CBSE Class 10 Science Notes - Chemical Reactions and Equations PDF

Summary

This document provides revision notes on chemical reactions and equations for Class 10 Science. It covers various aspects such as chemical changes, observations in chemical reactions, chemical formulae, chemical equations, and balancing chemical equations. The notes also discuss different types of reactions and examples.

Full Transcript

Revision Notes for Class 10 Science

Chapter 1 – Chemical Reactions and Equations

Chemical Change: A change that results in the formation of one or more new compounds.
Chemical changes are also known as chemical reactions.

Observations in a Chemical Reaction

In a chemical reaction or chemical change, the following observations can be made,

Formation of new substances.

Change in mass.

Changes in energy.

Evolution of gas.

Change in temperature.

Permanent change in colour and/or state.

Formation of a precipitate.

Examples :

A. Cooking of food

B. Rusting of iron

C. Heating of Lead nitrate

D. Souring of milk

E. Ripening of fruit.

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Chemical Formulae - A substance's chemical formula is a symbolic representation of the
number of atoms present in a single molecule of that material.

a. One water molecule has the formula H2O. It demonstrates that one molecule of water is
made up of two hydrogen atoms and one oxygen atom.

b. One molecule of sulphuric acid has the formula H2SO4. It illustrates that one molecule of
sulphuric acid has 2 hydrogen atoms, 1 sulphur atom, and 4 oxygen atoms.

Chemical Equations - The chemical equation of the reaction is the representation of a
chemical change in terms of symbols and formulae of the reactants and products.

Example:

KMnO4 + HCl → KCl + MnCl2 + H 2O + Cl2
Potassium Hydrochloric Potassium Manganese Water Chlorine
permanganate acid chloride chloride

Steps for writing Chemical Equation

A. Step I: Writing Skeletal Equation

A word-equation depicts the transformation of reactants into products by placing an arrow
between them ( → ). The arrow indicates the reaction's direction and might be read as "to
yield," "to form," or "to give."

The reactants are on the left (LHS) of the arrow, while the products are on the right (RHS).
A plus sign (+) links the different reactants and products together.

A balanced account of a chemical transaction is a complete chemical equation, which
symbolically depicts the reactants, products, and their physical states.

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B. Step II: Balancing of Chemical Equation

A balanced chemical equation is one in which the number of atoms of each element is equal
on both sides of the equation.

On the reactant and product sides of the equation, a chemical equation is balanced if the
number of atoms of each type involved in the reaction is the same.

Equations must be balanced at all times.

The amount of hydrogens on both sides should be an even number whenever H2O is present
on one side (2 atoms of hydrogen in water). If there are 4 H2O hydrogen atoms, then
4  2 = 8 hydrogen atoms are present. If there are 7 H2O hydrogen atoms, then 7  2 = 14
hydrogen atoms, indicating that all the numbers are even.

There must be an even number in front of HCl on the reactant side. (We'll figure out what
that number is later.) As a result, there will be an even amount of chlorine atoms (i.e., KCl=1
, MnCl2 = 2 , Cl2 = 2. i.e., 1 + 2 + 2 = 5 ). However, the quantity of chlorine atoms in the
product is unusual. KCl has the only odd number of chlorine atoms. Let's alter it to the
simplest even number we can think of, which is 2.

KMnO4 + HCl → 2KCl + MnCl2 + H2O + Cl2

Since the number of K atoms in 2 KCl = 2 , we have to put 2 in front of KMnO4 for
balancing K atom.

 2KMnO4 + HCl → 2KCl + MnCl2 + H2O + Cl2

In 2 KMnO4 , there are 2 K, 2 Mn, and 8 O. So, add these numbers in front of K, Mn and O,
(K is already done).

 2KMnO4 + HCl → 2KCl + 2MnCl2 + 8H2O + Cl2

If there are 8 H2O on the product side, there should be 16 H (8 x 2) on the reactants side as
well.

