D-7 Notes

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Transcript D-7 Notes 

Electricity in the Home
Unit D: Topic 7
Transmission of Electricity
• Electricity starts as a power generating
station where it passes through two
different kinds of transformers:
• Step-up Transformers increase voltage so
that the current speeds up and electricity
is able to travel farther.
• Step-down Transformers decrease voltage
so that levels are less dangerous for
home.
From the Power line to the Home
• Distribution lines connect the power line to
the power metre located outside the
house. It then goes into the fuse box in the
house.
• From the service panel branch circuits
move to the separate outlets in the home.
These branch circuits have low resistance.
Branch Circuit
• Made up of three separate wires:
• 1. Neutral Wire – A ‘live wire’ insulated by
white cable.
• 2. Hot Wire – The other live wire insulated
by black cable.
• 3. Ground Wire – Channels excess
electricity away from load to prevent
electrical fires.
Fuses and Breakers
• Occasional electric surges send in too much
electricity that can ruin appliances and start fires.
There are two solutions.
• 1. Fuses – older solution. Thin wire melts when
there’s a surge breaking the circuit. Downside:
you have to replace fuse every time.
• 2. Circuit Breakers – new solution. Switch bends
away from circuit when too much voltage,
breaking the circuit. You just move the switch
back after.
Digital Devices
• Use micro switches called transistors set
in integrated circuits which make up
microprocessors.
• Transistors, and microprocessors use a
binary code: Either they are turned on (1)
or off (0). All digital devices from watches
to cd players rely on transistors.
Power Review
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Power = Energy/time
Calculating Electric Power: P = I*V
Units = Watt (W) (so I W = 1 J/s)
So P = E/t = I*V
Units are Watts (W), 1 Watt = 1
Joule/second.
• I = P/V V = P/I
Cost Review
• Cost of energy is measured in kilowatt-hours
(kWh), a non-standard unit of energy.
• A kWh is equal to the total electrical energy
needed to supply a 1000 W device for one hour.
• So if the going rate is 10¢ per kWh, you
measure the total energy used by the household
in kWh and multiply that number by 10 ¢ (or
$0.10)
• When reading an electric metre you round the
value down to the nearest whole number (see
fig. 4.47 on p. 324)
• Challenge: How many joules is 1 kWh?
Power Ratings
• Energuide ratings
state how many
energy in kWh an
appliance will use in a
year of typical use.
• The bar with the
triangle indicates how
efficient the appliance
is compared to similar
products.
Efficiency of Devices
• Efficiency = Useful Energy Output÷Total
Energy going in * 100%
• Remember Energy = Power * Time
(Measured in Joules)
Light Bulbs
• Incandescent – Most common lights. Only 5%
efficient, other 95% of energy is lost as heat.
• Halogen – Filled with high pressure gas. 15%
efficient. Last two-six times longer than
incandescent.
• Fluorescent – Contains mercury vapour which
excites powder causing it to glow. It’s 20%
Efficient. They last 10-13X longer but are more
expensive to buy.