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Title: Electricity:


1
Electricity
2
Using electricity
  • In 1771, Luigi Galvani discovered that the
    muscles of dead frogs twitched when struck by a
    spark
  • May have inspired the idea behind the story
    Frankenstein

3
How do we get Electricity?
4
How to generate electricity
Generation of Electricity Coil of Wire  
Magnetism   Relative Motion
5
How does an electric system work?
  • The basic components are
  • Power Plant Electricity is produced here
  • Power Grid A network that connects power plants
    to substations and substation to homes.
  • Transmission Substation Transformers increase
    voltage so that volts can be sent over long
    distances.
  • Distribution Substation Transformers reduce
    voltage to a level suitable for the surrounding
    community
  • Distribution System Delivers electricity to
    homes and businesses. Line may be a underground
    or overhead.
  • Service Connection Connection of customers to
    the grid. A meter is connected also to measure
    the amount of electricity used by customers

6
Electrical Flow
  • When you switch something on, you complete a
    pathway for electricity to flow through.
  • The pathway that allows electrical energy to flow
    is called an electric circuit.
  • Electric circuits consist of three components
  • A Power Supply Provides electrical energy
  • A Load Converts electrical energy into another
    form
  • A Conducting Path Allows electric charge to flow
    around the circuit.

7
Electric Circuits
  • Electric circuits consist of three components
  • A Power Supply Provides electrical energy
  • A Load Converts electrical energy into another
    form
  • A Conducting Path Allows electric charge to flow
    around the circuit.

8
A simple electric circuit
Power Supply
Load
Conducting Path
9
Circuit Diagram symbols



10
Current
  • Current measures the amount of charge flowing
    through a circuit .
  • A large current has more charge flowing every
    second than a small current.

11
Measuring Current
  • Current is measured in a unit called ampere (A)
    or amps
  • Milliamps (mA) are used to measure small
    currents.
  • Current can be measured using a device called an
    ammeter.
  • Ammeters need to be inserted into the circuit to
    get a reading.

12
Measuring Voltage
  • Voltage is measure in Volts (V)
  • A device that measures the amount of volts
    passing through a circuit is called a voltmeter

13
Voltage
  • Voltage is a measure of the amount of energy
    there is to push charge through a circuit.
  • Voltage is supplied by batteries, power packs and
    power points.

14
Energy Sources
15
Energy Sources
  • Batteries, power packs or power points are all
    considered energy sources.
  • They provide all the electric energy and voltage
    to a circuit.
  • Energy sources create an electric field that
    pushes electrons around a circuit.

16
Power points and power packs
  • Power points supply approximately 240 volts into
    your home
  • Power packs like the ones we use in class supply
    up to 12 volts
  • The power for which is produced in a variety of
    power plants.

17
Batteries
  • Batteries are used when we need portable energy
    sources.
  • 1 AA battery provides 1.5 volts
  • While car batteries provide 12 volts
  • Batteries are made up of cells.
  • These cells can be either wet or dry.

18
Wet Cell
  • In this wet cell, zinc reacts with the acid and
    releases electrons.
  • If a circuit is connected to the plates then the
    electrons will flow to the copper plate
  • As they flow through the circuit the globe will
    light.
  • Wet cells are usually large and heavy and can
    leak acid if tipped over.

19
Example Wet Cell.
  • A car battery is a collection of wet cells.
  • The wet substance is sulfuric acid
  • The plates are made of lead and lead oxide.
  • While a car is running it reverses the chemical
    reaction recharging the battery.
  • Eventually chemicals build up on the plate and
    the batter dies.

20
Dry Cell
  • Being large and heavy wet cells are useless for
    small devices like
  • Ipods
  • Laptops
  • Remotes
  • They use small portable cells called dry cells.
  • Dry cells contain a chemical paste and their
    electrodes are designed to save space.
  • It is common that several batteries are connected
    together to supply more voltage.


