Investigating Methods of Heat Transfer (WJEC GCSE Science (Double Award)): Revision Note
Specified Practical: Investigating Methods of Heat Transfer
Investigating Convection
Aim of the Experiment
The aim of the experiment is to make observations about convection currents
Variables:
Independent variable = Initial temperature of water
Dependent variable = Time taken
Control variables:
Size of potassium manganate (VII) crystal
Size of flame used
Equipment List
List of Equipment Used to Investigate Convection
Equipment | Purpose |
|---|---|
2 × 250 cm3 beakers | One for cold water, one for hot water |
2 × crystals of potassium manganate (VII) crystals of similar size | To colour the water to observe the convection currents |
Glass tube | To allow deliberate placement of the potassium manganate (VII) crystal |
Tripod & gauze | To position the beaker above the Bunsen burner |
Heat proof mat | To protect the worktop |
Bunsen burner | For heating the water to produce a convection current |
Forceps | To transport the potassium manganate (VII) crystal to the beaker without contact |
Stop watch | To measure the time taken for the water to reach uniform colour |
Method
Equipment for Potassium Manganate (VII) Convection Investigation
The Bunsen flame should be placed beneath the potassium manganate (VII) crystal so that the convection current can be seen
Fill one beaker with 200 cm3 of cold tap water
Place the beaker on the gauze on top of the tripod with the heat proof mat underneath
Pick up the crystal potassium manganate (VII) using the forceps
Place the glass tube into the beaker and drop the potassium manganate crystal through the tube to the bottom of the beaker (this provides an air corridor for the crystal to be placed at the bottom of the beaker, otherwise it would begin to dissolve as it falls to the bottom)
Place your finger over the top of the glass tube and remove it from the beaker
Light the Bunsen burner and slowly turn down the gas to get the smallest blue flame possible
Place the Bunsen flame directly beneath the crystal and start the stop watch
Record the time at which the water reaches a uniform colour
Record your observations focussing on the convection current
Repeat the experiment using hand-hot tap water
Observation Table for Convection Investigation
Analysis of Results
The observations should be that:
The purple coloured water rises above the flame
Then spreads across the beaker
Then sinks down on the other (colder) side
The hot tap water takes less time than the cold tap water to reach a uniform colour
The explanation of the observations are that:
Warmer water is less dense so it rises and the denser cooler water takes its place
The warmer water cools and becomes denser and sinks back down
The resulting motion is a convection current
For the water with a higher initial temperature, the water particles will have a higher kinetic energy
This means that the water particles will move faster than those in the cold water
Therefore, convection will happen more quickly in the hot tap water than in the cold tap water
Evaluating the Experiment
Random Errors:
The crystal of potassium manganate can be difficult to place in exactly the same place twice, so the shape of the convection currents may not be identical
The size of the crystals may not be exactly the same, a larger crystal will take less time to reach a uniform colour in the water
The flame size may not be identical if the flame was relit at any point. A larger flame will speed up convection
Safety Considerations
Potassium manganate (VII) can be harmful to the skin so forceps should be used to avoid contact
Potassium manganate (VII) can stain clothes so be careful to avoid residue from the crystals, splashes from the solution, and clean up any splashes or spills immediately
Lowering the gas feed via the tap could cause the flame to go out. If this happens, turn the gas off completely until you light the Bunsen again
Any glass, metal, water or potassium manganate solution will become very hot when heated and will cause burns if touched
Allow the beaker, its contents, the gauze, tripod and Bunsen burner to cool before dismantling the equipment
Examiner Tips and Tricks
The VII in potassium manganate VII is just the roman numeral for 7. This refers to the oxidation state of the ion and gives information about the different ions it will bond with. You do not need to know anything about this for your exam, it is just part of the name of the substance.
