OCR Gateway GCSE Biology

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GCSEBiologyOCR GatewayTopic Questions3. Organism Level Systems3.1 Coordination & Control – the Nervous System

3.1 Coordination & Control – the Nervous System

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1a
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A class of students investigate reaction time.

Student A drops a ruler while student B catches it.

They then measure the position of student B’s thumb on the ruler, this is the drop distance.

The diagram shows how the measurements were taken.

q18-paper1f-june2018-ocrgcsebio

The drop distance is converted into a reaction time. The reaction time in seconds for each hand is recorded.

The table shows the results for ten right-handed students in the class.

Reaction time(s)
Left non-
dominant hand		 Right dominant
hand
0.22 0.28
0.23 0.25
0.27 0.23
0.24 0.24
0.25 0.24
0.25 0.25
0.25 0.26
0.25 0.26
0.25 0.26
0.27 0.23
Mean = 0.25 Mean = 0.25

(i)
Calculate the mode for the right dominant hand.

Answer = ......................... seconds [1]

(ii)
The mean and mode for the left non-dominant hand are identical.

What other conclusions can be made about reaction times in these ten students?
[2]

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1b
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How could these students improve the recording of their results?

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1c
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The students want to investigate reaction times to see if left-handed people are faster than right-handed people.

How could they develop the experiment to test this?

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1d
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The reaction in the experiment involves a stimulus.

What is the stimulus in the reaction involving catching the ruler?

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1e
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Complete the sequence of a reflex arc.

Stimulus ...........................

Sensory

neurone

CNS ...........................
...........................		 Effector Response

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2a
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This question is about coordination.

Parts of the body, such as the fingers, are moved by the contraction of muscles.

In a voluntary movement the brain sends nerve impulses to muscle fibres along motor neurones.

Name the part of the brain that controls voluntary movement.

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2b
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A nerve to a muscle contains many motor neurones.

Fig. 21.1 shows two motor neurones supplying a muscle that moves the fingers. Fig. 21.2 shows the force of contraction of the muscle when the neurones are stimulated separately or both together.

fig-21-1-paper1h-nov2020-ocrgcsebio
Fig. 21.1
fig-21-2-paper1h-nov2020-ocrgcsebio
Fig. 21.2

(i)
Suggest how the brain can finely control the force of contraction in the muscles controlling the fingers.
[2]
(ii)
Fig. 21.3 shows a motor neurone supplying a muscle that moves the leg.
fig-21-3-paper1h-nov2020-ocrgcsebio
Fig. 21.3


Explain the reason for the difference in the neurone supplying this muscle compared to the neurones supplying the muscle that moves the fingers.
[3]

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2c
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Dart players use their fingers to throw darts at a dart board.

Dart players A and B have different throwing styles. Fig. 21.4 shows the throwing styles of the two players.

The release window is the area where the dart is released.

fig-21-4-paper1h-nov2020-ocrgcsebio
Fig. 21.4


To throw a dart accurately at the centre of a dart board involves coordination. The brain needs to coordinate the actions of sense organs and muscles.

Explain the function of the nervous system and muscles in the throwing of a dart at the centre of the dart board and why this process is more complicated in Player B than in Player A.

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3a
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A boy picks up a hot plate and quickly drops it.

This is a reflex action.

Describe the sequence of events that happens in his nervous system during this reflex action.

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3b
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The table shows information about different types of neurons.

Type of neurone Is myelin sheath
present?		 Diameter
(× 10–3 mm)		 Speed of
impulse
(m/s)
A yes 13–20 80–120
B yes 6–12 33–75
C yes 5–8 4–24
D yes 1–5 3–15
E no 0.2–1.5 0.5–20

(i)

Discuss the effect of diameter on the speed of impulse.

[2]

(ii)
Explain how strong a conclusion, if any, you can make from the data about the effect of the myelin sheath on the speed of impulse.
[2]

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4a
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A girl walks from a sunny beach into a dark café.

Diagram A shows the girl’s left eye on the beach.

q17-paper1h-june2018-ocrgcsebio

Diagram B shows the girl’s left eye after she enters the café.

Explain how you can tell this and how this change happens.

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4b
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Look at the diagrams.

They show how light is focused in people with different eye defects.

q17b-paper1h-june2018-ocrgcsebio

(i)
Name the eye defect in each person.

