Syllabus Edition

First teaching 2020

Last exams 2024

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Control & Coordination in Mammals (CIE A Level Biology)

Exam Questions

3 hours13 questions
1a
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3 marks

Fig. 1 shows a diagram of a motor neurone.

fig2-1-qp-specimen-2022-9700-04

Fig. 1

Name the structures labelled A, B and C on Fig. 1.

1b
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2 marks

Describe the function of a motor neurone.

1c
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4 marks

With reference to Fig. 1, explain the fast transmission of impulses along a motor neurone.

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2a
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3 marks

Fig. 1 shows changing membrane potential in an axon within a human leg.

action-potentials-sq

Fig. 1

(i)

Identify the type of membrane potential present in the axon at 0.5 ms in Fig. 1.

[1]

(ii)

Explain how the membrane potential identified in part (i) has been achieved in the axon.

[2]

2b
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1 mark

At 1 ms in Fig. 1 the membrane is stimulated.

State what happens within the membrane at 1 ms as a result of this stimulation.

2c3 marks

Explain the shape of the curve between 1 - 1.8 ms in Fig. 1.

2d2 marks

Assuming that the intensity of stimulation remains constant, calculate how many complete action potentials will occur in 1 second in the neurone shown in Fig. 1. Note that there are 1000 ms in a second.

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3a
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3 marks

Fig. 1 shows a representation of a junction between two neurones.

synapse-sq

Fig. 1

Identify structures A-C in Fig. 1.

3b
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2 marks

Fig. 1 shows that the junctions between neurones contain molecules known as neurotransmitters.

Outline how neurotransmitters interact with the structures labelled D to bring about an action potential in the new neurone.

3c
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2 marks

The junctions between motor neurones and muscles are specialised versions of the structure illustrated in Fig. 1.

(i)

Name the specialised junctions between motor neurones and muscles.

[1]

(ii)

Give one difference between the processes that take place in the structure named in part (i) and those that occur in the structure illustrated in Fig. 1.

[1]

3d
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4 marks

Fig. 2 shows a representation of a sarcomere from striated muscle. When an impulse arrives at the structure named in part (c) (i), striated muscle can be stimulated to contract.

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Fig. 2

(i)

When the sarcomere contracts it reduces in length by 9.5 %.

Calculate the length of a contracted sarcomere.

[2]

(ii)
Other than an overall reduction in length, state two specific changes that will occur in Fig. 2 as a result of stimulation of the striated muscle.

[2]

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1a3 marks

Insulin is an example of a globular protein.

Explain what this means for its mechanism of action.

1b3 marks

Insulin is released by the endocrine system.

Contrast the action of the endocrine system with that of the nervous system.

1c2 marks

Fig. 1 shows a microscope image of a neurone, the cell body of which is located within the central nervous system.

15-1-fig-1-1Fig 1

(i)

Identify the precise cell type shown in Fig. 1.

[1]

(ii)

Draw an arrow on Fig. 1 to show the direction a nerve impulse will travel through the cell.

[1]

1d2 marks
(i)

Identify one feature of the neurone type shown in part (c) that is not labelled in Fig. 1.

[1]

(ii)

State how the feature identified in part (i) assists with the specific function of the neurone.

[1]

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2a2 marks

Fig. 1 shows an electron microscope image of a synapse.

15-1-fig-4-1Fig. 1

(i)

Name cell in Fig. 1.

[1]

(ii)

Give a reason for your answer to part (i).

[1]

2b3 marks
(i)

Give one feature that would be found on the cell surface membrane of cell B in Fig. 1.

[1]

(ii)

Explain why this feature is not visible in Fig. 1.

[2]

2c2 marks

Structure C in Fig. 1 is a mitochondrion.

Suggest the roles of structure C within cell A in Fig. 1.

2d4 marks

Describe the role of calcium ions at a synapse.

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3a3 marks

Muscle contraction is stimulated by a series of events taking place at a neuromuscular junction.

Compare the structures and processes of a normal cholinergic synapse with those of a neuromuscular junction.

3b3 marks

Fig. 1 shows a section of skeletal muscle under an electron microscope.

15-1-fig-5-1Fig. 1

Identify structures A, B and C in Fig. 1.

3c2 marks

Skeletal muscle, as shown in Fig. 1, is also known as striated muscle due to its striped appearance.

