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Making scientific observationsValid measurements

In general, scientists work out explanations based on repeatedly collecting and analysing data. The way in which scientists develop explanations is known as the scientific method.

Part of Chemistry (Single Science)Ideas about science

Valid measurements

Planning to collect measurements that are valid

Controlling factors

The conclusions that can be drawn from the experiment are valid if the method makes sure that the effects observed and measured are due to the cause claimed.

It is important that other factors are accounted for. The factors that need to be controlled should be identified and the plan should include how these will be controlled.

Question

Two students investigate how the of affects the rate of reaction between marble chips and acid. They test the first two concentrations on one day. They test the other concentrations the following week when the weather is much hotter.

A sealed conical flask connected to a gas syringe. The flask contains a reaction mixture that is giving off bubbles of gas.

Why is any conclusion from this experiment not valid?

Question

What factors should the students have controlled?

Question

How could the students make their results repeatable?

Deciding range

The range of measurements made must be enough to draw a valid conclusion. If the measurements are too close together, it is difficult to be confident in any trend shown.

Question

The students record the volume of gas produced at 20 second intervals.

Their first set of results are:

Time (s)Volume of gas (cm3)
201
402
603
805
1006
Time (s)20
Volume of gas (cm3)1
Time (s)40
Volume of gas (cm3)2
Time (s)60
Volume of gas (cm3)3
Time (s)80
Volume of gas (cm3)5
Time (s)100
Volume of gas (cm3)6

How could the students improve the experiment to collect a broader range of results?

Planning to collect measurements that are precise and accurate

Precision

Measurements are precise if the results are very close in value. The choice of measuring apparatus can affect the precision of data collected.

For example, during , the volume of sodium hydroxide in the flask should be measured with a pipette. If a measuring cylinder were to be used, the volume would vary between repeats, so the titration reading would differ. They would not be precise.

Accuracy

The accuracy of a numerical result is how close it is to the .

For example, if following a rate of reaction by loss of mass, reading from a balance with two decimal places would be closer to the true value than readings from a balance with no decimal places. The data would be less accurate.

Identify hazards and suggest ways to minimise the risk

The substances used in a chemistry experiment may be a . They could be harmful to the eyes or skin, or cause harm if breathed in.

The risk of harm from these hazards may be minimised by using the lowest concentration of any solutions, wearing eye protection, wearing gloves and using a fume hood.

Procedures can also be hazardous. For example, care must be taken not to touch very hot equipment. Loose clothing or hair should be kept away from flames.

All experiments should be . Always follow teacher instructions and safety advice.