MATTER AROUND US PURE; CLASS 9
·
Anything that
cannot be broken into further particles by applying any physical processes is
called a Substance.
·
Matter can be
classified into two types of substances – Pure substances and Mixtures
A substance that consists of only one type of particle is called a Pure Substance. For Example, Diamond, Salt, Sulphur, Tin.
Mixture:
·
When we combine
different substances into each other a mixture is formed. For Example, Lemonade is a mixture of three substances, Lemon Juice,
Sugar and Water.
·
Which of these
is a mixture or a pure substance?
Water, Copper,
Chocolate cake, Hydrogen, Soil, Air
Mixture –
Chocolate cake, Soil, Air
Pure substance – Water, Copper, Hydrogen
Types of Mixtures
There are two categories of mixtures: Homogeneous Mixtures and Heterogeneous Mixtures
Homogenous Mixtures
·
When we add
sugar, water and lemon juice together they all uniformly mix with each other.
Now it is not possible to separate these substances from the mixture. Such
mixtures in which the components mix with each other uniformly are called Homogeneous Mixtures.
·
The ratio of
compositions of homogeneous mixtures can be different. For Example, one may add two spoons of sugar in lemonade while
someone else may add only one spoon of sugar in their lemonade. Still, lemonade
is a homogeneous mixture.
Heterogeneous Mixtures
·
The components
in a heterogeneous mixture do not completely dissolve in each other and we can
separate them by physical means. In other words, the composition of such
mixtures is not uniform.
·
For Example, If we mix sand in water the sand
settles down in water after some time and we can separate it by filtration.
Differences
between homogeneous and heterogeneous mixtures –
|
Homogenous
Mixtures |
Heterogeneous
Mixtures |
|
They have a
uniform composition throughout |
They have a
non-uniform composition |
|
We cannot
separate the components of the mixture through physical processes |
We can
separate the components through physical processes |
|
Components
cannot be seen through naked eyes |
Components can
easily be seen through naked eyes |
|
The mixture is
in single-phase throughout |
The substances
can be of two different phases and we may see separate layers of the
substances |
|
Example: A mixture of water and milk |
Example: A mixture of oil in water |
Solution
A solution is
nothing but a uniform mixture of two or more substances. Homogenous Mixtures
are solutions.
Solution of -
·
Liquid into a
liquid: Water and
Ink
·
Solid into
solid: Alloys
·
Gas into gas: Air
·
Solid into a
liquid: Sugar and
Water
·
Solid into gas: Hydrogen and Metals
·
Liquid into
gas: Carbon
Dioxide and Water
alloy
An alloy is a
mixture of different metals or nonmetals and metals that cannot be separated
from each other using physical methods. For Example
Brass – Copper
with up to 50% zinc
Bronze – Copper
with up to 12% tin
Solution
consists of two types of substances, a solute and a solvent.
Solution =
Solute + Solvent
Solvent – The substance in which another
substance is mixed is called the Solvent. For Example,
Water is a solvent in which we can mix different substances such as salt or
sugar.
Solute – The substance that is added to
the solvent to form a solution is called a Solute. For
Example, Salt, when mixed in water, acts as a solute for the mixture.
Properties of a Solution:
·
A solution is a
homogeneous mixture.
·
We cannot see
the particles of a solution through naked eyes as they are as small as 1
nanometer in diameter.
·
The path of
light is not visible through the solution. The particles of a solution do not
scatter light through them as they are extremely small.
·
We cannot
separate the particles of a solution by methods of filtration.
stable solution:
A stable
solution is a solution in which particles do not settle down if we leave the
solution undisturbed for some time. This is because the particles of a stable
solution are homogeneously spread.
Different Types of Solutions
·
Dilute – A solution in which the
concentration of the solute is much less than that of the solvent. For Example, If we mix 1gm of salt in 500 ml of water, the salt
solution thus obtained will be diluted. If we keep on adding the solute in a
solution there comes a point when no more solute dissolves in the solution.
This is called the Saturation Point of a Solution.
·
Unsaturated
Solution – A
solution, in which we can add more solute as it has not achieved its saturation
level yet, is called an Unsaturated Solution. A dilute solution can be called
an Unsaturated Solution.
·
Concentrated
Solution – A
solution with a large amount of solvent is called a Concentrated Solution.
·
Saturated
Solution – A
solution in which no more solute can be added since it has already dissolved
the maximum amount of solute it can is called a Saturated Solution.
Concentration:
Concentration refers
to the amount of a substance per defined space or can be defined as the ratio
of solute in a solution to either solvent or total solution.
