Core Practical: Investigating Thermal Energy (Edexcel IGCSE Science (Double Award))

Revision Note

Leander Oates

Last updated

Core practical 8: investigating thermal energy

Experiment 1: investigating conduction

Aim of the experiment

  • The aim of the experiment is to investigate the rate of conduction in four different metals

Variables

  • Independent variable = Type of metal

  • Dependent variable = Rate of conduction

  • Control variables:

    • Size and thickness of metal strips

    • Amount of wax used

    • Identical ball bearings

Equipment

Equipment list

Equipment

Purpose

Bunsen burner

To heat substances

Heatproof mat

To protect surfaces

Stop watch

To measure time

Conduction ring (with rods of iron, copper, brass and aluminium)

Different metals to investigate the thermal conductivity of

Ball bearings

To attach to the ends to the metal strips

Wax

To attach ball bearings to metal strips

Clamp stand

To hold the conduction ring

  • Resolution of measuring equipment:

    • Stopwatch = 0.01 s

Method

Conduction experiment, IGCSE & GCSE Physics revision notes

The above apparatus consists of 4 different metal strips of equal width and length arranged around an insulated circle

  1. Attach ball bearings to the ends of each metal strip at an equal distance from the centre, using a small amount of wax

  2. The strips should then be turned upside down and the centre heated gently using a bunsen burner so that each of the strips is heated at the central point where they meet

  3. When the heat is conducted along to the ball bearing, the wax will melt and the ball bearing will drop

  4. Time how long this takes for each of the strips and record in a table

  5. Repeat the experiment and calculate an average of each time

Analysis of results

  • Order the metals according to their thermal conductivity

    • The first ball bearing to fall will be from the rod that is the best thermal conductor

  • This is because materials with high thermal conductivity heat up faster than materials with low thermal conductivity

High & Low Thermal Conductivity, downloadable IGCSE & GCSE Physics revision notes

Examples of materials with high and low thermal conductivity

  • The results should show that the conductivity, ranked from highest to lowest, is:

    • Copper (fastest time for ball bearing to fall)

    • Aluminium

    • Brass

    • Iron (slowest time for ball bearing to fall)

Experiment 2: investigating convection

Aims of the experiment

  • The aim of the experiment is to investigate the rate of convection of potassium permanganate crystals in two different temperatures of water

Variables:

  • Independent variable = Temperature of water

  • Dependent variable = Rate of convection

  • Control variables:

    • Amount of water in beaker

    • Size of Bunsen burner flame

    • Size of potassium permanganate crystal

Equipment

Equipment list

Equipment

Purpose

Bunsen burner

To heat the beaker of water

Heatproof mat

To protect surfaces

Stop watch

To measure time

Potassium permanganate crystals

To show the convection current

Tripod and gauze

To place the beaker on

Beaker

To contain the water and crystal

Forceps

To handle the crystals

  • Resolution of measuring equipment:

    • Stopwatch = 0.01 s

Method

Convection Apparatus, downloadable IGCSE & GCSE Physics revision notes

Apparatus used to investigate potassium permanganate crystals undergoing convection in water

  1. Fill the beaker with cold water (not too full) and place it on top of a tripod and heatproof mat

  2. Pick up the crystal using forceps and drop it into the centre of the beaker – do this carefully to ensure the crystal does not dissolve prematurely

  3. Heat the beaker using the Bunsen burner and record observations

  4. Repeat experiment with hot water and record observations

Analysis of Results

Potassium Convection Results, downloadable IGCSE & GCSE Physics revision notes
  • Energy is initially transferred from the Bunsen flame through the glass wall of the beaker by conduction

  • The water in the region of the Bunsen flame is heated and the space between the water molecules expands, therefore, the water becomes less dense and rises

    • This causes the dissolved purple crystal to flow upwards with the water

  • Meanwhile, when the water at the top of the beaker cools, there is less space between the water molecules and the water becomes denser again and falls downwards

  • The process continues which leads to a convection current where energy is transferred through the liquid

    • The dissolved purple crystal follows this current which can be clearly observed during this experiment

