Energy Transfers

Question 1

How is energy lost in an electric heater?

Answer 1

Energy is lost to heat the copper that the tank is made from and to the atmosphere.

Question 2

Where is energy lost in a car?

Answer 2

Energy is used to overcome the various friction forces that oppose motion. This can also cause energy to be transferred to heat.

Lost as sound (engine noise)

Lots of energy is converted to heat which is lost or heats the surroundings

Question 3

What is the law for Conservation of energy?

Answer 3

Energy is not created or destroyed in any process. Only transferred from one form to another.

Question 4

What is the equation for efficiency?

Answer 4

useful output/total input x 100%

Question 5

Electrical energy

Answer 5

whenever a current flows

Question 6

Light energy

Answer 6

from the sun, luminous objects, light bulbs

Question 7

Sound energy

Answer 7

loudspeakers etc

Question 8

Kinetic energy

Answer 8

anything that possesses motion

Question 9

Nuclear energy

Answer 9

released only from nuclear reactions

Question 10

Thermal energy

Answer 10

flows from hot objects to cooler ones

Question 11

GPE

Answer 11

possessed by anything that can fall

Question 12

EPE

Answer 12

possessed by springs, elastic, rubber bands

Question 13

Chemical

Answer 13

possessed by foods, fuels, batteries

Question 14

What are gravitational and elastic potential and chemical energy?

Answer 14

Forms of stored energy

Question 15

An appliance is more efficient if it…

Answer 15

wastes less energy

Question 16

What happens to wasted energy?

Answer 16

It is always dissipated as heat

Question 17

What are the energy transfers for a microphone to and amplifier to a speaker?

Answer 17

sound - electrical - sound

Question 18

What does a TV transfer?

Answer 18

electrical - light and sound

Question 19

What do toy car batteries transfer?

Answer 19

chemical - electric - kinetic, sound, heat, light

Question 20

What does a batter charge transfer?

Answer 20

electrical to chemical

Question 21

What are GPE and Potential energy always transferred to first?

Answer 21

kinetic energy

Question 22

How will a Sankey diagram show if something is more efficient?

Answer 22

It will have thick arrow for the useful energy output

Question 23

What does a filament lamp sankey diagram look like?

Answer 23

Most energy is wasted as heat; only small % is useful output

Question 24

What is IR radiation?

Answer 24

transfer of heat energy by electromagnetic waves

Question 25

What do convection and conduction involve?

Answer 25

The transfer of energy by particles

Question 26

Conduction occurs mainly in…

Answer 26

solids

Question 27

Convection is the main method of heat transfer in…

Answer 27

fluids (liquids and gases)

Question 28

What can emit/absorb IR radiation?

Answer 28

all objects

Question 29

What makes heat transfer quicker?

Answer 29

the bigger the temperature difference

Question 30

All objects are continually doing what?

Answer 30

emitting and absorbing heat radiation

Question 31

What will an object do that is cooler than its surroundings?

Answer 31

It will absorb more radiation than it emits

Question 32

What will an object that is warmer than its surroundings do?

Answer 32

Emit more radiation than it absorbs

Question 33

What happens in the conduction of heat in terms of particles?

Answer 33

Vibrating particles which have gained more KE pass this gain in KE to neighbouring particles

Question 34

How does heat transfer via conduction lead to an increase in the heat radiating from the surface of the solid?

Answer 34

The process of particles sharing their KE is passed on throughout the solid causing rise in temp at the other side of the solid. This rise in temp means than the object now loses more heat from its surface as a means of cooling down again.

Question 35

What method of heat transfer works in a vacuum?

Answer 35

IR radiation

Question 36

When does convection occur?

Answer 36

When more energetic particles move from the hotter region to the cooler region and take their heat energy with them.

Question 37

How does convection work in an immersion heater?

Answer 37

Heat energy transferred from heater coils to water via conduction.

Particles near coils get more energy and move faster and because there is more distance between the particles, the water expands and becomes less dense.

Hotter, less dense water rises above the denser, cooler water and displaces it out of the way in doing so making it sink to the heater coils

Process repeats with convection currents and all water will be heated

Question 38

Where is convection most efficient?

Answer 38

In roundish/squarish containers because they allow the convection currents to work best

Question 39

Why is the water below the heater cold?