4.5 volts
21
Photovoltaic Cell
  • A photovoltaic cell (or solar )is made up of two
    layers.
  • These two layers are semiconductors.
  • When sunlight strikes the top layer electrons are
    given energy to move to the bottom layer.
  • This creates an electric current.

22
The Living Battery -Electrophorus Electricus
  • Aka the electric eel
  • Actually a freshwater fish.
  • It can produce up to 600 volts
  • This is five times the amount found in an
    electrical outlet
  • Uses the electric field to stun fish and to see

23
Activity Virtual solar race challenge
  • http//wsc.pv.unsw.edu.au/
  • This website allows you to build and name a
    virtual solar powered car
  • You are then able to race it against computer
    generated cars.

24
Activity Virtual solar race challenge
  • The important feature of this game is the design
    process.
  • You have a limited budget of 240,000 to build
    your car.
  • You need to decide on what balance of components
    are important for speed and power.

25
Conductors and Insulators
26
Conductors
  • A conductor is a substance that allows current to
    flow through it easily.
  • Examples are metals like
  • Copper used commonly in electric circuits
  • Aluminium More expensive, used when copper is
    unsuitable.

27
Insulators
  • Materials that do not allow current to pass
    through them are called Insulators.
  • Examples of insulators
  • Plastic
  • Rubber

28
Activity What is a Superconductor ?
  • Brief research assignment.
  • What are superconductors ?
  • What uses are there for superconductors?
  • Briefly describe how they work.
  • Useful links
  • http//superconductors.org/INdex.htm
  • http//science.howstuffworks.com/question610.htm

29
Energy Users
30
Not all metals conduct the same
  • All metals conduct electricity, but some do so
    better than others.
  • Tungsten and nichrome for example are not very
    good at conducting electricity.
  • Therefore electricity flows easier in copper
    wires than in tungsten.
  • This is called resistance.

31
Resistance
  • Resistance converts electrical energy into heat
    and light.
  • This is used in light globes with tungsten
    filaments.
  • Conductors have a low resistance
  • Insulators have a high resistance

32
Short Circuit!
  • Without any resistance (such as a globe or
    heating element) too much current can flow
    through a circuit.
  • This may generate too much heat in connecting
    wires or the energy source.
  • This might damage the circuit causing it to melt
    or catch fire!
  • This is known as a Short Circuit

33
Using Circuits
34
Series circuits
  • If two globes are arranged in a single line then
    they are said to be in series.
  • Although the current is said to each globe is the
    same, the voltage is shared between the two.
  • This means that the globes will both glow more
    dimly.
  • If one of the bulbs is removed or blows then
    the other globes in the circuit will not light
    up.

35
Parallel circuits
  • If two globes are arranged in separate branches
    of a circuit then the are said to be in parallel.
  • Each globe has the same amount of energy and
    voltage supplied to them .
  • The current is divided between them,
  • This means that they will glow with the same
    brightness
  • Also if one globe is removed from this circuit
    the other will still remain lit.

36
Examples Fairy Lights
  • SERIES
  • Parallel
  • In a parallel circuit all lights are powered by a
    low voltage source. A transformer reduces the
    voltage from 240 volts to 12 volts. All globes
    receive 12 volts.
  • Advantages
  • If one globes breaks all the other globes still
    have power.
  • This makes it easier to find the broken globe.
  • A series circuit arranged of 20 lights would
    share 240 volts from a power point.
  • Therefore each globe receives 12 volts.
  • Disadvantages
  • If one globes broke then all the other globes
    with also go out
  • This would make it difficult to find the bad
    globe.

37
Comparison of Series and Parallel
Type of Circuit Voltage Current
Series Split Normal
Parallel Normal Split
38
Complex circuits
  • Circuits can be combinations of series and
    parallel sections.
  • Current will always take the easiest way through
    a circuit.
  • A section with a single globe will be easier to
    travel on than a section with two.
  • Also it will carry twice as much current.

