Figure 6 shows the structure and actual size of red blood cells (erythrocytes). ![Figure 6](image_url) (a) (i) Calculate the image size of the top view of this red blood cell if this cell is magnified 400×. Give your answer in mm. (ii) Explain how the shape of a red blood cell is related to its function. (iii) State the role of haemoglobin inside the red blood cell. (b) Some blood transfusions contain red blood cells. Red blood cells are stored in a solution containing 5.0% glucose and 0.9% salt. Explain why red blood cells cannot be stored in pure water.

GCSE Edexcel Biology Combined Science Circulatory system- blood: Figure 6 shows the structure and

Figure 6 shows the structure and actual size of red blood cells (erythrocytes) - Edexcel - GCSE Biology Combined Science - Question 3 - 2021 - Paper 1

Question 3

Figure 6 shows the structure and actual size of red blood cells (erythrocytes). ![Figure 6](image_url) (a) (i) Calculate the image size of the top view of this red... show full transcript

Worked Solution & Example Answer:Figure 6 shows the structure and actual size of red blood cells (erythrocytes) - Edexcel - GCSE Biology Combined Science - Question 3 - 2021 - Paper 1

Step 1

Calculate the image size of the top view of this red blood cell if this cell is magnified 400×.

96%

114 rated

Answer

To calculate the image size, we use the formula:

$\text{Image Size} = \text{Actual Size} \times \text{Magnification}$

Given:

Actual Size = 7.5 µm (micrometers)
Magnification = 400

Calculating:

$\text{Image Size} = 7.5 \times 400 = 3000 \, \mu m$

Since 1 mm = 1000 µm, we convert:

$\frac{3000}{1000} = 3 \, \text{mm}$

Thus, the image size is 3 mm.

Step 2

Explain how the shape of a red blood cell is related to its function.

99%

104 rated

Answer

The shape of a red blood cell (RBC), which is biconcave, is crucial for its function of oxygen transport. This shape provides a larger surface area relative to volume, facilitating maximum gas exchange. The thinness of the membrane allows oxygen and carbon dioxide to diffuse quickly in and out of the cell. Furthermore, the biconcave shape helps RBCs to deform easily as they navigate through narrow capillaries, ensuring efficient circulation throughout the body.

Step 3

State the role of haemoglobin inside the red blood cell.

96%

101 rated

Answer

Haemoglobin is a protein in red blood cells that binds to oxygen. Its primary role is to transport oxygen from the lungs to the tissues and to carry carbon dioxide from the tissues back to the lungs. This ability to bind to oxygen is facilitated by the iron contained in the haem group of the haemoglobin molecule.

Step 4

Explain why red blood cells cannot be stored in pure water.

98%

120 rated

Answer

Red blood cells cannot be stored in pure water because it would create a hypotonic environment, causing water to enter the cells through osmosis. This influx of water would lead to swelling and potential bursting (lysis) of the red blood cells. To maintain their integrity and function, they are stored in solutions that are isotonic, such as those containing glucose and salt.

Figure 6 shows the structure and actual size of red blood cells (erythrocytes) - Edexcel - GCSE Biology Combined Science - Question 3 - 2021 - Paper 1

Worked Solution & Example Answer:Figure 6 shows the structure and actual size of red blood cells (erythrocytes) - Edexcel - GCSE Biology Combined Science - Question 3 - 2021 - Paper 1

Calculate the image size of the top view of this red blood cell if this cell is magnified 400×.

Explain how the shape of a red blood cell is related to its function.

State the role of haemoglobin inside the red blood cell.

Explain why red blood cells cannot be stored in pure water.

Join the GCSE students using SimpleStudy...