Revision303 Revision303 Revision303
Please write clearly in block capitals.
Centre number Candidate number
Surname
Forename(s)
Candidate signature
I declare this is my own work.
AS
BIOLOGY
Paper 2
Thursday 23 May 2024 Morning Time allowed: 1 hour 30 minutes
Revision303 Revision303 Revision303
Materials
For this paper you must have: For Examiner’s Use
• a ruler with millimetre measurements
Question Mark
• a scientific calculator.
1
Instructions 2
• Use black ink or black ball-point pen. 3
• Fill in the boxes at the top of this page.
4
• Answer all questions.
• You must answer the questions in the spaces provided. Do not write 5
outside the box around each page or on blank pages. 6
• If you need extra space for your answer(s), use the lined pages at the end of
7
this book. Write the question number against your answer(s).
• Show all your working. 8
• Do all rough work in this book. Cross through any work you do not want 9
to be marked.
TOTAL
Information
• The marks for the questions are shown in brackets.
• The maximum mark for this paper is 75.
Revision303 Revision303 Revision303
,Revision303 Revision303 Revision303
2
Do not write
outside the
Answer all questions in the spaces provided. box
0 1 . 1 Water has a high heat capacity and a large latent heat of vaporisation.
Describe the importance of each of these properties to living organisms.
[2 marks]
High heat capacity
Large latent heat of vaporisation
0 1 . 2 Figure 1 shows that water loss from a porous pot can cause the upward movement of
water.
Figure 1
Revision303 Revision303 Revision303
*02*
Revision303 Revision303 Revision303
IB/M/Jun24/7401/2
, Revision303 Revision303 Revision303
3
Do not write
outside the
Biologists have concluded that the experiment in Figure 1 supports the box
cohesion–tension theory of water transport in the xylem.
Explain how this conclusion is supported by the experiment in Figure 1.
[3 marks]
0 1 . 3 An air bubble was introduced into the glass tubing in Figure 1. The air bubble moved
a distance (d) of 1.5 cm in 120 minutes. The radius of the lumen (hole) of the glass
Revision303 tubing was 0.6 cm Revision303 Revision303
Use this information and the formula πr 2 d to calculate the rate of water movement in
the glass tubing in cm3 hour –1.
Use π = 3.14 in your calculation.
[1 mark]
Answer cm3 hour –1 6
Turn over ►
*03*
Revision303 Revision303 Revision303
IB/M/Jun24/7401/2
Please write clearly in block capitals.
Centre number Candidate number
Surname
Forename(s)
Candidate signature
I declare this is my own work.
AS
BIOLOGY
Paper 2
Thursday 23 May 2024 Morning Time allowed: 1 hour 30 minutes
Revision303 Revision303 Revision303
Materials
For this paper you must have: For Examiner’s Use
• a ruler with millimetre measurements
Question Mark
• a scientific calculator.
1
Instructions 2
• Use black ink or black ball-point pen. 3
• Fill in the boxes at the top of this page.
4
• Answer all questions.
• You must answer the questions in the spaces provided. Do not write 5
outside the box around each page or on blank pages. 6
• If you need extra space for your answer(s), use the lined pages at the end of
7
this book. Write the question number against your answer(s).
• Show all your working. 8
• Do all rough work in this book. Cross through any work you do not want 9
to be marked.
TOTAL
Information
• The marks for the questions are shown in brackets.
• The maximum mark for this paper is 75.
Revision303 Revision303 Revision303
,Revision303 Revision303 Revision303
2
Do not write
outside the
Answer all questions in the spaces provided. box
0 1 . 1 Water has a high heat capacity and a large latent heat of vaporisation.
Describe the importance of each of these properties to living organisms.
[2 marks]
High heat capacity
Large latent heat of vaporisation
0 1 . 2 Figure 1 shows that water loss from a porous pot can cause the upward movement of
water.
Figure 1
Revision303 Revision303 Revision303
*02*
Revision303 Revision303 Revision303
IB/M/Jun24/7401/2
, Revision303 Revision303 Revision303
3
Do not write
outside the
Biologists have concluded that the experiment in Figure 1 supports the box
cohesion–tension theory of water transport in the xylem.
Explain how this conclusion is supported by the experiment in Figure 1.
[3 marks]
0 1 . 3 An air bubble was introduced into the glass tubing in Figure 1. The air bubble moved
a distance (d) of 1.5 cm in 120 minutes. The radius of the lumen (hole) of the glass
Revision303 tubing was 0.6 cm Revision303 Revision303
Use this information and the formula πr 2 d to calculate the rate of water movement in
the glass tubing in cm3 hour –1.
Use π = 3.14 in your calculation.
[1 mark]
Answer cm3 hour –1 6
Turn over ►
*03*
Revision303 Revision303 Revision303
IB/M/Jun24/7401/2