39
Household Circuits
  • Electrical wiring within you house is one big
    parallel circuit
  • Electrical companies supply 240 volts to your
    house.
  • Each power point creates an extra parallel
    section that receives the same 240 volts.

40
AC/DC
  • Direct Current (DC)
  • When the current flows in only one direction.
  • An example of this is a battery.
  • Alternating Current (AC)
  • Current flows backwards and forwards.
  • Energy is supplied to houses like this because it
    is easier to generate and transmit.

41
Electrical Safety.
42
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43
When something goes wrong
What's wrong here?
  • Short circuits occur when an easier path for
    current is created.
  • A huge current flows through causing the circuit
    to overheat and melt.
  • You could even become part of the circuit and be
    shocked or electrocuted!
  • To prevent this home circuits have fuses or
    circuit breakers.

44
Fuses
  • A fuse is a thin metal wire, that breaks when too
    much current passes through it.
  • Fuses are rated according to the amount of
    current that causes them to melt.
  • Therefore a 5 amp fuse will melt at a current of
    5 or more amps.

45
Circuit Breakers
  • Fuses used to be the most common method for
    protecting circuits within a house.
  • These days new houses are built with circuit
    breakers instead.
  • Circuit breakers are special switches that trip
    (turn off) the circuit if too much current flows
    through.

46
Electric Shock
  • Electric shock and electrocution (death by
    electricity) will occur if current finds a path
    through the body.
  • Only a small current can cause death.
  • The current damages your tissues and interferes
    with the electric signals that drive the heart
    and the brain.

47
Idiots and Electricity
Step 1 Climb electrical pole.
Step 2 Reach out and touch high voltage
conductor.
Step 3 16,000 volt Human fireball!
48
Electrical Burns
49
Emergency Procedures
  • If you find someone who has collapsed from an
    electric shock
  • Call OOO
  • Switch off main power (if possible)
  • Do not touch the person (otherwise you will get
    shocked)
  • You may be able to move the person if you use an
    insulating material (plastic rope, garden hose)

50
The Electric Chair
  • The electric chair was invented to replace
    hanging as a method of execution.
  • It was intended to be a quick and painless
    alternative
  • In the first ever electric chair execution 1000
    volts were applied.
  • This burnt skin and burst blood vessels
  • It still took another 70 seconds at 1300 volts to
    kill the prisoner.
  • Other prisoners convulsed so violently they broke
    their own arms and legs.
  • So really its not all that quick and painless !

51
The future of electronics
52
The Future of electronics ?
53
The Future of electronics ?
54
Current Technology
Tour Guide Robot - Toyota
Geminoid HI-1 -Hiroshi Ishiguro
Asimo - Honda
55
Asimo
  • ASIMO stands for Advanced Step in Innovative
    Mobility
  • ASIMO is a humanoid robot created by Honda motor
    company.
  • Height 130 cm Weight 54 Kg
  • By the end of 2007 there were only 46 ASIMO
    robots in existence.
  • Further Information
  • http//world.honda.com/ASIMO/

56
ASIMO evolution
  • ASIMO has been in the making for 20 years
  • In the picture above you can see the current
    ASIMO compared to its previous versions

57
Geminoid HI-1
  • Geminoid HI-1is a robotic replica of Professor
    Hiroshi Ishiguro.
  • Professor Ishiguro can operate Geminoid from a
    distance.
  • This allows him to give two lectures
    simultaneously at universities that are Kms
    apart.
  • Further Resources
  • http//www.irc.atr.jp/Geminoid/overview.html

58
Activity Science at work
  • Research a REAL robot
  • Create a presentation for the entire class
  • The selection of the robot is up to you
  • The form of the presentation is also up to you
  • Or make a Timeline of Robot development

59
Activity Design a Robot
  • Individually you are to design a robot to fulfil
    a specific function.
  • You must include a design of your robot with
    labelling to explain why each section is
    essential to its function.
  • You must also create a short comic strip that
    demonstrates your robot in action.
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