Use your knowledge of the protein filaments in muscle tissue to explain the striped appearance of skeletal muscle shown in Fig. 1

3d4 marks

Several different drugs exist that reduce the contraction of skeletal muscles. Two of these drugs are described in Table 1 below.

Table 1

Drug Mechanism of action
PBP Inhibits ATP hydrolysis
Dantrolene Inhibits the release of calcium ions from the sarcoplasmic reticulum

Explain how each of the drugs in Table 1 reduces the contraction of skeletal muscles.

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4a
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3 marks

Outline the roles of sensory receptor cells in the mammalian nervous system.

4b
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11 marks
Fig. 1 shows the changes in potential difference (p.d.) across the membrane of a receptor cell over a period of time. The membrane was stimulated at time A and at time B with stimuli of different intensities.
fig8-1-qp-octnov-2018-9700-41

Fig. 1

(i)

State which of the letters C, D and E on Fig. 1 corresponds to each of these events. You may use each of the letters C, D or E once, more than once or not at all.

  • The Na+ /K+ pump is operating

  • The voltage‐gated Na+ channels are open

  • The voltage‐gated K+ channels are open

[3]

(ii)

Explain why stimulus A did not result in an action potential being produced whereas stimulus B did.

[2]

(iii)

Describe the importance of the refractory period in the transmission of action potentials.

[2]

(iv)

Describe how action potentials are transmitted along a myelinated axon.

[4]

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5
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7 marks

Explain how a cholinergic synapse functions.

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6a
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4 marks

Fig. 1 shows a transmission electron micrograph of a section through striated muscle.

fig4-1-qp-octnov-2018-9700-42

Fig. 1

Complete Table 1, using the letters A, B or C, to show the location of proteins associated with striated muscle structure.

You may use each letter once, more than once, or not at all.

      Table 1

protein location
myosin and actin  
actin alone  
ATP synthase  
ATPase  

6b
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5 marks

Explain the role of ATP in the contraction of striated muscle.

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7a
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9 marks

Describe how a spinal reflex arc functions and explain why it is an advantage to a mammal.

7b
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6 marks

Explain the importance of the myelin sheath in determining the speed of nerve impulses.

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1a3 marks

Fig. 1 shows the events leading to the generation of an action potential in two types of taste buds.

15-1-fig-2-1Fig. 1

Explain how an action potential is generated by a taste bud that responds to salty flavour.

1b3 marks

Fig. 1 shows that taste buds responding to sweet flavours make use of the second messenger model.

Use Fig. 1 to suggest how an action potential is generated by a taste bud that responds to sweet flavours.

1c2 marks

Fig. 2 shows the effect of applying different sizes of stimulus on the membrane potential of a receptor cell.

15-1-fig-2-2Fig. 2

Describe what Fig. 2 shows about the effect of stimulus size on membrane potential.

1d3 marks

Outline how an action potential generated in a receptor cell is transmitted along an axon.

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2a
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2 marks

Table 1 shows the speed of impulse transmission in neurones of different type and diameter.

Table 1

Neurone source Myelinated Axon diameter / μm Speed of impulse transmission / m s-1
Cat Yes 5 27
Rabbit No 7 6
Frog Yes 16 36
Newt Yes 7 27

Calculate the percentage increase in impulse transmission speed in myelinated neurones when the axon diameter is increased from 7 μm to 16 μm.

2b2 marks

Describe the effect of myelination on neurones shown in Table 1

2c4 marks

Explain the following from Table 1:

(i)

The effect of myelination on speed of nerve impulse transmission.

[3]

(ii)

The effect of axon diameter on speed of nerve impulse transmission.

[1]

2d4 marks

Scientists investigated the relationship between myelin in brain tissue and the different types of dementia.

The scientists measured the mean myelin content in brain tissue samples from 3 different groups:

  • A control group of 15 people without dementia
  • 22 people with vascular dementia (VD)
  • 18 people with Alzheimer's dementia (AD)

Their results are shown in Fig. 1 below. The smaller vertical bars represent standard deviation.

15-1-fig-3-1
Fig. 1

A research assistant reviewing Fig. 1 concluded that there was a relationship between the concentration of myelin present in an individual’s brain and the likelihood of dementia.

Evaluate this conclusion.

