Key points
- Developing a method is an important part of planning an investigation.
- In an experiment, evaluate the validity of the steps leading up to the conclusion for it to be valid.
- Random and systematic errors can contribute to the uncertainty of a measurement.
What is the name of a set of instructions that is followed when doing an experiment?
A method.
Video
Watch this video on how writing a scientific method helps to get the correct amount and quality of data.
Writing a method
Scientists need to be able to clearly show how they carry out experiments and what they find out. When this is done properly, other scientists can check their work to find strengths and weaknesses with the experiment.
A methodA description of how an experiment should be done, often written as a list of instructions. describes how an experiment is carried out. It should contain a set of written instructions with numbers or letters to show the order in which the steps are carried out.
A diagram can be included to show how the experiment should look when it鈥檚 set up.
Each step should describe one action during the experiment. The apparatusPieces of equipment. used should be described, using scientific terms. Everything that was done to complete the whole experiment should be listed in the method, so somebody else could follow it and get a similar outcome.
Here is an example method for heating different volumes of water using a Bunsen burner.
- Make sure there are no breaks or holes in the gas hose.
- Put the Bunsen burner on a heat-resistant mat, making sure it isn鈥檛 near the edge of the bench.
- Position a tripod over the Bunsen burner.
- Put a gauze on top of the tripod.
- Put a beaker containing the required amount of water on the gauze.
- Ensure the air hole of the Bunsen burner is closed.
- Hold a lit splint 1-2cm above the top of the barrel of the Bunsen burner.
- Turn on the gas at the gas tap, and the Bunsen burner will burn with a yellow flame.
- Extinguish the splint and place it on the heat-resistant mat.
- Turn the collar of the Bunsen burner so it鈥檚 burning with a blue flame.
- Using a stopwatch, time how long it takes for the water to boil.
- Stop the stopwatch when the water is boiling.
- Close the air hole so that the flame is yellow.
- Switch off the gas at the gas tap.
What can be used alongside a list of numbered instructions in a method to make the experiment clearer?
A diagram.
Accurate and precise data
The measurements that are taken in an experiment are called data. It is important to collect data that is accurateResults are accurate if they are close to the true value. and preciseResults are precise if they have been repeated and are similar..
Accuracy is how close a measurement is to its true valueThe result that would be obtained in an ideal measurement or experiment, totally unaffected by errors.. To make sure data is accurate, calculate a meanAn average of a set of data found by adding together all the values in a data set and dividing by the number of values in the set.. Make sure that outliersResults that are very different from the others. are not included in the calculation.Precision is how close repeat readings / measurementsTaking another measurement or observation of the same experiment. are.
If repeat measurements are similar, the data is said to be repeatable dataGetting results that are similar when the experiment is done again..If someone else does the investigation and gets similar results, the data is said to be reproducible dataGetting results that are similar when someone else does the experiment..
If results are repeatable and reproducible, it can help lead to valid measurementA measurement is valid if it measures what it is supposed to measure. conclusions. Valid conclusions are drawn from valid data.
What word is used to describe a result that is close to its true value?
Accurate.
A step-by-step guide on planning an experiment
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True or false?
If an experiment is planned well, the data produced after following the method is more likely to be precise and accurate.
True.
Types of error
Errors can happen when taking a measurement, usually leading to a spread in data. There are two types of error that affect scientific measurements: random errorSomething that causes an unexpected difference between a measurement and the true value. and systematic errorSomething that causes results to differ by the same amount each time. .
Random error
This can alter the spread of data and cause outliers, as some measurements may be affected and not others. This can happen when equipment isn't used properly or a reading is taken incorrectly during measurements.
An example of this is Parallax errorError caused by looking at an object at an angle that causes readings to be incorrect.. This is caused when a measurement is not taken at eye level. The reading recorded can end up being too high or low.
Systematic error
This can make measurements less accurate. It may happen if equipment is not used properly and can cause each result to differ by the same amount.
Examples of systematic error include not resetting a mass balance to zero and measuring from the end of a ruler instead of from zero.
Name the two types of error that can happen during an experiment.
Random and systematic error.
Test your knowledge
Quiz - Planning an experiment
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