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Required Practicals: What They Are and Why They Matter

Practical work is not a side-show in A-Level Biology – it is examined directly in your written papers, and it is assessed separately as a practical endorsement that appears on your certificate. Students who treat the required practicals as “just lab lessons” are caught out every year, because at least 15% of the marks in your written exams are tied to practical skills: planning investigations, identifying variables, handling data, evaluating methods and spotting sources of error.

The good news is that practical questions are some of the most predictable and most answerable on the paper – if you understand how each practical works and what skills it’s testing. This page explains how practicals are assessed on every board (AQA, OCR, Edexcel A & B, Edexcel International, WJEC and Eduqas), lists what each board requires, and shows you exactly which skills to revise so you don’t lose easy marks.

Two separate things – don’t confuse them: (1) the practical endorsement is a separate pass/fail result, assessed by your teacher across the course – it does not count towards your A–E grade. (2) Practical skills questions in the written papers DO count towards your grade. You revise for the second one; you just have to complete the first.

How Practical Skills Are Assessed

Every UK board assesses practicals in two ways. Understanding both stops nasty surprises.

1. In the written papers (counts towards your grade) Questions test your understanding of the methods, variables, results and evaluation of the required/core practicals – and your ability to apply those skills to unfamiliar experiments you’ve never seen. A minimum of 15% of marks across the papers assess practical skills.
2. The practical endorsement (pass/fail, separate) Your teacher assesses your competence across the course on at least 12 occasions, against a common set of criteria (the CPAC). At the end you are awarded a pass or no result – reported separately on your certificate. Universities like to see a pass, but it does not affect your A–E grade.
The five competencies (CPAC) – common to all boards: (1) follows written instructions; (2) applies investigative approaches and methods when using instruments and equipment; (3) safely uses a range of practical equipment and materials; (4) makes and records observations; (5) researches, references and reports. These are what your teacher is signing off – and they shape the practical questions in the exam too.

The Practical Skills Examiners Test (and How to Revise Them)

Whatever experiment a question is built around, it is really testing the same handful of transferable skills. Master these and you can answer a practical question on an experiment you’ve never seen.

Variables Identify the independent variable (what you change), the dependent variable (what you measure) and the control variables (what you keep constant). Naming these correctly is one of the most common practical marks.
Controls & validity Explain why a control experiment is needed and how controlling variables makes results valid (you’re measuring what you intended to). Be ready to suggest improvements to a method.
Reliability & repeats Repeating readings and calculating a mean improves reliability and lets you identify anomalies. Know the difference between reliability (repeatability) and validity.
Accuracy, precision & uncertainty Choose apparatus with appropriate resolution; calculate percentage error from the uncertainty of an instrument; distinguish accuracy (closeness to true value) from precision (consistency).
Data handling Tabulate data with correct headings and units, use the right number of significant figures, plot graphs correctly (independent variable on the x-axis), draw a line/curve of best fit, and calculate rates from a tangent.
Statistics Know when to use the chi-squared test, t-test, correlation coefficient and standard deviation, and how to interpret a result against a critical value (most boards provide the formulae).
The marks students throw away: forgetting units in tables and calculations; giving the wrong number of significant figures; confusing reliability with validity; saying “to make it a fair test” (a GCSE phrase – at A-Level, name the specific control variable and explain why it must be controlled). See our practical terms glossary for precise definitions of every term examiners reward.

AQA – The 12 Required Practicals

AQA specifies exactly 12 required practical activities, examined in the written papers and used for the endorsement.

#Required practical
1Effect of a named variable on the rate of an enzyme-controlled reaction
2Preparation of a stained root-tip squash to observe mitosis; calculate a mitotic index
3Dilution series of a solute to produce a calibration curve (water potential of plant tissue)
4Effect of a named variable on the permeability of cell-surface membranes
5Dissection of an animal or plant gas exchange / mass transport system
6Aseptic technique to investigate the effect of antimicrobial substances on microbial growth
7Chromatography to separate photosynthetic pigments from leaves
8Effect of a named factor on the rate of dehydrogenase activity in chloroplasts
9Effect of a named variable on the rate of respiration of single-celled organisms
10Effect of an environmental variable on animal movement (choice chamber or maze)
11Dilution series of glucose + colorimetry to find glucose concentration in “urine”
12Effect of an environmental factor on the distribution of a species (sampling/fieldwork)
Revise each one as a method + skills package: for every practical, know the variables, the apparatus and technique, how you’d improve it, and the maths involved (e.g. mitotic index in RP2, calibration curves in RP3 and RP11, rate calculations in RP1 and RP9). AQA exam questions frequently put these in an unfamiliar context – the skills transfer, the experiment doesn’t have to be identical.

