Demonstrating Conduction (Cambridge (CIE) IGCSE Physics)
Revision Note
Written by: Lindsay Gilmour
Reviewed by: Caroline Carroll
Did this video help you?
Experiments demonstrating thermal conductors
Good and bad thermal conductors
Good thermal conductors are solids which easily transfer heat
For example; a metal pan or a ceramic tea cup
Bad thermal conductors (also called insulators) are solids which do not transfer heat well
For example; a wool blanket or layers of cardboard or paper
Comparing conduction in tiles and textiles
This conduction experiment shows why homes use rugs and carpets
Find a tiled or stone area of floor
In the same room leave a rug or bath towel (not a thin cloth, it must be thick)
The textile must stay in place on the floor for several hours to ensure they are at thermal equilibrium (the same temperature)
Stand with bare feet (hands can be used)
Place one foot on the tiles or stone area, and the other on the textile (towel or rug)
Observe the apparent temperature of the two materials as felt through the feet
It will feel as though the tiles are cold while the rug is warm, however, they are at exactly the same temperature
Energy is transferred by heating from the hotter foot to the cooler tiles by conduction
Explanation
Tiles and stone are good conductors of heat
Where the foot touches the tiles, heat is transferred away from the foot, making it feel cold
The foot has become colder since it lost heat to the tiles
Textiles such as rugs are good insulators, meaning they are poor conductors of heat
Where the foot touches the rug, heat is not transferred away from the foot
This foot feels relatively warmer than the one which has lost heat to the tiles
The foot has stayed at its starting temperature
Comparing conduction in wood and paper
A cylindrical rod made of half wood and half metal is wrapped tightly in paper
Method for showing different thermal conduction of wood and metal
Using a gentle flame, and holding the rod clear of the top of the flame, gently heat the paper at the join of the wood and metal
Turn the rod so that the paper is well-heated all around the circumference of the rod
Stop when the paper is clearly discoloured
Remove the rod from the flame, gently unwrap the paper and observe the burn pattern
A distinct pattern is seen;
Where the paper touched the metal surface it is undamaged
Where the paper touched the wood surface it is charred
Explanation
Metal is a good conductor of heat
Where the paper touched the metal in this conduction experiment, heat was transferred from the paper into the metal and along the length of the metal
This prevented the paper getting hot
Wood is a good insulator, meaning it is a poor conductor of heat
Where the paper touched the wood, heat was not transferred from the paper
This meant that the paper did get hot enough to start to burn
Demonstrating different rates of thermal conduction in metals
A simple conduction experiment to demonstrate the relative conducting properties of different materials can be carried out using apparatus similar to that shown in the diagram below
The above apparatus consists of 4 different metal strips of equal width and length arrange around an insulated circle, holding ball bearings with wax
Ball bearings can be stuck to each of the strips and equal distance from the centre, using a small amount of wax
The strips should then be turned upside down and the centre heated gently using a candle, so that each of the strips is heated at the point where they meet
When the heat is conducted along to the ball bearing, the wax will melt and the ball bearing will drop
By timing how long this takes for each of the strips, their relative thermal conductivities can be determined
Examiner Tips and Tricks
With two of the demonstrations above (the rug & tiles and the rod made of wood and metal) students often get confused, as the result may 'feel' as though it is the wrong way round. Think about the movement or transfer of the heat.
The more heat is taken away, the cooler something will be. That is why the paper doesn't burn when it is next to the metal (although usually everyone guesses that it will!)
The more heat is held in by a layer of insulation, the more heat remains, which is why rugs and carpets help your feet to feel warm.
Last updated:
You've read 0 of your 5 free revision notes this week
Sign up now. It’s free!
Did this page help you?