transfer of thermal energy
DESCRIPTION
Conduction Convection Radiation Total TransferTRANSCRIPT
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TRANSFER OF THERMAL ENERGY
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Introduction Thermal energy is the total kinetic
energy of the atoms or molecules in a body.
The energy is transit from a high temperature object to a lower temperature object.
The amount of thermal energy transferred is the amount of heat that flowed.
Thermal energy is transferred in three different ways: conduction, convection and radiation.
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ConductionConduction is the process by which thermal
energy is transmitted through a medium from one particle to another.
Example;When we placed one end of an iron rod in fire, the
other end also heats up after a while.
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For all solids, conduction takes place when thermal energy is transferred from one particle to the next.When one end of a rod is heated, the molecules gain
energy and vibrate faster. These molecules collide with their less energetic neighbours.
Their energy is transferred to these neighbouring molecules which in turn gain kinetic energy. Thermal energy is passed along the rod by the vibrating molecules.
This transfer of energy continues on until the cold end reaches the same temperature as the hot end.Transfer of Thermal Energy4
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More thermal energy is transferred every second if:The temperature difference across the ends
of the bar is increasedThe cross-sectional area of the bar is increased
The length of the bar is reduced
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Conduction of thermal energy in metals is far better than in other solids as conduction takes place through vibrating molecules as well as using free electrons in metals.When heated, the free electrons gain energy and move
faster. They are free to travel in the spaces between the molecules
before colliding with other electrons and molecules and transferring some of their energy to them.
This process is much faster than the conduction by vibration of molecules in the body.
Hence metal conducts heat much faster than non-metals which have no free electrons.
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Comparing four good thermal conductors
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Good conductors
Poor conductors (insulators)
GoldSilver
CopperIron
BrassAluminium
GlassStoneWater
PlasticsWood
Polystyrene foamWool
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1. A person holds a glass beaker in one hand and fills it quickly with hot water. It takes several seconds before his hand starts to feel the heat.
Why is there this delay?A. Glass is a poor conductor of heat.B. Glass is a good conductor of heat.C. Water is a poor conductor of heat.D. Water is a good conductor of heat.
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2. An iron bar is held with one end in a fire. The other end soon becomes too hot to hold.
How has the heat travelled along the iron bar?
A. by conductionB. by convectionC. by expansionD. by radiation Transfer of Thermal Energy10
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3. An experiment is set up to find out which metal is the best conductor of heat. Balls are stuck with wax to rods made from different metals, as shown in diagram X.
The rods are heated at one end. Some of the balls fall off, leaving some as shown in diagram Y.
Which labelled metal is the best conductor of heat?
A
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4. A rod is made up of copper and wood joined together.
5. After the rod is heated at the join in the centre for about a minute, where would the lowest temperature be?
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A
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ConvectionLiquids and gases are poor thermal conductors,
but if they are free to circulate, they can carry thermal energy from one place to another very quickly.
Convection is the process by which thermal energy is transmitted from one place to another by the movement of heated particles of a gas or a liquid.
The molecules in solids only vibrate about their fixed positions.
In convection, the atoms or molecules move from one place to another. Thus the transfer of thermal energy depends on the transfer of heated matter.
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Convection in LiquidsThe circulation of liquid in
this demonstration is called a convection current.
It is due to the effect of heat at the bottom of the liquid.
When a liquid is heated, it expands, becomes less dense, and float upwards.
The cold and denser liquid moves down to replace it.
This in turn gets heated up.
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Convection in GasesConvection occurs much more readily in gases
than in liquids because they expand much more than liquids when their temperature rises.
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1. The diagram shows a block of ice placed in a warm room.
At which point is the temperature the lowest?
DTransfer of Thermal Energy16
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2. Thermometer X is held above an ice cube and thermometer Y is held the same distance below the ice cube. After several minutes, the reading on one thermometer changes. The ice cube does not melt.
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Which thermometer reading changes and why?
C
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3. A beaker contains water at room temperature.
How could a convection current be set up in the water?