Edexcel – Core Practicals

Edexcel A (Salters-Nuffield, 9BN0) requires 18 core practicals; Edexcel B (9BI0) requires 16 core practicals. Both are examined in the written papers (a significant part of Paper 3) and underpin the endorsement.

Edexcel A (Salters-Nuffield) – the 18 core practicals

#Core practical
1Investigate the effect of caffeine on Daphnia heart rate
2Investigate the vitamin C content of food/drinks
3Investigate membrane permeability using beetroot
4Investigate the effect of enzyme concentration on the rate of reaction
5Prepare and stain a root-tip squash to observe mitosis
6Microscopy of plant stems (xylem/phloem)
7Investigate plant mineral deficiencies
8Determine the tensile strength of plant fibres
9Investigate the antimicrobial properties of plants
10Ecology investigation (distribution/abundance of a species)
11Investigate photosynthesis using isolated chloroplasts (the Hill reaction)
12Investigate the effect of temperature on the rate of an enzyme reaction (or membrane permeability)
13aInvestigate the rate of growth of seedlings
13bInvestigate factors affecting brine-shrimp hatching
14Gel electrophoresis (separating DNA fragments / amino acids)
15Investigate the effects of antibiotics on microbial growth
16Investigate the rate of respiration using a respirometer
17Investigate and interpret spirometer traces
18Investigate habituation to a stimulus (e.g. in a snail)

Edexcel B (9BI0) – the 16 core practicals

#Core practical
1Investigate the rate of an enzyme-controlled reaction
2Use of the light microscope (and calibration)
3Prepare a root-tip squash to observe mitosis
4Investigate pollen-tube growth
5Investigate membrane permeability using beetroot
6Determine the water potential of plant tissue
7Dissection of a gas exchange system
8Investigate water uptake by a plant (transpiration / potometer)
9Investigate the rate of respiration using a respirometer
10Investigate the rate of photosynthesis
11Separate chloroplast pigments by chromatography
12Investigate bacterial growth
13Aseptic technique – streak plating
14Starch-agar assay (investigating enzyme/antimicrobial action)
15Sampling methods to estimate abundance
16a/16bInvestigate the distribution and morphology of a species

Edexcel International A-Level (YBI11) – the 18 core practicals

Edexcel International assesses practical skills through dedicated written examination units (Unit 3 and Unit 6) rather than a teacher endorsement – so for International students the practical skills are examined even more directly. Here are the core practical activities named in the specification:

CPCore practical
1Semi-quantitative Benedict’s and iodine tests to estimate reducing sugar and starch concentrations
2Investigate the vitamin C content of food and drink
3Effect of alcohol and temperature on membrane permeability
4Effect of temperature, pH, enzyme and substrate concentration on the initial rate of enzyme reactions
5Light microscope observations and drawings of animal cells; using a graticule and scale
6Prepare and stain a root-tip squash to observe mitosis
7Microscopy and plan diagrams of T.S. roots, stems and leaves (xylem, phloem, sclerenchyma)
8Determine the tensile strength of plant fibres
9Antimicrobial properties of plants, using aseptic technique
10Effects of light intensity, wavelength, temperature and CO2 on the rate of photosynthesis
11Ecology of a habitat using quadrats and transects, with abiotic factors
12Effect of temperature on development (seedling growth or brine-shrimp hatch rate)
13DNA technology / gel electrophoresis to separate DNA fragments
14Effect of different antibiotics on bacteria
15Use an artificial hydrogen carrier (redox indicator) to investigate respiration in yeast
16Use a respirometer to determine the rate of respiration and RQ
17Effects of exercise on tidal volume, breathing rate and oxygen consumption (spirometer traces)
18Investigate the production of amylase in germinating cereal grains
Edexcel students: because so many practical marks land in Paper 3 (and in Units 3 & 6 for International), it is worth working through past Paper 3 / practical-unit questions specifically – they reuse the same experimental contexts and skills year after year.

