Solutions, Suspensions, Colloid[1].pdf

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Solutions, Suspensions, Colloid.
Chemistry
SOLUTIONS

A solution is a homogeneous mixture consisting of two or more
components, one of which is usually a liquid.
The major component of a solution is known as the solvent and the
minor component is known as the solute.
Some solutions may contain more than one solute, e.g. sea water.
The solute and solvent can be gases, liquids or solids. When a gas or a
solid dissolves in a liquid, the liquid is always the solvent, e.g. in a
mixture of salt in water, salt is the solute and water is the solvent
Solutions

A saturated solution is one that contains as much solute as can be dissolved
at a particular temperature in the presence of undissolved solute.
Suspensions

A suspension is a heterogeneous mixture containing minute particles which are
visible to the naked eye.
If left undisturbed, the particles in a suspension eventually settle.
The components of a suspension can be separated by filtration.
 Examples of Suspension
Dust in air is a suspension of a solid in a gas.
Powdered chalk in water is an example of a suspension of a solid in a liquid.
Muddy water is another example of a solid suspended in a liquid.
Colloids

A colloid is a heterogeneous mixture containing particles that are
intermediate in size between those of a solution and those of a suspension.
The particles in a colloid cannot be seen even with a microscope, and if left
undisturbed they do not settle.
The properties of a colloid are intermediate between those of a solution and
those of a suspension.
Examples Colloids

Smoke in air is a colloid of a solid in a gas, also known as a solid aerosol.
Fog and aerosol sprays in air are colloids of a liquid dispersed in a gas, also
known as liquid aerosols.
Milk and mayonnaise are colloids of a liquid dispersed in a liquid, also known
as emulsions.
Solubility
Solubility
The solubility of a solute is an indication of how much of the solute can
dissolve in a xed mass of solvent at a particular temperature.
For example, we can nd the solubility of sodium chloride in water by
determining how much sodium chloride can dissolve in 10 cm3 of water at a
particular temperature.
When no more solute can be dissolved in the solvent, the solution reaches
saturation point and we say the solution is saturated
If any more solute is added to the solvent, the solute will remain in solid form
and will be mixed with the saturated solution.
Solubility

The solubility of a solute in water is usually measured as the mass of solute
that will saturate 100 g of water.
Each solute and solvent combination has a specific solubility at a given
temperature.
The solubility of a solute in a solvent is determined by the structure of the
solute and solvent, and the temperature.
The effect of temperature on Solubility

For most solid solutes in water, solubility increases as temperature increases.
This means that as the temperature increases, a greater mass of solute will
saturate a xed mass of water.
A solution which is saturated at one temperature will not be saturated at a
higher temperature, and if a solution which is saturated at one temperature is
cooled, crystals of the solute will form since less of the solute can dissolve at
a lower temperature.
The effect of temperature on Solubility
The unit for solubility is g per 100 g water. However, it is not practical to weigh 100 g of
water.In determining solubility of a solute in water in the laboratory, we make use of the fact
that pure water has a density of 1 g cm−3

In other words,1 cm3 of water has a mass of 1 g, or 1 g of water has a volume of 1 cm3.This means that 100 g of water has a volume of 100 cm3, and it is easy to measure 100
cm3 of water in the laboratory..
The effect of temperature on Solubility

When we plot solubility of a solute against temperature, we draw a graph
Known as a solubility curve.The solubility curve for potassium chlorate(V),
KClO3 is, (refer to Chemistry for CSEC by Anne Tindale,)

The effect of temperature on Solubility

Looking at the solubility curve, you can see that the solubility of potassium
chlorate(V) increases with an increase in temperature.
Solubility curves such as this can be used to obtain various useful pieces of
information, for example:
The solubility of a solid at any temperature within the range of the graph.
Example
What is the solubility of potassium chlorate(V) at 78 °C?
Solubility of KClO3 at 78 °C 35 g per 100 g water.
Example

The temperature at which crystals would just start to form if an unsaturated
solution containing a xed mass of solute is cooled to the point where it is just
saturated.
Example (CSEC for Chem pg. 23)
At what temperature would crystals just begin to form if an unsaturated solution of
potassium chlorate(V) containing 20 g of potassium chlorate(V) dissolved in 100 g
of water is cooled from 80 °C?
Temperature at which 20 g of KClO3 saturates 100 g of water 55 °C.
∴ temperature at which crystals just begin to form 55 °C
Separating mixtures

