substances physically mixed in variable proportion
Oxygen	Supports combustion and respiration
Carbon Dioxide	Turns lime water milky
Acid	Turns blue litmus red
Valency	Combining capacity of an atom

Chemistry Reminder

Chemistry builds the foundation for understanding matter, chemical reactions, elements, compounds, mixtures, gases, acids, bases, salts, fertilizers, industrial materials, and atomic structure. It is a practical science because it explains many things used in daily life and industry.

Task: Create five Chemistry questions using one question each from physical changes, elements-compounds-mixtures, gases, acids-bases-salts, and atomic structure.

Show Suggested Answers

Multiple Choice

Melting of ice
Melting changes only the state of water from solid to liquid. No new substance is formed.
Mixture
Air contains nitrogen, oxygen, carbon dioxide, water vapour, and other gases physically mixed.
Oxygen
Oxygen supports combustion and is necessary for respiration.
CO₂
Carbon dioxide contains one carbon atom and two oxygen atoms.
Red litmus blue
Bases turn red litmus paper blue.

Short Answer Questions

An element is a pure substance made of one kind of atom, such as iron. A compound is formed when two or more elements chemically combine in a fixed proportion, such as water.
Air is considered a mixture because it contains different gases like nitrogen, oxygen, carbon dioxide, and water vapour physically mixed together.
Oxidation means addition of oxygen or removal of hydrogen. In modern terms, it also means loss of electrons.
Natural fertilizers: compost and manure. Artificial fertilizers: urea and superphosphate.
Valency is the combining capacity of an atom or radical.

Concept Matching

Physical Change → No new substance is formed
Chemical Change → New substance is formed
Compound → Elements chemically combined in fixed proportion
Mixture → Substances physically mixed in variable proportion
Oxygen → Supports combustion and respiration
Carbon Dioxide → Turns lime water milky
Acid → Turns blue litmus red
Valency → Combining capacity of an atom

Clue Explanation

In Chemistry, most questions can be answered by identifying whether the concept is about classification, property, formula, use, or reaction. Practice comparing similar concepts such as element-compound-mixture, acid-base-salt, and oxidation-reduction.

Exam tips

Learn definitions with examples.
Compare element, compound, and mixture clearly.
Revise common symbols and formulae.
Remember properties and uses of common gases.
Use litmus tests for acids and bases.
Connect carbon forms with their uses.
Study fertilizers by nutrient supplied.
Learn everyday materials and their raw materials.
Avoid unsafe practical experimentation with hazardous substances.

Practice MCQs

Learning Modules