 2KMnO4 + 16HCl → 2KCl + 2MnCl2 + 8H2O + Cl2

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Now the only unbalanced one is Chlorine. On the left hand side, there are 16 Cl. On the right
hand side, firstly, there are 2 Cl in 2 KCl + 4 Cl in 2 MnCl2 , making total of 6(2 + 4). So, 10
more Cl atoms are to be accounted for. So, place 5 in front of Cl2 to make it 10 (5 x 2).

 2KMnO4 + 16HCl → 2KCl + 2MnCl2 + 8H2O + 5Cl2

The Hit and Trial approach is a technique for balancing chemical equations.

Short Technique for Balancing a Chemical Equation

Let us take the same chemical reaction and try to balance it using a short technique which
will save you time and effort in the exam. Let the number of molecules on each side be,

aKMnO4+ bHCl → cKCl + dMnCl2 + eH2O + fCl2

Now comparing LHS and RHS,

K: a = c

Mn: a = d

O: 4a = e

H: b = 2e

Cl: b = c + 2d + 2f

Let us take a = 2, then

c=d=a=2

b = 2e = 8a = 16

So, e = 8

So, 16 = 2 + 2(2) + 2(f)

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f=5

Thus, the required equation is: 2KMnO4+ 16HCl → 2KCl + 2MnCl2 + 8H2O + 5Cl2.

From a chemical equation we can conclude:

A. Various reactants and products names

B. Reactant and product formulae

C. The number of moles of the reactants and products in relation to each other

D. Masses of reactants and products relative to each other

E. Volumes of gaseous reactants and products in relation to each other

In short – the Steps Involved in Balancing a Chemical Equation can be Listed As:

Step 1: Write the skeleton equation correctly.

Step 2: Start with the compound that has the maximum atoms or maximum types of atoms
and the atoms present in it are balanced first.

Step 3: Start by balancing elements that only appear once on each side of the arrow. Then,
on each side, balance elements that appear more than once.

Step 4: The Elementary substances are balanced last.

Step 5: To make all the coefficients whole numbers, the entire equation is multiplied by a
suitable number if necessary.

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Types of Reactions

A. Combination or Synthesis Reactions:

The reactions in which two or more chemicals combine to generate a single new compound.

Types of Combination reactions:

1. Combination of two Elements to Form a Compound

Burning of hydrogen in air or oxygen to produce water.

2H 2(g) → O2(g) + 2H 2 O( l )
Hydrogen Oxygen Water

2. Combination Reactions involving an Element and a Compound

Burning of carbon monoxide in oxygen to form carbon dioxide.

2CO(g) + O2(g) → 2CO2(g)

3. Combination Reactions Involving Two Compounds

Combination of ammonia and hydrogen chloride to produce ammonium chloride.

NH3(g) + HCl(g) → NH 4Cl(s)
Ammonia Hydrogen chloride Ammonium chloride
Colourless Colourless White

B. Decomposition Reactions:

Decomposition reactions, on the other hand, are the polar opposite of combination reactions.
A decomposition reaction occurs when a complex is broken down into two or more simple
components using heat or electricity.

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Thermal decomposition occurs when a substance decomposes owing to heat, whereas
electrolytic decomposition occurs when a substance decomposes due to electricity.

Electrolysis is the process of decomposing a substance by putting an electric current through
it.

Photolysis: The decomposition of a compound with light is called photolysis.

1. Mercuric oxide, when heated, undergoes thermal decomposition, to give mercury and
oxygen.

2HgO(s) ⎯⎯⎯⎯⎯⎯⎯
Thermal decomposition
→ 2Hg (l) + O 2(g) 
Mercuric oxide Mercury Oxygen
Red Silvery liquid

2. Similarly, heating blue copper nitrate crystals causes thermal breakdown, resulting in
black copper oxide, reddish brown nitrogen dioxide fumes, and colourless oxygen gas.