Mixtures are a type of matter where the components can be separated by
physical means. The method by which a mixture can be separated into its
component parts is determined by the physical properties of these parts, e.g.
particle size, boiling point, solubility.
METHODS USED TO SEPARATE
MIXTURES
Filtration

Filtration is used to separate a mixture of a solid and a liquid where the solid
does not dissolve in the liquid, i.e. it is used to separate the components of a
suspension.
Filtration makes use of lter paper to separate the solid from the liquid. The lter
paper works like a sieve, keeping back the solid particles. The solid particles
are too big to pass through the lter paper, whereas the liquid particles are
small enough to pass through.
The part of the mixture that stays behind in the filter paper is called the
residue.
The part of the mixture that passes through the filter paper is called the
filtrate
Filtration

Imagine demonstration filtration
Evaporation

Evaporation is used to separate a solution of a solid dissolved in a liquid, but
it only allows the solid to be collected.
During evaporation,the solution is boiled allowing the liquid to vaporise into
the air. The solute is left behind in the container.
Evaporation is a fairly rapid process and if all the liquid evaporates, the solid
remaining lacks any crystalline structure.
The method is not suitable if the solid to be collected is decomposed by heat.
Evaporation is useful to obtain the sodium chloride from a sodium chloride
solution.
Evaporation
Crystallisation

Crystallisation is used to separate a solution of a solid dissolved in a liquid,
and it only allows the solid to be collected.
Unlike evaporation, the solution is not boiled, itis left in a container at room
temperature for the liquid to vaporise into the air.
Crystallisation is a slow process and the solid remaining has a distinct
crystalline structure. t is used if a hydrated solid containing water of
crystallisation is required.
Crystallisation is useful to obtain hydrated copper(II) sulfate crystals (CuSO4.5H2O) from a copper(II) sulfate solution.
Crystallisation
Simple distillation

Simple distillation is also used to separate a solution of a solid dissolved in a
liquid. It allows both the solid and the liquid to be collected.
Simple distillation is an appropriate method of separation only if the liquid has
a lower boiling point than the solid, i.e. the liquid becomes a vapour before the
solid.
One of the key components of the apparatus used in distillation is a Liebig
condenser.
Please refer to textbook 26 for detailed method.
Simple distillation
Fractional Distillation

Fractional distillation is used to separate a mixture of two or more liquids
which are miscible and have different boiling points that are close together.
Miscible liquids are liquids that are able to mix. The apparatus used in
fractional distillation is similar to that used in simple distillation.
However, a fractionating column is attached between a round-bottomed ask
and the Liebig condenser.
Fractional distillation can be used to separate a solution of ethanol and water
since the boiling point of ethanol is 78°C and that of water is 100°C.
Fractional Distillation
Separating Funnel

A separating funnel is used to separate a mixture of liquids that are
immiscible and have different densities.
Immiscible liquids are liquids which are unable to mix.
A separating funnel is a container that has a tap at bottom, allowing one liquid
to be drained off before the other.
It is usually conical in shape to reduce the amount of liquids lost at the
interface of the two liquids.
Oil and water are two liquids that are immiscible and they have different
densities.
If a mixture of oil and water is placed in a separating funnel,the oil with a
lower density oats on the water which has a higher density.
Separating Funnel
Paper chromatography

Paper chromatography is used to separate a mixture of dissolved substances
which are coloured or can be coloured, and which will travel through a
material, e.g. lter paper.
The substances are separated based on:
* how soluble they are in the solvent used
* how strongly they are attracted to the paper.
Inks and food colourings are mixtures of two or more dyes, which can be
separated by paper chromatography.
Paper Chromatography
Graded Activity
In groups of 5 or 7, conduct a research paper on the extraction of sugar cane from sucrose.

Paper should include:
Title Page
Introduction
Definition of sucrose, extraction and sugar cane
The process by which sugar cane is extracted from sucrose.
Diagrams as guides
Reference for information

Please note that you will be penalized for plagiarism and untidy work.

Paper is due October 9, 2024.