Answer 39

Because any hot water rises due to its low density - it wouldn’t sink down to displace cooler water!

Question 40

How is heat loss reduced in loft?

Answer 40

Thick layer of fibreglass wool laid out across loft floor and ceiling reduces heat loss from CONDUCTION AND CONVECTION

Question 41

What is draught-proofing?

Answer 41

Strips of foam/plastic around doors and windows to stop heat loss via CONVECTION

Question 42

How does a hot water tank jacket reduce heat loss?

Answer 42

Lagging such a fibreglass wool reduced conduction and radiation

Question 43

How does double glazing help reduce heat loss?

Answer 43

Two layers of glass for insulation with an air cavity to reduce CONDUCTION AND CONVECTION

Question 44

How do thick curtains reduce heat loss?

Answer 44

Reduce by stopping radiation and conduction

Question 45

How does cavity wall insulation help against heat loss?

Answer 45

Foam squirted into the gap between inner and outer bricks stop CONVECTION AND RADIATION by being lined with shiny foil to reflected the heat back in.

Insulating foam and trapped air pockets in it (air is an insulator) reduce CONVECTION

Question 46

How do humans reduce heat loss?

Answer 46

Clothes - trap air near skin to reduce convection and conduction because air is not a solid

Hair stands on end to trap a thicker layer of insulating air around the body - reduce CONVECTION

Clothes also reduce radiation as the material absorbs some of the heat radiated out by our bodies

Question 47

What happens when a force moves an object?

Answer 47

energy is transferred and work is done

Question 48

When is work done?

Answer 48

when energy is transferred

Question 49

What happens when work is done against friction?

Answer 49

most energy is transformed into heat and some sound

This is “wasted” energy

Question 50

WORK EQUATION

Answer 50

work = force x distance

Question 51

What is power?

Answer 51

the rate of doing work i.e. how much energy is transferred / second

Question 52

What is a powerful machine?

Answer 52

one that transfers a lot of energy in a short space of time

Question 53

POWER EQUATION

Answer 53

P = E/t

Question 54

What does kinetic energy depend on?

Answer 54

mass

velocity

Question 55

What is GPE?

Answer 55

the energy stored in an object of mass m when you raise it to height h against gravity g

Question 56

GPE EQUATION

Answer 56

m x g x h

Question 57

What is the kinetic energy gained equal to?

Answer 57

The GPE lost

Question 58

What are the non-renewable resources?

Answer 58

coal
oil
gas
nuclear

Question 59

What are the basic energy transfers in a power station?

Answer 59

fuel (chemical)

steam (heat energy)

turns a turbine (kinetic)

drives a generator (kinetic)

makes electricity (electrical)

Question 60

What are the advantages of burning fossil fuels?

Answer 60

Releases lots of energy relatively cheaply

Energy from fossil fuels not reliant on the weather - RELIABLE

We have lots of fossil fuel plants already so no money needs to be spent on new technology to use them

Question 61

What are the disadvantages of f fuels?

Answer 61

release CO2 into atmosphere when burned - global warming and climate change

burning coal and oil release S02 which causes acid rain; this damages tree, buiding and life

NON-RENEWABLE

Question 62

How is nuclear power generated?

TRANSFER FLOW CHART

Answer 62

Nuclear fission of uranium produces heat to make steam to drive turbines rather than burning.

NUCLEAR - HEAT - KINETIC - ELECTRICAL

Question 63

Disadvantages of nuclear power?

Answer 63

reactors are expensive to build and maintain - longer to start up than fossil fuel ones

processing of uranium before use causes pollution

risk of radioactive material leak

radioactive waste

expensive to decommission when they are old and inefficient

Question 64

Advantages of nuclear?

Answer 64

no greenhouse gases - NO GLOBAL WARMING

still plenty of uranium fuel reserves

Question 65

How does wind power work?

Answer 65

Put up lots of wind turbines in exposed places.

Wind turbines convert kinetic energy of moving air to electrical energy.

WIND TURNS BLADES WHICH TURN A GENERATOR INSIDE

Question 66

Advantages of wind power?

Answer 66

cheap to run

tough and reliable

free

no polluting waste and RENEWABLE

Question 67

Disadvantages of wind power?