2Cu(NO3 )2(s) ⎯⎯⎯⎯⎯⎯⎯
Thermal decomposition
→ 2CuO(s) + 4NO2(g) + O2(g)

Copper nitrate Copper Nitrogen Oxygen

Blue oxide dioxide

Black Reddishbrown

3. When water is acidified with a little amount of sulphuric acid and a direct current is run
through it, electrolytic breakdown occurs, resulting in hydrogen and oxygen.

2H 2O(l) ⎯⎯⎯⎯⎯⎯⎯⎯
Electrolytic Decomposition
→ 2H 2(g) + O2(g)
Water Hydrogen Oxygen

4. When molten lead bromide is exposed to an electric charge, it decomposes into lead and
bromine.

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 PbBr2 ⎯⎯⎯⎯⎯⎯⎯ ⎯
Electrolytic decomposition
→ Pb(s) + Br2(l)
Lead bromide Lead Bromine
(molten)

Activity Series: The metal activity series is a list of metals arranged in decreasing chemical
activity order.

C. A Substitution or Displacement Reaction occurs when the atoms of one element
replace the atoms of another element in a compound's molecules. Elements in the Activity
Series that are higher in the hierarchy displace elements that are lower in the hierarchy.
Electropositive elements that are more abundant displace electronegative elements that are
less abundant.

Conversely, electronegative elements with a greater charge density will displace
electronegative elements with a lower charge density. For e.g.,

Fe(s) + 2CuSO 4(aq) → 4FeSO 4(aq) + Cu (s) 
Iron Copper Iron (II) Copper
Sulphate Sulphate Reddish
Blue Green Brown

Mg (s) + H 2SO 4(aq) → MgSO 4(aq) + H 2O(g)
Magnesium Sulphuric Magnesium Water
acid Sulphate

2KI(aq) + Cl2(g) → 2KCl(aq) + I 2(s)
Potassium Chlorine Potassium Iodine
Iodide Chloride

The iodine that has been freed dissolves in the chloroform, turning it purple.

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D. Double Displacement Reactions / Metathesis Reactions: The mutual exchange of ions
in which two chemicals react to generate two distinct molecules.

A + B0 +C+ D0 → A + D0 +C+ B0
Na + Cl0(aq) + Ag + NO30 aq → Na + NO30 aq + Ag +Cl0(s) 

Sodium chloride Silver nitrate Sodium nitrate Silver chloride

White

2H + Cl0(aq) + Pb 2+ (NO3 ) 20 aq → 2 H + NO30 aq + Pb 2+Cl20( s ) 

hydrochloric Lead nitrate Nitric acid Lead chloride

acid White

Zn 2+SO4{{^2-}_(aq)}+ Ba 2+Cl2{{^0}_(aq)} → Zn 2+Cl 20 aq + Ba 2+SO4 2− ( s ) 

Zinc sulphate Barium chloride Zinc chloride Barium Sulphate

White

Types of Double Displacement Reactions:

1. Precipitation

In all of the following processes, a white material is generated that is insoluble in water. A
precipitate is the insoluble substance that forms. A precipitation reaction is a reaction that
results in the formation of a precipitate.

2. Neutralization

The reactants are a base and an acid, and the products are salt and water. Neutralization is a
form of double displacement reaction in which the reactants are a base and an acid, and the
products are salt and water. The positive charge of the acid's hydrogen ion and the negative

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charge of the base's hydroxyl ions or oxide ions lose their electrical charge and form covalent
water molecules.

Na + OH 0 + H + Cl0 → Na + Cl0 + H 2O
Base Acid Salt Water

Zn 2+O2- + 2H+ NO30 → Zn 2+ (NO3 ) 20 + H 2O

A neutralization reaction is basically a reaction between H+ and OHions i.e.,

H + (aq) + OH0(aq) → H 2O(l)

E. Oxidation - Reduction Reactions/Redox Reactions

Classical Concept of Oxidation and Reduction

"Oxidation is a reaction in which oxygen is added or hydrogen is removed from a
substance."