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3a
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2 marks

A group of six students carried out an experiment to determine their reaction times using a ruler.

Fig. 1 shows the basic procedure used for the experiment.

fig1-1-qp-mayjune-2019-9700-51-1

Fig. 1

The students worked in pairs.

  • Student A rested their hand on a bench.
  • Student B then dropped a ruler from a set height.
  • Student A had to catch the ruler as quickly as possible.
  • The distance the ruler had dropped was measured and recorded.
  • The students calculated their reaction times.

The formula for calculating reaction time in seconds is shown in Fig. 2.

fig1-2-qp-mayjune-2019-9700-51-1

Fig. 2

Table 1 shows the results for the six students.

Table 1

Student Distance ruler had dropped / m Reaction time / s
1 0.17 0.19
2 0.10 0.14
3 0.16 0.18
4 0.08  
5 0.16 0.18
6 0.35 0.27

(i)

Use the formula in Fig. 2 to complete Table 1.


[1]

(ii)

Predict what would happen to the reaction time if the ruler was held higher than the original set height.

[1]

3b
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8 marks

There was some background noise in the classroom when the students carried out their experiment. The students thought that this noise might have affected their reaction times. They decided to modify their original experiment to find out if the presence or absence of background noise affects reaction time.

(i)

Identify the dependent variable in this investigation.


[1]

(ii)

Using the procedure shown in Fig. 1, describe a method that the students could use to find out if the presence or absence of background noise affects reaction time.

Your method should be set out in a logical order and be detailed enough for another person to follow.

[7]

3c
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1 mark

Fig. 3 shows some results for a reaction time test that the students found on the internet.

fig1-3-qp-mayjune-2019-9700-51-1

Fig. 3

State why a bar chart is a suitable way to show the data.

3d
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4 marks
(i)

Suggest one conclusion the students could have made based on these results.

[1]

(ii)

The students decided to carry out a t-test to find out if the difference in reaction time was significant.

State why a t-test is suitable for these data.

[1]

(iii)

State a null hypothesis for this test.

[1]

Table 2 shows some probability values of t.

Table 2

degrees of
freedom
10 12 14 16 18 20 22 24 26 28 30 40 50 60
probability
0.05
2.23 2.18 2.14 2.12 2.10 2.09 2.07 2.06 2.06 2.05 2.04 2.02 2.01 2.00

(iv)

The students used 16 degrees of freedom and calculated t = 2.05.

State and explain what the value of t indicates about the difference in mean reaction times shown in Fig. 3.

[1]
3e
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4 marks

Another student, when carrying out the ruler experiment shown in Fig. 1, noticed that the more repetitions carried out, the faster the reaction time became.

The student decided to carry out a different experiment to investigate the effect of repetition on the accuracy of carrying out a task.

Five students, V, W, X, Y and Z were tested.

  • Each student was given a picture of a star, as shown in Fig. 4.
  • Each student sat at a desk so that the star was only visible in a mirror, as shown in Fig. 5.
  • Each student was asked to draw between the double lines of the star when looking at it only in the mirror. Fig. 6 shows a star diagram completed by a student.
  • The students recorded the number of times their lines went outside the double line of the star.
fig1-4-qp-mayjune-2019-9700-51-1

Fig. 4

fig1-5-qp-mayjune-2019-9700-51-1

Fig. 5

fig1-6-qp-mayjune-2019-9700-51-1

Fig. 6

Each student repeated the task nine times on the same day. The results are shown in Table 3.

Table 3

student number of times the students’ lines went outside the double lines of the star
1 2 3 4 5 6 7 8 9
V 48 48 46 44 42 40 41 41 41
W 45 42 43 40 38 35 36 35 35
X 38 37 34 32 31 30 28 38 28
Y 31 30 31 29 44 28 26 25 25
Z 41 40 38 37 35 35 33 33 32

(i)

Identify the independent variable in this experiment.

[1]

(ii)

Suggest the hypothesis that was tested in this experiment.

[1]

(iii)

A person walked into the room and started talking to one of the students who was carrying out the test.

Circle the result in Table 3 that was affected by this.

[1]

(iv)

One of the students had previously carried out a similar task.

Identify this student and give a reason for your answer.

[1]

3f
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2 marks

State two conclusions based on the data in Table 3.

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