What are the parts of animal and plant cells, how are some cells specialised, and how do we measure cells under a microscope?
The structures of animal and plant cells and their functions, examples of specialised cells and their adaptations, the levels of organisation from cell to organism, and using a light microscope including the magnification calculation.
A focused CCEA GCSE Single Award Science answer on cells, covering the parts of animal and plant cells and their functions, specialised cells and their adaptations, the levels of organisation, and using a light microscope with the magnification calculation.
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What this dot point is asking
CCEA wants you to know the parts of animal and plant cells and what each part does, how some cells are specialised for a particular job, how cells are organised into tissues, organs and systems, and how to use a light microscope including the magnification calculation.
Animal and plant cell structures
A plant cell has three extra structures: a cell wall made of cellulose for support and shape, chloroplasts containing chlorophyll for photosynthesis, and a large permanent vacuole full of cell sap that keeps the cell turgid.
Specialised cells
Cells become specialised so they can do a particular job well. CCEA expects named examples on the Single Award:
- A red blood cell has no nucleus and a biconcave shape, giving more room and a large surface area to carry oxygen as oxyhaemoglobin.
- A root hair cell has a long thin extension that increases the surface area for absorbing water and minerals from the soil.
- A nerve cell (neurone) is very long and thin to carry electrical impulses quickly over a distance.
- A sperm cell has a tail to swim to the egg and many mitochondria to release the energy needed for swimming.
Levels of organisation
Using a light microscope and magnification
A light microscope uses lenses to magnify a thin specimen on a slide. To prepare a slide you place the specimen on the slide, add a drop of water and a stain (such as iodine for plant cells), then lower a coverslip slowly to avoid air bubbles. You focus first on low power, then switch to high power.
Examples in context
Example 1. Why red blood cells lose their nucleus. A mature red blood cell has no nucleus. This frees up space inside the cell so it can be packed with more haemoglobin, the protein that carries oxygen. The biconcave disc shape also gives a larger surface area for oxygen to diffuse in and out. This is a clear case of structure fitting function: every adaptation makes the cell better at carrying oxygen, even though losing the nucleus means the cell cannot repair itself and only lasts about 120 days.
Example 2. Estimating cell size with a microscope. A student views onion cells along the diameter of the field of view, which is 2 mm wide. They count eight cells lying end to end across the diameter. The mean length of one cell is 2 mm divided by 8, which is 0.25 mm, or 250 micrometres. This method, estimating size from the field of view, is a standard CCEA practical skill and shows why you must always know the real width of your field of view.
Try this
Q1. Name the part of a cell that controls its activities and contains the DNA. [1 mark]
- Cue. The nucleus.
Q2. A cell is 0.1 mm wide and its image is 25 mm wide. Calculate the magnification. [2 marks]
- Cue. Magnification equals 25 divided by 0.1, which is x250.
Exam-style practice questions
Practice questions written in the style of CCEA exam questions on this dot point, with worked answer explainers. The year tag is the paper they imitate, not the source.
CCEA SAS 20194 marksName two structures found in a plant cell but not in an animal cell, and give the function of each.Show worked answer →
You need two named structures, each with a clear function, so four marks for two pairs.
Cell wall: made of cellulose, it surrounds the cell membrane and gives the plant cell a fixed shape and support, stopping it bursting when full of water.
Chloroplast: contains the green pigment chlorophyll, which absorbs light so that photosynthesis can take place to make glucose.
A third valid answer is the permanent vacuole, a large fluid-filled sac of cell sap that keeps the cell turgid and supports the plant.
Markers reward the correct structure named with a matching function, not just naming the parts.
CCEA SAS 20213 marksA cell is 0.05 mm wide. Under a microscope its image is 20 mm wide. Calculate the magnification.Show worked answer →
Use magnification equals image size divided by real size, with both lengths in the same unit.
Both lengths are already in mm, so no conversion is needed.
Magnification equals 20 divided by 0.05, which is 400.
So the magnification is times 400 (written x400). Markers reward the correct formula, matching units, and the right answer with no unit, because magnification has no units.
Related dot points
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Sources & how we know this
- CCEA GCSE Science: Single Award specification — CCEA (2017)