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Energy TransferSyllabusTitle PageLesson 01 Types of EnergyLesson 02 Energy EfficiencyLesson 03 Conduction and ConvectionLesson 04 Radiation and InsulationLesson 05 Insulating Homes
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Energy
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Energy Transfers 21/04/23Aim: To define energy To explain the purpose of a transducer and their
role in the conservation of energy To identify energy transfers
Starter: in rough Write down words / phrases about energy Compare with your neighbour Compare with your table Agree a definition of energy and one of you write it
down (can be more than one sentence)
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EnergyDefinition:
Energy is required to do anything (work) (e.g. heat up). Energy is always conserved, it is never used up or
destroyed it is transferred into another form (e.g. chemical to heat and light).
A transducer changes energy from one form to another (e.g. a match).
Symbol: EUnit: J (joules)
Analogy: Energy is like money. To do anything costs money. Money is not used up but changes hands when you pay for
something.
Handout Demo Burning Ethanol
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Types of energy There are two groups of energy and nine types you
need to learn In rough write down what types of energy you can
think of in 1 minute (think about the burning ethanol demo)
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Types of Energy
Electrical energy
ACTIVE (KINETIC) ENERGY STORED (POTENTIAL) ENERGY
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Types of Energy _________ _______ (KE) are all types of movement energy. _________ _______ (PE) are all types of stored energy.
Type KE or PE?
Example Sources
Kinetic (movement)
Heat (thermal) KE flame
Light
Gravitational
Chemical
Sound
Electrical
Elastic
Nuclear
Kids Hate Learning GCSE Energy Names
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On your white board write down the type of energy
1. Energy in a toffee
2. Energy in a running girl
3. Energy causing a light bulb to light
4. Energy given off by a stationary boy
5. Energy in music
6. Energy in a spring shot
7. Energy in a diver
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Energy TransfersWatch the demo (flour fire breathing)What energy transfers are occurring?
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Example Energy Transfers?
electrical kinetic
kinetic electricalelectrical sound
light chemical
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There can be more than one step
More Complicated Examples
gravitational potential
kinetic
electrical
Energy can be transferred into more than one type
electrical
light
heat sound
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Energy Circus Around the lab are a selection of transducers. For each one identify
All the energy transfers (every stage) Underline useful transfers Bracket wasted transfers Write the name and transfers into your books
Example (try in your books in pencil)1. Catapult Girl
Chemical
kinetic
kinetic
(heat)
elastic gravitation
al(heat)
(sound)
Elastic
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Identifying energy transfers
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Energy Transfers recapAim: To define a energy To explain the purpose of a transducer and their
role in the conservation of energy To identify energy transfers
Plenary: on whiteboards Write down the two most important things you have
learnt this lesson.
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Efficiency 21/04/23Aim: To create sankey diagrams To calculate efficiency
Starter: Watch the Movie (Roller Coaster) Identify the energy transfers How is energy wasted?
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Wasted sound energyIf you can hear a device that is not designed to make noise then energy is wasted as sound.
Examples of devices that waste energy as sound include:
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Wasted Heat EnergyIf a device gets warm and it is not designed to get warm then energy is wasted as heat.
Examples of devices that waste energy as heat include:
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Which Type of Energy is Wasted?
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Wasted Energy Energy is normally wasted as heat and sound Wasted energy dissipates (spreads out) into the
surroundings. This dissipated energy is too spread out to do useful
work and so cannot be re-used.
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Sankey Diagram – A Candle
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Sankey Diagram – A Candle
Energy in: Every second the candle transfers 100 joules of chemical energy
Energy out: 20 joules into light energy and 80 joules into heat energy
100 J electrical energy
“Input” energy “Output” energy
80 J heat energy
20 J light energy
So each block represents 10J
Only the width matters not the length
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Sankey Diagram – Running Man
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heat energy
sound energy
kinetic energy
2000 J electrical energy
Sankey Diagram - Running Man Energy in: Every second the man transfers 2000 J of chemical energy
Energy out: ? of useful kinetic, ? of useful sound, ? of wasted heat
So each block represents 200 J
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Questions• Draw Sankey diagrams for the following on graph paper.• Highlight the useful energy.• Leave the right hand side of the graph paper empty.1. Light Bulb
input: Electrical 200Joutput: Light 30J, Heat ?J
2. Fireinput: Chemical 200Joutput: Heat 150J, Light ?J and Sound 20J
3. Drill input: Electrical 1000Joutput: Kinetic 300J, Sound 200J, Heat ?J
4. Computerinput: Electrical ?Joutput: Sound 50J, Light 100J, Heat 80J and Kinetic 20J
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Questions Make Sankey diagrams for the following on graph paper. Highlight the useful energy. Leave the right hand side of the graph paper empty.1. Light Bulb
input: Electrical 200Joutput: Light 30J, Heat 170J
2. Fireinput: Chemical 200Joutput: Heat 150J, Light 30J and Sound 20J
3. Drill input: Electrical 1000Joutput: Kinetic 300J, Sound 200J, Heat 500J
4. Computerinput: Electrical 250Joutput: Sound 50J, Light 100J, Heat 80J and Kinetic 20J
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Energy Efficiency• Definition:
• The amount of energy transferred usefully.• Can never exceed 1 or 100%.
• Equation: • Efficiency = useful energy out
total energy in• It has no Units• It can be a %
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Example A TV Supplies 50J of heat energy, 50J of sound
energy, and 100J of light energy. a) What is the useful energy out?
b) What is the total energy in?
c) Calculate the efficiency of the TV?
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Whiteboard Questions
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Questionsa) What is the useful energy out?b) What is the input energy in?c) Calculate is the efficiency?1. Light Bulb
input: Electrical 200Joutput: Light 30J, Heat 170J
2. Fireinput: Chemical 200Joutput: Heat 150J, Light 30J and Sound 20J
3. Drill input: Electrical 1000Joutput: Kinetic 300J, Sound 200J, Heat 500J
4. Computerinput: Electrical 250Joutput: Sound 50J, Light 100J, Heat 80J and Kinetic 20J
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Electrical(total in)
Heat(wasted)
Light(useful)
200 J 170J
30J
a) useful energy out = 30Jb) total energy in =200Jc) Efficiency = useful
total=30
200=0.15 or 15%
1) Light Bulb
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Chemical(total in)
Heat(useful)
sound(wasted)
200 J
150J
20J
a) useful energy out = 150 + 30=180 J
b) total energy in =200 Jc) Efficiency = useful
total=180
200=0.9 or 90%
2) Fire
Light(useful)
30J
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Electrical(total in)
Kinetic(useful)
Heat(wasted)
1000 J
300J
500J
a) useful energy out = 300Jb) total energy in =1000Jc) Efficiency = useful
total=300
1000=0.3 or 30%
3) Drill
Sound(wasted)
200J
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Electrical(total in)
Sound(useful)
Heat(wasted)
250 J
50J
80J
a) useful energy out = 170Jb) total energy in =250Jc) Efficiency = useful
total=170
250=0.68 or 68%
4) Computer
Light(useful)
100J
Kinetic(useful)
20J
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Multiple-choice quiz
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Anagrams
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Efficiency recapAim: To create sankey diagrams To calculate efficiency
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