To calculate the
concentration consider the formulae below:
·
Percent by Mass = (Mass of solute / Mass of
solution) X 100
·
Percent by
Volume = (Volume of
solute / volume of solution) X 100
·
Molarity (M) = number of moles of solute /
Volume of Solution in litres
Where, Moles of
solute = Given mass/molar mass
·
Molality (m) = Moles of solute / weight of
solvent in kg
·
Normality (N) = Number of mole equivalents/
volume of solution in litres
Suspension
A suspension is
formed when two or more substances are mixed in a non-uniform manner.
Heterogeneous mixtures are suspensions. The solute does not mix with the
solvent and can be viewed through naked eyes.
Properties of Suspensions:
·
A suspension is
a heterogeneous mixture.
·
We can see the
particles of suspensions through naked eyes.
·
We can see the
path of light through the particles of a suspension.
·
The particles of
suspension tend to settle down when left undisturbed. Then, they can be
separated using filtration.
Colloids or colloidal solutions
A colloidal
solution or a colloid is a uniform solution of two or more substances. The
particles are relatively very small and the solution appears as a homogeneous
mixture but it is not.
Properties of colloids:
·
Colloids are
heterogeneous in nature.
·
The particles of
a colloid cannot be seen through naked eyes.
·
The particles
scatter a beam of light passed through a colloid and produce the Tyndall
effect.
·
Colloids are
stable in nature. The particles of colloids do not settle down if left
uninterrupted.
·
We cannot
separate the particles of a colloid through filtration. We use a method
called Centrifugation to separate the particles of a
colloid.
When a beam of light is passed
through a colloid the particles of the colloid scatter the beam of light and we
can see the path of light in the solution. For
Example, when a ray of
light enters a dark room it is scattered by the dust particles present in the
air and we can see the path of light clearly.
Classification of Colloids
Dispersed Phase – The dispersed particles or the
solute-like components in a colloid
Dispersing
Medium – The
substance in which these solute-like particles are added
Based on the
state of the dispersing medium colloids are classified as:
Types of Colloids
|
Example |
Dispersing
Medium |
Dispersed
Substance |
Colloid Type |
|
Fog, Aerosol
sprays |
Gas |
Liquid |
Aerosol |
|
Smoke,
Airborne bacteria |
Gas |
Liquid |
Aerosol |
|
Whipped cream,
Soapsuds |
Liquid |
Gas |
Foam |
|
Milk,
Mayonnaise |
Liquid |
Liquid |
Emulsion |
|
Paints, Clays,
Gelatin |
Liquid |
Solid |
Sol |
|
Marshmallow,
Styrofoam |
Solid |
Gas |
Solid foam |
|
Butter, cheese |
Solid |
Liquid |
Solid emulsion |
|
Ruby glass |
Solid |
Solid |
Solid sol |
separate components
of a mixture
We can separate
the heterogeneous mixtures into their constituents by means of physical methods
like
·
Filtration
·
Hand-picking
·
Sieving
The components
of a mixture can be separated from each other using several other techniques
like
·
Evaporation
·
Centrifugation
·
Sublimation
·
Chromatography
·
Distillation
1. Evaporation – For separating a mixture of a non-volatile and a
volatile substance
·
Applications:
·
Separating
coloured component from the ink
·
Salt from water
·
Sugar from Water
·
Method:
·
Mix some ink
into water and heat it. After some time the water will evaporate leaving behind
the coloured substance.
2. Centrifugation – Separating dense particles from lighter particles
·
Applications:
·
Separating milk
from cream
·
Separating
butter from cream
·
Squeezing out
water from wet clothes
·
Method:
·
Milk is put in a
centrifuging machine or milk churner and the cream thus separates from milk.
3. Using a Separating funnel – To separate two immiscible liquids
·
Applications:
·
Oil from water
·
Iron and iron
ore
·
Method:
·
The immiscible
liquids are allowed to settle in the funnel. They soon form separate layers due
to varying densities. The first liquid is allowed to flow out of the funnel and
as soon as it is completely poured out, the stopcock is closed thereby
separating the two liquids from each other.
4. Sublimation – To separate a sublimable component from a
non-sublimable component
·
Applications:
·
Ammonium
chloride/camphor/naphthalene and salt
·
Method:
·
Heat the mixture
in an inverted funnel so that the sublimable component sublimes in the air and
settles over the walls of the funnel and the non-sublimable component, on the
other hand, is left behind.
