Core Practical: Determining Density (Edexcel IGCSE Physics (Modular))
Revision Note
Core practical 9: determining density
Equipment
Equipment list
Apparatus | Purpose |
|---|---|
Regular and irregularly shaped objects | Objects used to determine the density of |
A suitable liquid (e.g. sugar or salt solution) | Liquid to use to determine the density |
A 30 cm ruler | To measure objects up to 30 cm in length |
Vernier Calipers | To measure objects to around 15 cm in length |
Micrometer | To measure objects to around 3 cm in length |
Digital Balance | To measure the mass of objects |
Displacement "Eureka" can | To measure the displacement of water of irregularly shaped objects |
Measuring cylinders | To measure the volume of liquid |
Resolution of measuring equipment:
30 cm ruler = 1 mm
Vernier calipers = 0.01 mm
Micrometer = 0.001 mm
Digital balance = 0.01 g
Experiment 1: measuring the density of regularly shaped objects
The aim of this experiment is to determine the densities of regular objects by using measurements of their dimensions
Variables:
Independent variable = Type of shape / volume
Dependent variable = Mass of the object
Method
Equipment needed to determine the density of regularly shaped objects
Place the object on a digital balance and note down its mass
Use either the ruler, Vernier callipers or micrometer to measure the object’s dimensions (width, height, length, radius) – the apparatus will depend on the size of the object
Repeat these measurements and take an average of these readings before calculating the density
Results
An example results table to determine the density of regularly shaped objects
A suitable results table must contain space for multiple readings to reduce random error and make the results more accurate
Analysis of results
Calculate the volume of the object depending on whether it is a cube, sphere, cylinder (or other regular shape)
Then use the formula for density to calculate the density of each object
The formulae for volume and density are explained in the revision note Density
Experiment 2: measuring the density of irregularly shaped objects
This experiment aims to determine the densities of irregular objects using a displacement technique
Variables:
Independent variable = Different irregular shapes / mass
Dependent variable = Volume of displaced water
Method
Equipment needed to determine the density of irregularly shaped objects
Apparatus for measuring the density of irregular objects
Place the object on a digital balance and note down its mass
Fill the eureka can with water up to a point just below the spout
Place an empty measuring cylinder below its spout
Carefully lower the object into the eureka can
Measure the volume of the displaced water in the measuring cylinder
Repeat these measurements and take an average before calculating the density
Results
An example results table to determine the density of irregularly shaped objects
| Mass of object / g |
| Volume of water displaced / m3 |
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1 | 2 | 3 | 1 | 2 | 3 | |||
100 |
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120 |
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140 |
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160 |
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180 |
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Analysis of results
The volume of the water displaced is equal to the volume of the object
Once the mass and volume of the shape are known, the density can be calculated using:
Experiment 3: measuring the density of liquids
This experiment aims to determine the density of a liquid by finding a difference in its mass
Variables:
Independent variable = Volume of water added
Dependent variable = Mass of cylinder
Method
Equipment needed to determine the density of liquid
Apparatus for determining the density of a liquid
Place an empty measuring cylinder on a digital balance and note down the mass
Fill the cylinder with the liquid and note down the volume
Note down the new reading on the digital balance
Repeat these measurements and take an average before calculating the density
Results
An example results table to determine the density of a liquid
Mass of cylinder before / g |
| Volume of water added / m3 | Mass of cylinder with water / g |
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1 | 2 | 3 | 1 | 2 | 3 | |||
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Analysis of results
Find the mass of the liquid by subtracting the final reading from the original reading
Mass of liquid = Mass of cylinder with water – mass of cylinder
Once the mass and volume of the liquid are known, the density can be calculated using the equation for calculating density
This is explained in the revision note Density
Evaluating the experiments
Systematic errors
Ensure the digital balance is set to zero before taking measurements of mass
This includes when measuring the density of the liquid – remove the measuring cylinder and zero the balance before adding the liquid
Random errors
A main cause of error in this experiment is in the measurements of length
Ensure to take repeat readings and calculate an average to keep this error to a minimum
Place the irregular object in the displacement can carefully, as dropping it from a height might cause water to splash, which will lead to an incorrect volume reading
Safety considerations
There is a lot of glassware in this experiment, ensure this is handled carefully
Water should not be poured into the measuring cylinder when it is on the electric balance
This could lead to an electric shock
Make sure to stand up during the whole experiment, to react quickly to any spills
Exam Tip
There is a lot of information to take in here! When writing about experiments, a good sequence is as follows:
If you need to use an equation to calculate something, start off by giving it as this will give you some hints about what you need to mention later
List the apparatus that you need
State what measurements you need to make (your equation will give you some hints) and how you will measure them
Finally, state that you will repeat each measurement several times and take averages
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