Emirates Aviation University Module 3: Electrical Fundamentals PDF

Summary

These notes detail the fundamental concepts of electron theory, including the structure and distribution of electrical charges within atoms, molecules, ions, and compounds. They also explore the properties of conductors, semiconductors, and insulators.

Full Transcript

Module 3: Electrical Fundaments
Topic 3.1: Electron Theory
 INTRODUCTION

On completion of this topic you should be able to:

3.1.1 Define the structure and distribution of electrical charges within:

Atoms
Molecules
Ions
Compounds

3.1.2 Define the molecular structure of conductors, semiconductors and
insulators.

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 ATOMS

Atoms – smallest particles to which
elements can be reduced and
retains its characteristic.

Comprised of:

Protons – positively charged

Neutrons – neutrally charged

Electrons – negatively charged

Forces between the so called positive and negative charges are the
fundamental cause of electrical phenomena.

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 MOLECULES

Consists of 2 or more atoms bonded together.
Smallest particle to which a substance can be reduced and retain its
characteristics.
This applies to all substances – liquids, solids, and gases.
Example - Nicotine C10H14N2

The Nicotine structure includes:

10 Carbon atoms
14 Hydrogen atoms
2 Nitrogen atoms

Atom Colour
Carbon Green
Hydrogen Gray
Nitrogen Blue

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 COMPOUNDS

Matter in which all molecules are identical, but molecules are comprised of
different atoms in exact proportions.
The two or more individual elements combine to form a separate substance
whose characteristics may be completely different from the original elements
characteristics.
Water is a compound:
Made up of Hydrogen and Oxygen atoms (H2O).
The same is true also of Carbon Dioxide:
Carbon and Oxygen atoms (CO2).
And also of Common Salt:
Sodium and Chloride atoms (NaCl).

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 IONS

Normal atoms have a neutral charge
Same number of positively-charged protons as there are negatively-charged
electrons
An ion is an atom that has lost or gained electrons.

Charge will be positive if atom has lost electrons and negative if atom has
gained electrons.

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 STATIC ELECTRICITY

Greek philosopher Thales experimented
with what came to be called Static
Electricity in about 500 BC.

Certain materials exert forces on each
other which were discovered to be
electrical.

Rubbing the amber - strips it of electrons
making it positive and able to attract a
negative substance.

Shows amber attracting small feathers.

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 BENJAMIN FRANKLIN

Benjamin Franklin experimented
with wet string and a metal key in
a thunderstorm!

He discovered that energy was
transferred from the lightning to
the ground, and was the first to
use the word current.

Energy transfer is now the major
use for electricity.

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 CONDUCTORS AND INSULATORS

A balanced atom has an equal number of
protons and electrons.
Hydrogen – 1 proton, 1 electron.
Copper – 29 protons, 29 electrons.
Electrostatic attraction holds the electrons
in orbit, opposing the centrifugal force.
Outermost shell is the Valence shell, and it
contains the Valence electrons.
Valence
Electron

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 CONDUCTORS AND INSULATORS

Outer or valence electrons can be easily
forced from their orbits.
A positive electrical force will attract and
steal electrons from the outer shell.
This creates a positively charged ion.
Electrons constantly move within a
material from one atom to another –
free electrons.
The motion of free electrons makes up
an electric current.
The availability of electrons determines
whether a material will be:
Conductor
Semi-conductor
Insulator

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 CONDUCTORS

Substances which readily permit the free
flow of a large number of electrons are
called conductors.
A good conductor has 1 – 3 electrons in
valence shell:
More loosely held in orbit
Room for more electrons to join

Four good conductors are:
Silver
Copper
Gold
Aluminium

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 INSULATORS

Any material that inhibits the flow of
electricity is called an insulator.
A good insulator has 5 – 8
electrons in valence shell:
Solidly held in orbit, will not
readily move to another atom
No room for more to join
Insulators have a high resistivity.

Four good insulators are:
Glass
Rubber
Plastic
Ceramic

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 SEMI-CONDUCTORS

A semi-conductor has 4 electrons in the valence shell.
Silicon and Germanium exist in this configuration, form a
crystalline structure and are almost an insulator.
Mixing in impurities will produce a semi-conductor.
Arsenic incorporates extra electrons – N Type Material.
Boron incorporates electron holes – P Type Material.
Semi-conductors are the basis of electronic components.

No electron in the
BORON atom to form a
covalent bond
Extra electron in the
ARSENIC atom creates
material with an excess “Electron Hole”
Of electrons created

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 CONCLUSION

Now that you have completed this topic, you should be able to:

3.1.1 Define the structure and distribution of electrical charges within:
Atoms
Molecules
Ions
Compounds
3.1.2 Describe the molecular structure of conductors, semiconductors
and insulators.

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 This concludes:

Module 3: Electrical Fundaments
Topic 3.1: Electron Theory