A. cool the water at XB. cool the water at YC. stir the water at XD. stir the water at Y Transfer of Thermal Energy19
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4. Two plastic cups are placed one inside the other. Hot water is poured into the inner cup and a lid is put on top as shown.
Which statement is correct?A. Heat loss by radiation is prevented by the small
air gap.B. No heat passes through the sides of either cup.C. The bench is heated by convection from the
bottom of the outer cup.D. The lid is used to reduce heat loss by convection.Transfer of Thermal Energy20
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5. The diagrams show four identical pieces of ice that are heated in test-tubes of water. In which test-tube will the ice take the longest time to melt?
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B
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6. Which line in the table is correct about conduction and convection?
B
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7. A heating element is positioned in a narrow sealed tube of liquid.
8. What would be the best place to position the heating element in order to obtain the best circulation of the liquid through the tube?
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C
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8. The diagram shows a refrigerator. The cooling unit is placed at the top. The cooling unit cools the air near it.
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1. What happens to the density of this air as it cools and how does it move?
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C
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9. An experiment is carried out as shown in the diagram.
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Why does the ice take a long time to melt, even though the water at the top of the tube is boiling?
A. Convection never occurs in water.B. Ice is a poor conductor of heat.C. The gauze prevents the energy reaching
the ice.D. Water is a poor conductor of heat.
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10. Density changes are responsible for which method of thermal energy transfer?
A. conduction onlyB. convection onlyC. radiation onlyD. conduction, convection and radiation
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11. A heater is placed in a room.12. Which diagram shows the movement of
air as the room is heated?
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A
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12. The diagram shows a fire.
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1. Why does the smoke rise above the fire?A. Smoke evaporates more quickly at higher
temperatures.B. Smoke molecules diffuse more quickly at
higher temperatures.C. The density of the air is lower at higher
temperatures.D. The pressure of the air is greater at higher
temperatures.
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RadiationConduction and convection require a medium to
transfer thermal energy. However radiation does not require any medium – it can take place in a vacuum.
Radiation is the transfer of thermal energy by electromagnetic waves. Transfer of Thermal Energy33
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The source of thermal energy in radiation transmits energy in the form of waves.
Theses waves are known as infra-red radiation which is part of electromagnetic spectrum.
When absorbed, the energy of the waves transform into thermal energy of the receiving body.
Radiation is the means by which energy reaches us from the Sun.
The Sun’s energy travels to Earth as electromagnetic waves at the speed of light.
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Emission of Radiation
The hotter the object is, the more energy it radiates.
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The temperature of the tube with the dull black surface is found to decrease more rapidly than that of the shiny tube.
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Absorption of RadiationA body’s temperature rises when it absorbs
radiation.
Observation shows that the wax on the blackened lid melts in a short time, and the cork on it falls off.
The shiny lid remains fairly cool and the wax on it remains unmelted.
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The rate of energy transfer by radiation is affected by:surface temperaturecolour and texture of the surface
surface area
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The experiment shows that a dull black surface absorbs radiation much better than a shiny surface.
A good emitter is also a good absorber.The shiny surface is a good reflector of thermal
energy. Transfer of Thermal Energy38
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1. How does thermal energy (heat energy) travel through the vacuum between the Earth and the Sun?
A. by conductionB. by convectionC. by radiationD. by radioactive decay
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2. The diagram shows four similar cans. Each can contains the same volume of water initially at 80 °C. After five minutes, which can will contain the coolest water?
A
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3. The diagram shows a thick copper plate that is very hot. One side is black, the other is shiny.
A student places her hands the same distance from each side as shown.
Her left hand feels warmer than her right hand.
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Which statement is the correct conclusion from the experiment?
A. The black side is hotter than the shiny one.B. The black side radiates more heat.C. The shiny side radiates more heat.D. The shiny side is cooling down faster than
the black side.
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4. A student needs a double-walled glass vessel to contain a hot liquid.
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1. What reduces heat losses by radiation?A. a vacuum in the space between the wallsB. painting surface Q blackC. painting surface R blackD. painting surface S silver
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5. Bread can be cooked by placing it below, but not touching, a heating element.