Answer 67

spoil the view

noisy

wind not always strong enough to generator power when demand increases UNRELIABLE

Expensive to set up farms - especially out at sea

Question 68

How does geothermal energy work?

Answer 68

Hot rocks lie under ground

Water is pumped under ground and forced back up to pressure to turn a turbine and generator

HEAT - KINETIC - ELECTRICAL

Question 69

What else can geothermal be used for?

Answer 69

heat building directly

Question 70

What is the heat from rocks under ground made from?

Answer 70

slow decay of radioactive materials like uranium deep inside the Earth

Question 71

Advantages of Geothermal?

Answer 71

free
renewable
no real environmental issues

Question 72

Disadvantages of geothermal?

Answer 72

cost of drilling down

cost of building a plant is greater than the energy given out

few places where this is an economic option

Question 73

How do solar cells work?

Answer 73

transform light energy from the Sun directly into electrical energy

generate direct current

Question 74

Benefits of solar cells?

Answer 74

renewable energy source

expensive initially but after energy from sun is free and no running costs really

no pollution

good in remote places where there is not much choice and satellites

good to power calculators and watches

CAN BE CONNECTED TO RECHARGEABLE BATTERIES TO CREATE A SYSTEM THAT CAN STORE ENERGY DURING THE DAY FOR USE AT NIGHT

Question 75

Disadvantages of solar cells?

Answer 75

very expensive initially

used to generate electricity on a small scale

not practical and too expensive to connect to the National Grid - cost of doing so is more than achieved from the electricity generated

unreliable - NO SUN AT NIGHT

Question 76

How do solar panels work?

Answer 76

Black water pipes in a glass box. Glass traps heat and light that is absorbed by the black pipes and heats water.

Question 77

Ad/Disadvantages of solar panels?

Answer 77

Expensive to set up

renewable and free after time

good for small scale production

Question 78

How can solar power be used for cooking?

Answer 78

Curved mirror directs Sun’s heat and light on a pan.

Renewable energy source for outdoor cooking but slow, bulky and unreliable and needs strong sunlight to work!

Question 79

How does wave power work?

Answer 79

small wave converters take the up and down motion of waves and use it to drive a generator.

KINETIC - ELECTRICAL

Question 80

Advantages of wave power

Answer 80

no pollution

renewable

no fuel costs

minimal running costs

useful for small scale production on small islands

Question 81

Disadvantages of wave power?

Answer 81

spoil view

hazard to boats

UNRELIABLE - waves stop when wide and tide affected

high initial costs

Question 82

How does tidal power work?

FLOWCHART OF ENERGY CONVERSION

Answer 82

Tidal barrages are big dams built over estuaries with turbines in them.

Tide comes in and fills up estuary - driving turbines as it comes in

Water is then let out through turbines at a controlled speed and drives turbines

KINETIC - ELECTRICAL

Question 83

Advantages of tidal?

Answer 83

no pollution

renewable

predictable although not up to demand!!

no fuel cost

minimal running cost

Question 84

Disadvantages of tidal?

Answer 84

prevents free access by boats

spoils view

alters habitat for wildlife

height of tide is variable - low tide = LESS ENERGY

high initial costs

Question 85

How does HEP work?

Answer 85

Requires flooding of valley by building a dam

Rainwater caught and allowed through turbines converting GPE of water to KE as it falls.

This is converted to Electrical energy by a generator

Question 86

Advantages of HEP?

Answer 86

renewable

no pollution

no fuel and running costs

immediate response to INCREASED DEMAND

NO RELIABILITY ISSUES EXCEPT IN DROUGHT

Question 87

Disadvantages of HEP?

Answer 87

BIG Impact on the environment due to flooding the valley (rotting vegetation releases methane and CO2)

loss of habitat for some species

reservoirs unsightly

high initial costs

Question 88

How does pumped storage help with surplus electricity?

Answer 88

Spare electricity is used to pump water up to a higher reservoir

This can be released quickly during peak demand to supplement the steady delivery from big power stations

Question 89

Why is there surplus electricity at night with low demand?

Answer 89

large power stations have boilers that are left running all night leading to surplus electricity build up

Question 90

How is pumped storage different to HEP?

Answer 90

HEP generates power

Pumped storage is a way of storing energy which has already been generated

Question 91

What does a dynamo do?