5. Chromatography – To separate solutes that can dissolve in the same
solvent
·
Applications:
·
Separating
colour components of a dye
·
Drugs from blood
·
Method:
·
Take a filter
paper or a blotting paper and place a drop of ink at the rear end. Dip the end
in water. Since the ink is a mixture of two or more colours, the component of
ink which is soluble in water mixes into it and then separates quickly from the
other components that are less soluble in water.
6. Distillation – To separate miscible liquids (the boiling points
of the liquids must be sufficiently different)
·
Applications:
·
Acetone and
water
·
Method:
·
The mixture is
heated in a distillation apparatus. The one substance with a lower boiling
point evaporates first, condenses and gets separated from the one with a higher
boiling point.
·
Simple
Distillation – when the
miscible liquids have a satisfactory difference in their boiling points
·
Fractional
Distillation – when the
difference between the boiling points of the liquids is less than 25 K
Separating different Gases from the Air
Method – Fractional Distillation
·
Compress and
cool the air by increasing the temperature and decreasing the pressure. The air
turns to liquid air.
·
Liquid air is
warmed up slowly in a fractional distillation apparatus
·
The several
components of air get separated and are collected at various heights on the
basis of their boiling points
Purifying Solids
Method used –
Crystallisation
In the
crystallisation method, we can obtain a pure solid in the form of crystals from
its solution
·
Applications:
·
Salt from
seawater
·
Purification of
copper sulphate
·
Method:
·
The impurities
of a substance are filtered out.
·
Water is
evaporated to obtain a saturated solution.
·
The solution is
covered with filter paper and left as it is.
·
After some time,
the crystals of pure solid are formed.
·
evaporation better than crystallisation
Simple
evaporation is not better than crystallisation because
1. Some solid substances decompose because
of excess heat. For Example, Sugar gets charred on extra heating.
2. If after filtration some impurities
remain in the solution they can contaminate the solid and therefore we would
not obtain a pure substance.
Physical Change and Chemical Change
Physical
Property of a Substance:
Properties of a
substance such as rigidity, colour, fluidity, boiling point, melting point,
density and hardness which we can observe are called Physical
Properties.
Physical Change:
When the
physical properties of a substance change it is known as a Physical
Change. When we convert a substance from one state to another, such as a
solid into a liquid or vice-versa, it is also a physical change as only the
physical nature of the substance changes without affecting its chemical nature.
For Example, Change of ice into water. The chemical
properties of water remain the same.
Chemical
Property of a Substance:
The chemical
nature of a substance is known as its Chemical Property such
as its odour or its chemical composition.
Chemical Change:
When the
chemical properties or chemical composition of a substance gets altered it is
called a chemical change. It is also called a Chemical Reaction.
For Example, Burning paper
Types
of Pure Substances
Pure substances are classified as
elements and compounds
Elements
An element is the simplest form of
matter. Elements cannot be broken down into further elements by chemical
reactions. Elements are further characterised as Metals, Nonmetals and
Metalloids
Metals – Silver, Mercury, Copper, Gold
1. Metals are lustrous (shiny)
2. Metals conduct heat and electricity
3. Metals have a silver-grey or gold-yellow colour
4. We can hammer metals and form thin sheets
(Malleability)
5. We can convert metals into wires (Ductility)
6. Metals always produce a ringing sound if they
are hit (Sonorous)
Non-Metals – Carbon, Iodine, Chlorine, Oxygen, Hydrogen
1. Non-Metals do not conduct heat and electricity
2. Non-Metals are not sonorous, lustrous or ductile
3. Non-Metals have varied colours
Metalloids – Silicon, Germanium
They show some properties of metals
and some of the non-metals.
Quick Facts –
1. There are 100 elements known to us
2. 92 elements out of them occur naturally
3. Rest, 8 are man-made elements
4. Most of the elements are solid in nature
5. At room temperature, 11 elements exist in the
gaseous state
6. At room temperature, 2 elements exist in the
liquid state – bromine and mercury
7. At a temperature slightly higher than room
temperature, 2 elements exist in the liquid state – calcium and gallium
Compounds
It is a substance that consists of
two or more substances. These substances are combined chemically with each
other in fixed proportions. The properties of a compound are different from
that of its constituents. For Example, Ammonium Sulphate, Sulphur Chloride, Water.
Mixtures vs. Compounds
Mixtures
|
Compounds
|
|
Properties of a
mixture Reflect the properties of the materials it contains. |
Different
properties from that of the elements that make up the compounds. |
|
No uniform
composition |
Definite
composition. Definite ratio/formula |
|
Can be separated
by physical means. |
Cannot be
separated by physical means. |
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