Investigating Radiation
Aim of the Experiment
The aim of the experiment is to investigate which colour paper or foil is the best absorber of heat
Variables:
Independent variable = colour of paper or foil
Dependent variable = temperature
Control variables:
Bulb / lamp used
Distance from the lamp to the thermometer
Room temperature - make sure windows and doors are closed to prevent draughts
Time taken
Equipment list
List of Equipment Used to Investigate the Density of a Range of Objects
Equipment | Purpose |
|---|---|
Filament lamp | To provide a heat source |
2 × bulb thermometers | To measure the temperature change |
Small piece of black paper | To cover the bulb of one thermometer |
Small piece of silver foil | To cover the bulb of the other thermometer |
Sellotape | To attach the paper / foil to the thermometer |
Stop watch | To measure the time taken |
2 × clamp stand, clamp & boss | To hold the thermometers at set distance from the heat source |
Ruler | To measure the distance between the heat source and the thermometers |
Method
Equipment for Thermal Radiation Investigation
The thermometers should be clamped at the same distance from the lamp to ensure a fair test
Attach a 2 cm strip of black paper to one thermometer using Sellotape
Attach a 2 cm strip of silver foil to the other thermometer using Sellotape
Clamp both of the thermometers 10 cm away from the filament lamp
Record the initial temperature readings on both thermometers
Start the stopwatch as you switch on the lamp
Record the temperature on each thermometer after 10 minutes
Example Results Table for Radiation Investigation
A results table should include spaces for each measurement taken arranged in a logical way
Analysis of Results
The colour of an object affects how good it is at emitting and absorbing thermal radiation
The black paper should reach a higher temperature than the silver foil
This is because black objects are better absorbers (and emitters) of thermal (heat) energy
Silver coloured objects are poor absorbers (and emitters) of thermal energy
This is because shiny surfaces reflect thermal radiation
Evaluating the Experiment
Systematic Errors:
Read the thermometer from eye level to ensure you are reading the correct value
Make sure the surface area of the paper and foil are equal
Make sure the Sellotape has the same coverage on both the paper and the foil
Random Errors:
Try to control for any changes in temperature that may occur within the room
Close doors and windows to prevent drafts
Close blinds to keep out intermittent strong sunlight
Safety Considerations
The lamp may become hot so allow it to cool before touching it to avoid burns
Investigating Conduction: Metal Rods Experiment
Aim of the Experiment
The aim of the experiment is to determine the order of different metals based on their conductivity
Variables:
Independent variable = type of metal
Dependent variable = time taken for drawing pin to fall
Control variables:
Length of metal rods
Type of drawing pins used
Position of flame on rod
Amount of Vaseline used on each rod
Equipment list
List of Equipment Used to Investigate Conduction in Metal Rods
Equipment | Purpose |
|---|---|
4 metals rods of different metals (aluminium, brass, copper, iron) | To determine the order of conductivity of the metals |
4 drawing pins | To attach to the ends of the metal rods |
Vaseline | To attach the drawing pins to the metal rods |
Tripod | To position the metal rods on |
Heat proof mat | To protect the worktop |
Bunsen burner | For heating the the metal rods |
Stop watch | To measure the time taken for the drawing pins to fall |
Method
Equipment for Conduction in Metal Rods Investigation
The end of each rod must be placed equally in the flame to ensure a fair test
Lay the metal rods across the tripod with the ends together so that they will all fit into the flame
Add a small amount of Vaseline to the other end of each rod and attach a drawing pin
Bring the Bunsen flame to the ends of the rods so they are heated equally and start the stopwatch
Record the time at which each drawing pin falls
To increase the accuracy of the results, repeat the investigation three times and calculate an average time for each metal
Example Results Table for the Metal Rod Conduction Investigation
A results table should include spaces for each measurement taken and for any calculations required (such as averages)
Investigating Conduction: Conductive Ring Experiment
Aim of the Experiment
The aim of the experiment is to determine the order of different metals based on their conductivity
Variables:
Independent variable = type of metal
Dependent variable = time taken for match to fall
Control variables:
Type of matches used
Position of metal strips in flame
Amount of Vaseline used
Equipment list
List of Equipment Used to Investigate Conduction in Metal Rods
Equipment | Purpose |
|---|---|
Conducting ring with 4 strips of different types of metal (aluminium, copper, brass, steel) | To determine the order of conductivity of the metals |
4 wooden matches | To attach to the ends of the metal strips |
Vaseline | To attach the matches to the metal strips |
Clamp stand, clamp and boss | To position the conductive ring above the flame |
Heat proof mat | To protect the worktop |
Bunsen burner | For heating the the metal strips |
Stop watch | To measure the time taken for the matches to fall |
Method
Equipment for Conductive Ring Investigation
The flame should be placed directly under the centre of the conductive ring to ensure all metal strips are heated equally
Clamp the conductive ring, taking care to keep the clamp away from the centre of the ring
Attach a match to each metal strip using Vaseline
Place the Bunsen flame beneath the centre point of the conductive ring ensuring equal exposure to the flame for each metal strip and start the stopwatch
Record the time at which each match stick falls
To increase the accuracy of the results, repeat the investigation three times and calculate an average time for each metal
Example Results Table for Conductive Ring Investigation
A results table should include spaces for each measurement taken and for any calculations required (such as averages)
Analysis of Results
You should find that copper falls first because copper is the best conductor
Next should be aluminium, brass and then steel / iron
You may find that aluminium falls first because the time between aluminium and copper is small
Repeating the investigation, taking care with the control variables, should give copper a smaller average time
Evaluating the Experiments
Random Errors:
The base of the rods / metal strips may not have equal contact with the flame
Having more Vaseline on one pin / match will take longer to melt
Safety Considerations
The rods will be hot and may roll off the tripod. Use heat-protective gloves to handle them and place them on a heat-proof mat after use
The conducting ring will become hot, allow it to cool completely before touching
The Vaseline may stain clothes, wash your hands after use and clean up any mess
Vaseline on the floor can cause slips. Clean up any spills immediately and alert your teacher
Over heating aluminium may cause it to melt which could cause burns - if the aluminium begins to melt, remove the Bunsen flame from the metal and alert the teacher
When the Bunsen is not in use, ensure it is set to safety flame (yellow) or turn the gas off completely
Worked Example
Explain in detail, the process of conduction in the aluminium strip in terms of the motion of particles.
Answer:
Step 1: Explain the process of conduction in terms of the ionic lattice structure of the aluminium
The ions in the aluminium in contact with the flame gain kinetic energy and vibrate with increasing amplitude
They transfer their energy to neighbouring ions by collisions and this continues throughout the length of the aluminium strip
Step 2: Explain the process of conduction in terms of the delocalised electrons
Aluminium has delocalised electrons which also gain energy from contact with the flame
They move through the ionic metal structure towards the cooler end of the metal transferring energy more quickly
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