  • It should be observed that the convection current is faster in hot water

    • This is because the higher the temperature, the higher the kinetic energy of the water molecules

  • Therefore, in hot water, the water molecules and the the molecules of potassium permanganate move around the beaker faster

Experiment 3: investigating radiation

Aims of the experiment

The aim of the experiment is to investigate how the amount of infrared radiation absorbed or radiated by a surface depends on the nature of that surface

Variables

  • Independent variable = Colour

  • Dependent variable = Temperature

  • Control variables:

    • Identical flasks (except for their colour)

    • Same amounts of hot water

    • Same starting temperature of the water

    • Same time interval

Equipment

Equipment list

Equipment

Purpose

Heatproof mat

To protect surfaces and reduce heat loss

Stop watch

To measure time taken for cooling

Kettle

To boil water

4 thermometers

To measure the water temperature in each flask

Flasks painted different colours (black, dull grey, white, silver)

To investigate the heat loss of different colours

  • Resolution of measuring equipment:

    • Thermometer = 1°C

    • Stopwatch = 0.01 s

Method

Beakers Infrared Experiment, downloadable IGCSE & GCSE Physics revision notes

Different coloured beakers for investigating infrared radiation apparatus

  1. Set up the four identical flasks painted in different colours: black, grey, white and silver

  2. Fill the flasks with hot water, ensuring the measurements start from the same initial temperature

  3. Note the starting temperature, then measure the temperatures at regular intervals, e.g. every 30 seconds for 10 minutes

Results

Example results table

Required Practical Infrared Results Table, downloadable IGCSE & GCSE Physics revision notes

Analysis of results

  • All objects emit infrared radiation, but the hotter an object is, the more infrared waves are emitted 

  • The intensity (and wavelength) of the emitted radiation depends on:

    • The temperature of the body (hotter objects emit more thermal radiation)

    • The surface area of the body (a larger surface area allows more radiation to be emitted)

    • The colour of the surface

  • Most of the energy lost from the beakers will be by heating due to conduction and convection

    • This will be equal for each beaker, as colour does not affect energy transferred by conduction and convection 

  • Any difference in energy transferred away from each beaker must, therefore, be due to infrared radiation

  • To compare the rate of energy transfer away from each flask, plot a graph of temperature on the y-axis against time on the x-axis and draw curves of best fit

  • The expected results are shown on the graph below:

thermal-radiation-practical-graph

Example graph of the expected results for the different coloured beakers

Evaluating the experiments

Systematic errors

  • For experiment 1:

    • Allow the rods to cool to room temperature before heating so that they all begin at the same temperature

  • For experiment 3:

    • Make sure the starting temperature of the water is the same for each material since this will cool very quickly

    • It is best to do this experiment in pairs to coordinate starting the stopwatch and immersing the thermometer

    • Use a data logger connected to a digital thermometer to get more accurate readings

Random errors

  • For experiment 1:

    • Avoid handling the rods and the wax too much before heating

  • For experiment 3:

    • Make sure the hole for the thermometer isn’t too big, otherwise, thermal energy will escape through the hole

    • Take repeated readings for each coloured flask

    • Read the values on the thermometer at eye level, to avoid parallax error

Safety considerations

  • Safety goggles should be worn when using a Bunsen burner

  • Ensure the safety (orange) flame is on when the Bunsen burner is not heating anything

  • Potassium permanganate in its solid form is an oxidiser, harmful if swallowed and harmful to aquatic life

  • Keep water away from all electrical equipment

  • Make sure not to touch the hot water directly

    • Run any burns immediately under cold running water for at least 5 minutes

  • Do not overfill the kettle

  • Make sure all the equipment is in the middle of the desk, and not at the end to avoid knocking over the beakers

  • Carry out the experiments only whilst standing, in order to react quickly to any spills or burns

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Leander Oates

Author: Leander Oates

Expertise: Physics

Leander graduated with First-class honours in Science and Education from Sheffield Hallam University. She won the prestigious Lord Robert Winston Solomon Lipson Prize in recognition of her dedication to science and teaching excellence. After teaching and tutoring both science and maths students, Leander now brings this passion for helping young people reach their potential to her work at SME.