Chemical Effects of Electricity
CHEMICAL EFFECTS OF ELECTRICITY
·
A conductor is any material or substance that
allows electricity to flow through it.
·
An insulator is any substance or material that
prevents the flow of electricity through it.
·
Any substance can be called as a conductor of
electricity if it allows movement of charges through it.
·
The electrons of the conductors can flow freely
(they are delocalized) and hence can take electric current through them.
·
Insulators do not allow the flow of charges through
them because their electrons are tightly packed with their particles.
·
Some materials can allow a little flow of
electricity through them and are called poor conductors of electricity.
·
Some materials can allow the complete flow of
electricity through them and are called good conductors of electricity.
·
Every material may conduct electricity in certain
situations. For example, air is a bad conductor of electricity but in case of
thunderstorms and lightning it carries electric charges through it. Hence,
materials are always classifies as good and poor conductors of electricity rather
than conductors and insulators.
Can liquids
conduct electricity?
·
Not all liquids can conduct electricity. However,
some of them can be regarded as good conductors of electricity while others as
poor conductors of electricity.
·
Water containing salts and minerals dissolved in it
always conduct electricity.
·
Distilled water which does not contain any salts
cannot conduct electricity.
·
Any solution of acids or bases can also conduct
electricity.
Liquids that are Poor and Good Conductors of Electricity
How do liquids
conduct electricity?
·
Different substances when mixed in water and
electricity is passed through them can break apart and form positive and
negative particles or ions in the water.
·
These ions can pass the electric current through
them.
·
The more is the number of ions in a liquid the
better conductor it is of electricity.
·
That is why distilled water is a poor conductor of
electricity but salt water is a good conductor of electricity.
·
However, many compounds do not form any ions on
mixing them with water and therefore they are poor conductors of electricity
such as sugar water, oil and alcohol.
Set up to detect if a liquid can conduct electricity
Why LED bulbs
are more suitable for testing the electrical conductivity of liquids?
·
The electric current often causes heating effect
due to which the filament of the bulb gets heated up and glows.
·
However, some liquids are capable of conducting
electricity but they are weak conductors of electricity. Hence current passes
through them but it is not that strong enough to heat up the filament. As a
result, the filament would not light up in the case of such liquids.
·
However, the LED bulbs can detect the flow of even
a small amount of electric current as well. Hence, LED bulbs are suitable for
testing the electrical conductivity of liquids.
What is
electrolysis?
The effect in which components of a compound get split due to passing an
electric current through it is called electrolysis.
What is an
electrode?
An electrode is a conductor of electricity that can carry electric
current into non-metals and other poor conductors of electricity.
What is an
electrolyte?
A solution that breaks into its ions on passing electricity through it
is called an electrolyte. Electrolytes are used in the process of
electroplating.
What are an
anode and cathode?
The positively charged electrode is called anode and the negatively
charged electrode is called cathode.
What are anions
and cations?
An anion is a negatively charged ion and a cation is a positively
charged ion.
Effects of an electric current
·
Heating effect: electric current causes heating of the electrical equipment. For
example, the filament of a bulb gets heated up due to electric current and
therefore glows.
·
Mechanical effect: electric current can lead to generation of mechanical energy in
appliances. For example, fans and motors work due to this effect.
·
Magnetic effect: electric current can give rise to the magnetic field of a substance.
·
Chemical effect: electric current can lead to the production of chemical energy or
chemical reactions.
Chemical
effects of electric current
We know that when an electric current passes
through solution it ionizes and breaks down into ions. This is because of chemical
reactions that take place when an electric current passes through a
solution. Depending on the nature of the solution and the electrodes used, the
following effects can be observed in the solution:
1.
metallic deposits on the electrodes
2.
change in the colour of the solution
3.
a release of gas or production of bubbles in the
solution
Applications of
chemical effects of electric current
Electroplating
·
Electroplating is a process in which layer of metal
is deposited on another material with the help of electricity.
·
Electroplating is used in many industries for
depositing a layer of metal with desired characteristics on another metal.
·
Different metals used for electroplating are
Nickel, Copper, Gold Silver, Tin, Brass, Zinc, Chromium and Platinum.
Process of
electroplating
·
In order to conduct electroplating right electrodes
and electrolytes must be chosen so that metal can deposit over a material.
·
For instance, if we want to deposit copper on a
material we need an electrolyte that contains copper in it. Similarly, if we
need gold on a material we need an electrolyte that contains gold in it.
·
Also, we should make sure that the electrode that
we are choosing is completely clean.
·
The electrodes used are made up of different
materials. One of the electrodes is of the same metal of which the electrolyte
solution is. The second electrode needs to be the material on which we want to
coat another metal.
·
For instance, in case we want to plate copper upon
brass, one electrode should be of Copper and the other electrode should be of
Brass and the electrolyte solution should be any salt which contains copper in
it, for example, copper sulphate solution. Consider the diagram given below
that describes the process of electroplating of copper.
Electroplating of copper on brass
·
Out of these two electrodes the copper electrode
acts as the anode (positive electrode) and brass electrode acts as the cathode
(negative electrode).
·
When electricity is passed through the solution,
the copper sulphate breaks down into its ions.
·
The copper ions (they have a positive charge) get
attracted by the brass electrode while the sulphur ions being negatively
charged move towards the copper electrode.
·
As a result, copper starts depositing on the brass
electrode.
·
The process of electroplating takes some time to
complete.
·
The amount of time that it will take depends upon
the strength of the current that is being passed through the circuit and also upon
the concentration of the electrolyte.
·
As these two are increased the speed of the
electroplating process also increases.
Applications of
electroplating
Figure 7 Electroplated Objects
·
Medical equipment is made up of nickel which is
harmful to the human body hence to avoid it from coming in contact with our
body a coating of platinum or gold is applied on the surface of nickel.
·
Many kitchen equipments, bath taps, parts of cars
etc. are covered with chromium coating. Chromium is an expensive metal hence
the objects are created with the cheaper metal and chromium coating is
provided. Thus, to bring a shining over the objects and prevent them from
corrosion chromium coating is used.
·
Jewellery makers often make ornaments of less
expensive metals and provide a coating of gold or silver upon them.
·
The tin cans that are used to store food are
actually made up of iron and have a coating of tin on them. Iron can easily
react with food and spoil it, however, tin prevents the food from getting
reacted with iron and therefore helps in preventing it from getting spoiled
easily.
·
Bridges and various parts of automobiles are made
up of iron because it provides strength. However in order to prevent iron from
getting rusted a coating of zinc is provided over it. This method is also
called galvanization of iron.
Other
applications of Chemical Effect of Electric Current
1. Extracting
metals from their ores
Pure metals are extracted from metal ores with the process of
electrolysis. Electricity is passed through the metal ores and they get broken
down into an ionic lattice and thus the metal is obtained separately. For
example, metals like aluminium, magnesium, potassium, sodium and calcium are
obtained from their ores in this way.
2. Purification
of metals
The method of electrolysis is also used to purify a metal by separating
it from the impurities. The impure metal is used as an anode which first
dissolves in the electrolyte solution and then deposits on the cathode in the
pure form. The impurities of the metal remain in the electrolyte solution only.
Metals like aluminium, zinc and copper are purified in this way.
3. Production
of compounds
The electrolysis method is used for the production of some compounds.
For example, sodium hydrochlorite
4.
Decomposition of compounds
The electrolysis method is also used to decompose a compound into its
constituents. For example, water can be decomposed using the process of
electrolysis to obtain hydrogen and oxygen.
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