The effect of age on focusing distance was investigated. Volunteers of different ages had their eyes tested. Each volunteer was asked to read words from a book. The book was moved closer to their eyes. When the words became out of focus, the distance was recorded. Figure 16 shows the results. (i) Calculate the mean distance for the volunteers aged 50. Give your answer to three significant figures. (ii) Give one conclusion that can be made from the data in Figure 16. (iii) Give two improvements that are needed in this investigation before a valid conclusion can be made. (b) Which part of the eye detects coloured light? A iris B lens C cones D cornea (c) Figure 17 shows light rays entering the eye of a person with normal vision. (i) Describe how light rays are focused to give normal vision. (ii) Figure 18 shows light rays entering the eye of a person with an eye defect and two lenses that can be used to correct eye defects. Explain which lens would correct the eye defect shown in Figure 18.

GCSE Edexcel Biology Specialised cells: The effect of age on focusing di

The effect of age on focusing distance was investigated - Edexcel - GCSE Biology - Question 10 - 2019 - Paper 1

Question 10

The effect of age on focusing distance was investigated. Volunteers of different ages had their eyes tested. Each volunteer was asked to read words from a book. The ... show full transcript

Worked Solution & Example Answer:The effect of age on focusing distance was investigated - Edexcel - GCSE Biology - Question 10 - 2019 - Paper 1

Step 1

Calculate the mean distance for the volunteers aged 50.

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Answer

To calculate the mean distance for the volunteers aged 50, we can use the data provided for that age group:

Distance (mm) for person 1: 301
Distance (mm) for person 2: 307
Distance (mm) for person 3: 309

We sum these distances:

$301 + 307 + 309 = 917$

Next, we divide by the number of measurements (3):

$\text{Mean distance} = \frac{917}{3} = 305.67$

Thus, when rounded to three significant figures, the mean distance is 306 mm.

Step 2

Give one conclusion that can be made from the data in Figure 16.

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Answer

One conclusion that can be made from the data in Figure 16 is that as age increases, the mean distance for reading words moves further away. This trend suggests that older individuals generally require a greater focusing distance compared to younger volunteers.

Step 3

Give two improvements that are needed in this investigation before a valid conclusion can be made.

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Answer

Increasing the sample size of volunteers to better represent different age groups, which would increase the reliability of the results.
Including a control group that does not change the focusing distance to compare results against, ensuring any observed effects are due to age alone.

Step 4

Which part of the eye detects coloured light?

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Answer

The part of the eye that detects coloured light is C) cones.

Step 5

Describe how light rays are focused to give normal vision.

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Answer

In a person with normal vision, light rays entering the eye pass through the cornea and then the lens, which is flexible and can change shape. The curvature of the lens adjusts to focus light onto the retina, where images are formed. This process allows clear vision of objects at various distances.

Step 6

Explain which lens would correct the eye defect shown in Figure 18.

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Answer

In Figure 18, the light rays are diverging instead of converging onto the retina, which indicates a myopic (nearsighted) condition. To correct this eye defect, a concave lens (lens X), which diverges the light rays before they enter the eye, is required to help the rays converge correctly on the retina.

The effect of age on focusing distance was investigated - Edexcel - GCSE Biology - Question 10 - 2019 - Paper 1

Worked Solution & Example Answer:The effect of age on focusing distance was investigated - Edexcel - GCSE Biology - Question 10 - 2019 - Paper 1

Calculate the mean distance for the volunteers aged 50.

Give one conclusion that can be made from the data in Figure 16.

Give two improvements that are needed in this investigation before a valid conclusion can be made.

Which part of the eye detects coloured light?

Describe how light rays are focused to give normal vision.

Explain which lens would correct the eye defect shown in Figure 18.

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