OCR A & OCR B – Practical Activity Groups (PAGs)

OCR A and OCR B don’t prescribe a numbered list of student experiments in the same way. Instead they group required practical skills into twelve Practical Activity Groups (PAG 1–12) for the endorsement, and assess practical skills throughout the written papers.

PAGSkill areaExample practicals OCR provides
1MicroscopyLight microscope to study mitosis; drawing cells in blood smears; examining lung tissue
2DissectionDissection of the mammalian heart; stem dissection; chicken-wing dissection
3Sampling techniquesCalculating species diversity; distribution & abundance of plants; correlation with a biotic/abiotic factor
4Rates of enzyme-controlled reactionsEffect of substrate conc, enzyme conc and temperature on enzyme activity
5Colorimeter or potometerEffect of temperature on membrane permeability; determining glucose concentration; potometer
6Chromatography or electrophoresisPaper chromatography of amino acids; electrophoresis; TLC of photosynthetic pigments
7Microbiological techniquesEffect of antibiotics on microbial growth; dilution plating; bacterial transformation
8Transport in/out of cellsWater potential of potato; osmosis in an artificial cell; rate of diffusion through a membrane
9Qualitative testingTests for proteins, lipids and reducing sugars
10Data logger / computer modellingDNA modelling (RasMol); turbidity; yoghurt pH
11Plant or animal responsesExercise & pulse rate; Daphnia heart rate; phototropism; effect of plant hormones
12Research skillsRespiration rate of yeast; fruit-fly crosses & analysis; oxygen production by pondweed
OCR B (Advancing Biology) note: OCR B has a dedicated Practical Skills in Biology written paper, so practical technique is examined very directly. Revise the PAG skill areas above and practise the OCR practical-skills past papers.

WJEC & Eduqas – Specified Practical Work

WJEC and Eduqas share the same content and specify the same specified practical work throughout the course, examined in the written papers. WJEC is distinctive: its Unit 5 includes internally assessed practical tasks – an Experimental Task and a Practical Analysis Task – which do contribute to the A-Level grade (unlike the pass/fail endorsement on other boards). The full list of specified practicals is set out in the WJEC/Eduqas lab book.

AS specified practical work (Units 1–2 / Components AS)

#Specified practical
1Food tests
2Calibration of the light microscope
3Preparation and scientific drawing of a slide of living cells
4Determination of water potential by measuring changes in mass or length
5Determination of solute potential (degree of incipient plasmolysis)
6Investigation into the permeability of cell membranes using beetroot
7Effect of temperature or pH on enzyme activity
8Effect of enzyme or substrate concentration on enzyme activity
9Simple extraction of DNA from living material
10Scientific drawing of root-tip cells to show stages of mitosis
11Scientific drawing of developing anthers to show stages of meiosis
12Investigation into biodiversity in a habitat
13Investigation into stomatal numbers in leaves
14Dissection of a fish head to show the gas-exchange system
15Scientific drawing of a low-power plan of a T.S. leaf

A2 specified practical work (Units 3–5 / Components A2)

#Specified practical
1Investigation into transpiration using a simple potometer
2Scientific drawing of a low-power plan of a T.S. artery and vein
3Dissection of the mammalian heart
4Investigation of dehydrogenase activity using artificial hydrogen acceptors
5Factors affecting the rate of respiration in yeast
6Separation of chloroplast pigments by chromatography
7Factors affecting the rate of photosynthesis
8Role of nitrogen and magnesium in plant growth
9Investigation into the numbers of bacteria in fermented milk
10Abundance and distribution of organisms in a habitat
11Dissection of the kidney
12Digestion of starch agar using germinating seeds
13Dissection of wind- and insect-pollinated flowers
14Scientific drawing of an anther (with actual size and magnification)
15Gene segregation, including the chi-squared test
16Continuous variation in a species, including the Student’s t-test
WJEC Unit 5 students: because the Experimental and Practical Analysis Tasks are assessed and count towards your grade, treat them as exam preparation – precise method, clear recording of results, and full statistical analysis (chi-squared and t-test) all earn marks. (We have detailed WJEC Unit 5 practical support – ask about it.)