6. Which process transfers thermal energy from the heating element to the bread?
A. conductionB. convectionC. insulationD. radiation
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Heat Transfer at HomeHeat energy is transferred by conduction
through the walls, floor, roof and windows. It can be transferred by convection where
cold air can enter the house through gaps in doors and windows. Convection currents can also transfer heat energy in the loft to the roof tiles.
Heat energy also leaves the house by radiation through the walls, roof and windows.
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Thermal Transfer in Building
Since air is a very poor conductor, good insulation can be achieved by trapping air in between two sheets of glass in double-glazed windows.
This will reduce conduction of thermal energy through the windows and keep the room warmer during cold seasons and cooler during warm weather.
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Convection currents drive hot water from the top of the boiler into the hot water storage tank.
Cold water from the storage tank is drawn down to the boiler, where it turn becomes heated.
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The cooled air blown sinks as it is more denser than the warm air in the room.
The warm air is displaced by the cold air rises, and is drawn to the air-conditioner where it is cooled.
Eventually the room air temperature will drop down to the temperature set on the thermostat of the air-conditioner.Transfer of Thermal Energy50
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Houses in hot countries are often painted in white to keep them cool.
Factory roofs are sometimes coated with aluminium paint. This reduces the absorption of radiation during the day, and cuts down the emission of radiation during the night.
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Vacuum Flask
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A vacuum flask can keep drinks hot (or cold) for hours. It has these features for reducing the rate at which thermal energy flows out (or in):An insulated stopper to reduce conduction and convection.A double-walled container with a gap between the walls. Air has been removed from the gap to reduce conduction and convection.Walls with silvery surface to reduce thermal radiation.
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1. The diagram shows a cooling unit in a refrigerator.
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Why is the cooling unit placed at the top?
A. Cold air falls and warm air is displaced upwards.
B. Cold air is a bad conductor so heat is not conducted into the refrigerator.
C. Cold air is a good conductor so heat is conducted out of the refrigerator.
D. Cold air stops at the top and so prevents convection.
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2. There is a vacuum between the double walls of a vacuum flask.
Which types of heat transfer are reduced by the vacuum?
A. conduction and convectionB. conduction and radiationC. convection and radiationD. conduction, convection and radiation
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3. The heat from the hot water in a metal radiator passes through the metal and then spreads around the room.
What are the main processes by which the heat is transferred through the radiator and then spread around the room?
B Transfer of Thermal Energy56
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4. The diagram shows a room seen from above. It is cold outside the room. The room is heated by a small fire in the fireplace.
Where is most heat lost by convection?A. carpetB. chimneyC. glass windowD. solid wall
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5. Fibre is used for home insulation in a cold country, as shown in the diagram.
Heat cannot easily escape through the ceiling because the fibre
A. traps air.B. is warm.C. is tightly packed.D. heats the roof space.
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6. A double-glazed window has two sheets of glass separated by a layer of air.
7. Thermal energy is conducted and convected through the layer of air. The amount of conduction and convection varies with the thickness of the layer of air, as shown in the graph.
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1. Which thickness of air produces the smallest energy transfer, and why?
A. 0.5 cm because there is little convectionB. 1.0 cm because the total thermal energy
transfer is leastC. 1.5 cm because the total thermal energy
transfer is small and conduction is lowD. 2.0 cm because there is little conduction
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7. A cupboard is placed in front of a heater. Air can move through a gap under the cupboard.
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1. Which line in the table describes the temperature and the direction of the air that moves through the gap?
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B
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LEARNING OUTCOME
TRANSFER OF THERMAL ENERGY
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ConductionDescribe how to distinguish between good
and bad conductors of heat.Describe in molecular terms how heat
transfer occurs in solids.
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ConvectionDescribe convection in fluids in terms of
density changes.
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RadiationDescribe the process of heat transfer by
radiation.Describe how to distinguish between good
and bad emitters and good and bad absorbers of infra-red radiation.
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Total transferDescribe how heat is transferred to or from
buildings and to or from a room.State and explain the use of the important
practical methods of heat insulation for buildings.
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