Answer 91

converts kinetic energy of moving bicycle wheel into electrical energy. Lamp converts electrical energy to heat and light

Question 92

What are the energy conversions due to friction?

Answer 92

heat and sound

Question 93

How can you show conduction?

ICE, MATCH AND PAPER

Answer 93

1. Block of ice put into test tube under gauze so it doesn’t rise again and water at top is heated. Ice not melted because conduction doesn’t occur efficiently in fluids
2. Hold match away from flame. Only light when very near to flame; air is a poor conductor of heat.
3. cylinder of brass fitted onto some wood and paper around middle.

Paper is heated over flame.

Paper doesn’t brown on brass side as metal conducts heat away from the paper. Paper scorched on wooden side as wood is a bad conductor (heat just builds up under paper and scorches it)

Question 94

How do particles in a solid share their heat energy with particles around them?

Answer 94

they collide and share their KE

Question 95

Why does convection occur in fluids?

Answer 95

because convection requires particles that can move about and create convection currents

Question 96

How does convection help in mines?

Answer 96

A lit candle is placed in a mine with 2 chimneys. As the flame burns , air around it heats up, expands and becomes less dense.

This heated air rises up out of the mine through one chimney.

Low pressure in mine so fresh air rushed in to replace the lost air.

Question 97

What happens when heating water in a pan?

Answer 97

metal pan conducts heat from the flame which heats water particles.

Heated water rises because it is less dense and so cooler air replaces the water that rose

Question 98

What is IR radiation?

Answer 98

the transfer of heat energy by IR waves and does not involve particles.

Question 99

What does the rate at which objects emit IR depend on?

Answer 99

SA
difference in temp between object and surroundings
texture of surface
colour

Question 100

Best reflector of IR?

Answer 100

shiny, white

Question 101

Best absorber of IR?

Answer 101

matt black

Question 102

Summary of IR emitter and absorbers?

Answer 102

Black is better at absorbing than white.

Shiny is better at reflecting than matt

Question 103

How is a vacuum flask adapted for function?

Answer 103

PLASTIC STOPPER

• doesn’t conduct heat (insulator)
• prevent convection from taking place

VACUUM
- no particles so no convection or conduction

THIN SILVERED WALLS
-reduce radiation by reflected heat back into flask

Question 104

How does carpet prevent heat loss?

Answer 104

Air trapped in fibred prevents CONVECTION

Question 105

Cost efficiency?

Answer 105

Savings - initial cost

Question 106

Payback time?

Answer 106

initial cost/annual saving

Question 107

Explain what is meant by a non-renew energy source?

Answer 107

one that is not replaced at the same rate as it is used

Question 108

What is the greenhouse effect?

Answer 108

insulating effect of certain gases in Earth’s atmosphere.

They allow short-wavelength IR from Sun into Earth’s atmosphere but absorb the re-emitted long-wavelength IR.

This is trapped and heats the Earth.

Question 109

Why are fossil fuels not a clean way of producing energy?

Answer 109

They all have carbon in them and when burnt, release CO2. Damaging effect on environment

Question 110

Advantages of nuclear power?

Answer 110

There is enough to meet our energy requirements and with ‘breeder’ nuclear reactors to generate more nuclear fuel, meet demand indefinitely.

Question 111

Compare power stations for GAS, COAL, NUCLEAR AND HEP and how quickly they respond to changes in demand

Answer 111

gas - quite quick response

coal - longer to respond as takes longer to fire up

nuclear - only suited to steady supply as the reactors cannot be quickly run up to operating temp or closed down

HEP - very quick

Question 112

Light to chemical?

Answer 112

PHS

Question 113

Sound to electrical?

Answer 113

microphone

Question 114

Systematic error?

Answer 114

every result is wrong by the same amount

Question 115

Random error?

Answer 115

do same thing, repeat it but get different results

Question 116

Zero error?

Answer 116

instrument is not set to zero

Question 117

What is efficiency?

Answer 117

the fraction of energy supplied to a device which is transferred into a useful form

Question 118

If you throw an object vertically upwards with u of 20m/s how high will it reach before returning to Earth?

Answer 118

1/2mv2 = mgh (cancel m)

so 0.5 x (20)2 = 10 x h
so h = 20m