Exam Board Comparison – Practical Requirements at a Glance

FeatureAQAOCR A/BEdexcel AEdexcel BEdexcel IntlWJEC / Eduqas
Set practical list12 required12 PAGs18 core16 core18 coreSpecified work
Skills examined in written papers
Teacher endorsement (pass/fail)❌ (exam units)✔ (Eduqas)
Practical counts towards gradeVia papersVia papersVia papersVia papersUnits 3 & 6WJEC Unit 5 tasks
Dedicated practical paperOCR B: ✔WJEC Unit 5

8 Common Mistakes in Practical Questions

#The mistakeThe correction
1“To make it a fair test”A GCSE phrase. Name the specific control variable and explain why controlling it matters.
2Confusing reliability and validityReliability = repeatable/consistent results; validity = actually measuring what you intended.
3Mixing up independent and dependent variablesIndependent = what you change; dependent = what you measure.
4Forgetting units in tables/calculationsEvery column heading and every calculated answer needs the correct units.
5Wrong significant figuresMatch the precision of your data and the resolution of your apparatus.
6“Do more repeats” as a catch-all improvementSay what the repeats achieve (identify anomalies, calculate a reliable mean) – and suggest method-specific improvements too.
7Not using the data in evaluation questionsQuote specific values and anomalies from the results table – don’t answer in general terms.
8Ignoring practical questions in revision15%+ of marks are practical-skills based. Practise practical questions specifically, not just content.
Tyrone John - A-Level Biology Tutor

Losing Marks on Practical Questions?

Practical skills are worth at least 15% of your marks – and they’re some of the most learnable. As a former examiner I know exactly how practical questions are marked and where students slip up on variables, validity, uncertainty and data analysis. Tutoring will turn practicals from a worry into easy marks.

Tyrone John • CBiol MRSB • Former WJEC/Eduqas & Edexcel Examiner • 25+ Years Teaching A-Level Biology

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Frequently Asked Questions – Required Practicals

Do the required practicals count towards my A-Level grade?

There are two separate things. The practical endorsement, assessed by your teacher, is a separate pass/fail result reported on your certificate and does not count towards your A to E grade. However, questions about the practicals and the skills behind them appear in your written papers and do count – at least 15% of the marks across the papers assess practical skills. So you must complete the practicals for the endorsement, and you must revise them because they are examined in the written papers.

How many required practicals are there for each exam board?

It varies. AQA specifies 12 required practical activities. OCR A and OCR B group the skills into 12 Practical Activity Groups (PAGs). Edexcel A (Salters-Nuffield) and Edexcel International have 18 core practicals, and Edexcel B has 16 core practicals. WJEC and Eduqas embed specified practical work throughout the course, with WJEC additionally having internally assessed practical tasks in Unit 5. Whatever the number, the underlying skills tested are very similar across all boards.

What is the difference between reliability and validity?

Reliability is about consistency: a reliable result is one you get repeatedly if you do the experiment again, which is why repeating readings and calculating a mean improves reliability. Validity is about whether you are actually measuring what you intended to measure, which depends on controlling other variables so they don’t affect your dependent variable. An experiment can be reliable but not valid (consistently wrong) or valid but unreliable. Examiners often award marks specifically for using these terms correctly.

What practical skills do the written papers test?

The written papers test transferable practical skills rather than just whether you did a particular experiment. These include identifying independent, dependent and control variables; explaining controls and validity; improving methods; assessing reliability through repeats; calculating uncertainty and percentage error; tabulating and graphing data with correct units and significant figures; calculating rates; and choosing and interpreting statistical tests such as the chi-squared test, t-test and correlation coefficient. Crucially, you must be able to apply these skills to unfamiliar experiments you have never seen.

What happens if I miss a required practical?

For the endorsement, your teacher needs to assess your competence on at least 12 occasions and to confirm you have used each required apparatus and technique. If you miss a practical that is the only one covering a particular technique, your teacher will arrange another suitable practical so that technique is still covered. For the written papers, you simply need to learn the method, results and evaluation of the missed practical from notes or a textbook, just as you would revise any other content – you don’t need to have physically done it to answer questions on it.

Tyrone John - Chartered Biologist

Written by Tyrone John

CBiol MRSB • Former WJEC/Eduqas & Edexcel Examiner • PGCE • 25+ Years Teaching A-Level Biology • Published Scientific Research

Tyrone has over 25 years of experience teaching A-Level Biology and is a Chartered Biologist and member of the Royal Society of Biology. As a former examiner for WJEC/Eduqas and Edexcel, he has first-hand knowledge of how mark schemes are applied and what examiners look for in student answers. Learn more →