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Calculating Actual Size (CIE A Level Biology)

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Naomi H

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Naomi H

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Calculating Actual Size

  • When using microscopes to study biological specimens, it is possible to calculate the actual size of organisms, cells, and parts of cells
  • The actual size of specimens can be calculated using the magnification and the measured size of an image as follows:

Actual size = image size ÷ magnification 

    • Magnification is sometimes provided in an exam question stem
    • Magnification can be calculated from the scale bar of an image
    • Sometimes magnification is calculated from information about the magnification of the eyepiece lens and the objective lens
  • Remember that the equation above is part of the equation triangle from calculating magnification

Magnification equation triangle

Worked example

Using a scale bar to calculate actual size

A lab technician observed bacterial cells with an electron microscope, and produced the image below.

The scale bar measures 2 cm in length, and the length of the technician's image of one bacterial cell measures 7.6 cm.

bacteria micrograph with scale bar that represents 1 micrometre

Use the information provided to calculate the actual length of a bacterial cell in the image.

Step 1: Use the scale bar to calculate the magnification of the image

The equation triangle for magnification tells us that:

Magnification = image size ÷ actual size

The scale bar measures 2 cm = 20 mm = 20 000 μm

The scale bar represents an actual size of 1 μm

Magnification = 20 000 ÷ 1

= 20 000

Step 2: Substitute values into the equation for actual size

Actual size = image size ÷ magnification

The question stem tells us that one cell = 7.6 cm = 76 mm = 76 000 μm

Magnification is ×20 000

Actual size = 76 000 ÷ 20 000

= 3.8

Therefore, the actual length of a bacterial cell in this image is 3.8 μm

Worked example

Using lens magnification to calculate actual size

A scientist looked at a sample of red blood cells under a light microscope.

The eyepiece lens of the microscope had a magnification of ×10 and the objective lens had a magnification of ×40.

The scientist produced a photomicrograph of the blood cells, shown below, in which the red blood cells have an average diameter of 3 mm when measured using a ruler.

Red Blood Cell Micrograph

Calculate the average diameter of the red blood cells in the sample. Give your answer in micrometres.

Step 1: Calculate the total magnification of the specimen

total magnification = eyepiece lens magnification × objective lens magnification

10 × 40 = 400

Magnification = ×400

Step 2: Convert the image size into μm 

1 mm = 1000 μm

3 × 1000 = 3000

Image size = 3000 μm

Step 3: Substitute values into equation for actual size

Actual size = image size ÷ magnification 

Actual size = 3000 ÷ 400

= 7.5

Therefore, the average size of a red blood cell in this sample is 7.5 μm

Examiner Tip

Note that you would be expected to use your own ruler to provide image size measurements in actual size calculations.

Don't forget to convert units in calculations like this!

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Naomi H

Author: Naomi H

Expertise: Biology

Naomi graduated from the University of Oxford with a degree in Biological Sciences. She has 8 years of classroom experience teaching Key Stage 3 up to A-Level biology, and is currently a tutor and A-Level examiner. Naomi especially enjoys creating resources that enable students to build a solid understanding of subject content, while also connecting their knowledge with biology’s exciting, real-world applications.