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Heating & Cooling

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Heating & Cooling

Heating & Cooling
KS3

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  • The piston can be dragged however the gas particles WILL NOT move the piston if the temperature is increased.

Heating & Cooling Heating & Cooling Presentation Transcript

  • KS3 Physics 8I Heating and Cooling
  • Contents 8I Heating and Cooling Heat and temperature Conduction and convection Changes of state and evaporation Summary activities Radiation
  • What is heat? Heat is a type of energy. Heat is the name for the type of kinetic energy possessed by particles. If something gains a lot of heat energy, it becomes hot – so what is temperature ? Heat energy is measured in joules ( J ). How many joules are there in a kilojoule ( kJ )?
  • What is temperature? Temperature is a measure of how hot or cold an object is. ( It is not the total amount of energy contained in the object.) Temperature is measured in degrees Celsius (º C ). The freezing point of water is defined as 0ºC (at 1 atm.). The boiling point of water is defined as 100ºC (at 1 atm.). Temperature can be measured by a variety of different thermometers. These include liquid in glass, digital, thermocouple and bimetal strip thermometers.
  • Heat transfer The correct phrase for heat transfer is ‘ thermal transfer ’. Heat energy can be transferred (moved) by four processes: 1. conduction 2. convection 3. evaporation 4. radiation In each process, thermal energy is also transferred in the way: Heat energy only flows when there is a temperature difference. HOT COLD
  • The particle model
    • All substances are made up of particles (atoms, ions or molecules).
    • These particles are attracted to each other, some strongly and others weakly.
    • These particles move around (i.e. have kinetic energy).
    • The kinetic energy of particles increases with temperature.
    The differences between solids, liquids and gases can be explained by the particle model :
  • Temperature and energy What happens to the gas as the temperature increases? Would this be the same for solids and liquids?
  • Contents 8I Heating and Cooling Heat and temperature Conduction and convection Summary activities Radiation Changes of state and evaporation
  • Conduction experiment
    • Take care whilst doing this experiment:
    • Wear safety glasses.
    • Do not touch mot metal objects!
    • Wash any burn with cold water for ten minutes.
    Conduction of heat in different materials can be investigated in an experiment. Apparatus: 8 cm strip of copper 8 cm piece of wood Bunsen burner stopwatch blob of wax
  • Conduction experiment
    • Add a blob of wax to one end of the copper and hold the other end in the yellow Bunsen flame.
    • How long does it take for the wax to melt and drop off the metal strip?
    • Now do the same for wood.
    • Why are the times very different?
  • Conduction in metals
    • Metals are good conductors of heat because:
    • Metals have atoms inside them and lots of free electrons .
    • The free electrons can move around and vibrate.
    • The heat energy is passed on by neighbouring particles vibrating along the metal.
  • Conduction – compare a metal and a non-metal Which material feels warmer if you touch a piece of wood and a piece copper metal, both at room temperature (i.e. both at 25ºC)? The wood feels warmer because it is a poor conductor. It cannot conduct heat away from your hand as quickly as the copper which is a good conductor.
  • Conduction in non-metals Non-metals are poor conductors of heat. In a non-metal, heat energy is only passed on by neighbouring particles vibrating along the non-metal (no free electrons). This allows a flow of energy from hot to cold.
  • Conduction in liquids Metals are good conductors of heat and non-metals are poor conductors of heat ( insulators ). Are liquids good at conducting heat?
    • Use some gauze to hold an ice cube at the bottom of a tube of water.
    • Carefully heat the water at the top of the tube only, until this water is boiling.
    • If the liquid is good at conducting, the ice should quickly melt – it doesn’t.
    0ºC 100ºC
    • Liquids are poor conductors of heat (i.e. good insulators ).
  • Conduction in gases Liquids are poor conductors of heat (good insulators). Are gases good at conducting heat?
    • Carefully hold a safety match 1 cm away from a Bunsen burner flame. (Do not put the match in the flame!)
    • If a gas is a good conductor, the air between the flame and the match should conduct heat and light the match – it doesn’t.
    • Gases are poor conductors of heat (i.e. good insulators ).
  • Conduction – summary table
  • Convection and density To understand how heat can be transferred by convection , the idea of density is important. If water, oil and air are mixed up, they will settle out in order of density – which one will rise to the top? The air is least dense and rises to the top, the water is the most dense and sinks to the bottom – it depends on how far apart the particles are.
  • Convection current in a liquid Can you explain how the convection current moves using the idea of density ? The movement of hotter areas in a liquid can be seen using potassium permanganate as a dye: This cycle is called a convection current . heat heat
  • Convection current in a gas Convection currents cannot occur in solids because the particles are held in fixed positions – but can they occur in gases?
    • Place a candle at one side of a litre beaker.