I. Addition of Oxygen - Magnesium oxide is formed when oxygen reacts with magnesium.

2Mg (s) + O 2 → 2MgO(s)
Magnesium Oxygen Magnesium oxide

II. Removal of Hydrogen - To liberate free iodine, hydrogen is removed from hydro iodic
acid.

2HI(g) + 2H 2(g) → I 2(g)
Hydroiodic Hydrogen Iodine
acid

III. Removal of Oxygen - Copper metal is formed by removing oxygen from copper oxide.

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 CuO(s) + CO(g) → Cu (s) + CO2( g )
Copper oxide Carbon Copper Carbondidoxide
Black monoxide Reddish
Brown

IV. Addition of Hydrogen - When hydrogen reacts with chlorine, hydrogen chloride gas is
formed.

H 2(g) + Cl 2(g) → 2HCl(g)
Hydrogen Chlorine Hydrogen chloride

A reduction reaction is one in which oxygen is removed from a material and hydrogen
is added.

Redox reactions occur when oxidation and reduction reactions occur at the same time.

Example of Redox Reaction:

Mg (s) + H 2SO 4(aq) → MgSO 4(aq) + H 2( g )
Magnesium Sulphuric acid Magnesium Hydrogen
Sulphate

Example of Non-redox Reaction

NaCl(aq) + AgNO3(aq) → AgCl(s)  + NaNO3(aq)
Sodium Silver Silver Sodium
Chloride Nitrate chloride Nitrate
Redox reactions are those in which oxidation and reduction occur at the same time.

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Oxidizing and Reducing Agents

A. Oxidizing Agent: A substance that brings about oxidation.

B. Reducing Agents: A substance that brings about reduction.

Another Definition of Oxidation and Reduction

1. The addition of an electronegative element or radical, or the removal of an
electropositive element or radical, is referred to as oxidation.

2. Addition of an electropositive element or radical, or removal of an electronegative
element or radical, is known as reduction.

Electronic Concept of Oxidation and Reduction

1. Oxidation: The process in which there is a loss of electrons.

2. Reduction: The process in which there is a gain of electrons.

The Effects of Oxidation Reactions on Everyday Life

Corrosion

Many metals are chemically active elements that are easily affected by moisture, oxygen,
acids, and other things. When iron products are new, they are shiny, but after some time,
they become coated with a reddish-brown powder. The rusting of iron is the common name
for this phenomenon.

The difficulty with iron (and many other metals) is that it oxidises, and the resulting oxide
does not attach firmly to the metal's surface, leading it to flake off readily. This eventually
leads to structural weakening and metal breakdown.

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As a result, when metal is attacked by substances in its environment, it is said to corrode, and
the process is known as corrosion.

When copper vessels or artefacts are exposed to air and water, what happens? They
gradually tarnish as a thin layer of green oxide forms on them. Silver, too, quickly develops a
thin black oxide covering when exposed to damp air. In wet weather, even the heaviest metal
lead tarnishes. The black coating on silver and the green coating on copper are instances of
corrosion in which the oxides generated create a strong connection to the metal's surface,
blocking further oxygen exposure and thereby reducing corrosion.

Rancidity

Have you ever tasted or smelled fat/oil-containing food materials that have been left out for
an extended period of time? Rancidity refers to an undesirable change in a food's flavour and
odour. The oxidation process causes fats and fatty foods to deteriorate, which is the most
common cause of rancidity. When an oxygen atom replaces a hydrogen atom in a fatty acid
molecule, the molecule becomes destabilised. Factors that accelerate fat oxidation include
salt, light, water, bacteria, moulds trace metals (iron, zinc, etc.).

Antioxidants are chemicals that prevent fat from oxidising or becoming rancid (such as
BHT, BHA, vitamin E, and vitamin C, and spices such as sage and rosemary). To avoid
spoilage, they are added to foods containing fats and oils. Keeping food in airtight containers
or airtight wrapping also helps to slow down oxidation.

Some high-fat meals such as potato chips are wrapped in materials that shield them from
light and oxygen and the containers are flooded with nitrogen to further exclude oxygen.
Vacuum packaging is sometimes employed in processed goods to completely eliminate the
presence of oxygen.

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