    • Place a piece of card down the centre, leaving a gap of 2cm at the bottom.
    • Make some smoke with smouldering spills and
    • watch the path of the smoke.
    Can you explain why this happens?
  • Convection currents in coal mines When shaft mining was first used to mine coal, convection currents caused by an underground fire were used to ventilate the shafts: Why do you think miners don’t use this method anymore?
  • Convection currents in a pan of boiling water
  • Contents 8I Heating and Cooling Heat and temperature Conduction and convection Summary activities Radiation Changes of state and evaporation
  • Radiation Heat can move by travelling as infrared waves . These are electromagnetic waves, like light waves, but with a longer wavelength. This means that infrared waves act like light waves:
    • They can travel through a vacuum.
    • They travel at 300,000,000 m/s.
    • They can be reflected.
    • They cannot travel through opaque materials.
  • Radiation experiment – instructions Paint four thermometer bulbs with the following colours: black white silver red
    • Place each thermometer into very hot water for one minute.
    • Take it out of the water, start the stopwatch and read the temperature.
    • Read the temperature every 30 seconds and record the results in a table.
  • Radiation experiment – results table Which colour of the thermometer bulb radiated most heat? white
  • Radiation experiment – results analysis Either: Or: b) Draw a line graph of your results. Put temperature on the y axis and time on the x axis. Draw four lines on the graph, one for each colour. a) Draw a bar chart of your results. Put temperature change on the y axis and colour on the x axis.
  • Radiation investigation A cup of tea takes up to 30 minutes to go cold. This depends on the colour and shape of the cup. Design an investigation to find out the best shape and colour of a cup to keep tea warm for longer.
  • Contents 8I Heating and Cooling Heat and temperature Conduction and convection Summary activities Radiation Changes of state and evaporation
  • States of matter and temperature
    • At a cold enough temperature, even substances that are normally gases will become solid.
    • At higher temperatures, solids change to become liquids or gases – as long as they don’t catch fire or decompose first.
    Water can be a solid, liquid or gas.
  • Changes of state Each change of state is given a different name: solid liquid gas melting freezing boiling condensing
  • Changes of state activity
  • Changes of state – heating curve If a solid is heated, its temperature rises until it reaches the melting point of the solid. At the melting point, the temperature stops rising whilst the solid melts. This is because heat energy is going into separating the particles rather than raising the temperature. Once all the solid has melted, the temperature starts to rise again until it reaches the boiling point. At the boiling point the temperature again stays the same as energy goes into further separating the particles.
  • Changes of state – heating curve temperature time melting  freezing  solid  liquid boiling  condensing  liquid  gas solid liquid gas
  • Changes of state – cooling curve activity
  • What is evaporation? Evaporation occurs when the particles in a liquid escape to form a vapour. Evaporation can occur at any temperature but it occurs most rapidly at a liquid’s boiling point. The particles that escape take some energy from the remaining particles and so the temperature of the liquid falls. Evaporation is another method of heat transfer.
  • Evaporation experiment
    • Take four equal masses of cotton wool and soak each one in a different liquid – ethanol, water, propanol and octanol.
    • Wrap each piece of cotton wool around the bottom of a thermometer and secure it with a rubber band.
    • Read the temperature every 0.5 minutes and record the results in a table.
    Evaporation from different liquids can be investigated using this experiment:
  • Evaporation experiment – results table
  • Evaporation experiment – results analysis Either: 1. Draw a bar chart of your results. Put temperature change on the y axis. Put type of liquid on the x axis. Or: 2. Plot a line graph of your results. Put temperature on the y axis. Put time on the x axis. Plot four lines, one for each liquid. Are any of the results anomalous?
  • Contents 8I Heating and Cooling Heat and temperature Conduction and convection Summary activities Radiation Changes of state and evaporation
  • Glossary
    • conduction – The way that heat energy travels through solids because their particles are close together.
    • conductor – A material that allows heat energy to flow through it.
    • convection – The way that heat energy travels through liquids and gases because their particles are free to move.
    • heat – A form of energy, measured in joules (J).
    • heating – The transfer of heat energy.
    • insulator – A material that does not allow heat energy to flow through it.
    • radiation – The transfer of heat energy by electromagnetic waves, and which does not need a medium.
    • temperature – How hot or cold an object is, measured in degrees Celsius ( ° C).
  • Anagrams
  • Heat transfer questions 2. Why does take-away food often come in aluminium containers? 3. Why do elephants have big ears? 1. How does a cup of tea lose heat by conduction, convection, evaporation and radiation?
  • Heat transfer – energy losses Name the three processes that cause energy to be lost from the home. Which areas of the house lose energy? What can be done to prevent this energy loss?
  • Multiple-choice quiz