Person X .................................
Person Y ..................................
[2]
(ii)
Identify the type of corrective lens needed by person X and Y and explain how the lenses work.
[3]

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5a
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A boy picks up a hot plate and quickly drops it.

This is a reflex action.

Describe the sequence of events that happens in his nervous system during this reflex action.

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5b
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Explain why it is important that this action is a reflex and not controlled consciously by the brain.

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6a
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A class of students investigate if right handed people are faster with their dominant right hand.

Student A drops a ruler while student B catches it.

They then measure the position of student B’s thumb on the ruler, this is the drop distance.

The diagram shows how the measurements were taken.

fig-19-1-paper1h-june2018-ocrgcsebio

Fig. 19.1

The drop distance is converted into a reaction time. The reaction time in seconds for each hand is recorded in a table.

(i)
Identify two possible sources of error in this method of measuring reaction time.

1. ..........................................
2. ..........................................
[2]

(ii)
A second method of measuring reaction time involves a computer reaction time program shown in Fig. 19.2.

Each student is asked to click the “Start” button. After a 3-second delay a number randomly flashes up. The student moves the mouse to click on the flashing number.

Left hand is used first then the right hand.

fig-19-2-paper1h-june2018-ocrgcsebio
Fig. 19.2

This second method is a better design than the first method but it could still be improved.

Explain why it is a better designed experiment than the first method and suggest how this second method could be improved.
[3]

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6b
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The table shows the results for ten right handed students in the class.

Reaction time(s)
Left non-
dominant hand		 Right dominant
hand
0.22 0.21
0.23 0.25
0.27 0.23
0.24 0.24
0.25 0.24
0.25 0.25
0.25 0.26
0.25 0.26
0.25 0.26
0.27 0.28
Mean = 0.25 Mean = 0.25

(i)
Calculate the median for the right dominant hand.
Answer = .......................... [2]

(ii)
The mean and median for the left non-dominant hand are identical.

What other conclusions can be made about reaction times in these ten students?
[2]

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6c
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Higher Tier only

(i)
Motor neurone disease (MND) is a condition that affects reaction times. MND affects the speed of nerve impulse in motor neurones. 

Stem cells taken from the skin of people with MND are used in research. The stem cells can be grown in the lab and used to measure the speed of the nerve impulse.

Which special feature of stem cells makes this possible?
[1]

(ii)
The diagram shows the brain.

q19cii-paper1h-june2018-ocrgcsebio

Name part Y and explain why it is an important area of the brain in the research of MND.

Part Y: ...........................................
Explanation: ................................
[2]

(iii)
Measuring the speed of the nerve impulse in the brain is more difficult than using stem cells.

Suggest two reasons why.
[2]

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7a
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Higher tier content only

Investigating brain function may involve the following techniques:

  • External recording of the brain using EEG.
  • Scanning techniques such as CAT and MRI.
  • Case studies of humans with accidental damage.
  • Deliberate damage in animal experimentation.
(i)
Understanding of brain function has increased in recent years. However, there are still problems that scientists face that are preventing a complete understanding.

Evaluate the reasons why understanding has increased but also why problems still exist.

 [4]

(ii)
When scientists complete their research they usually publish it in journals or online.

Give two reasons why scientists publish their results.
1 .......................................
2 .......................................
[2]

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7b
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Alzheimer’s disease involves damage to nerve transmission.

Symptoms include difficulties in judging distance, concentrating and making decisions.

The diagram shows a synapse between two neurones in the brain.q21b-paper1h-june2019-ocrgcsebio

Acetylcholine is a neurotransmitter in the brain. It diffuses across the 32 nanometre synaptic gap

In a brain from a person with Alzheimer’s disease, the time for acetylcholine to diffuse between neurones is 6.4 × 10–7 s.

1 metre = 109 nanometres

(i)
Calculate the speed of diffusion in a person with Alzheimer’s disease.

Use this formula: speed = distance ÷ time

Give your answer in metres per second.

Speed of diffusion = ........................... metres per second

[3]

(ii)
In the brain of a healthy person the speed of diffusion is 0.2 metres per second.

How does the result obtained in part (i) account for the symptoms of Alzheimer’s disease?
 [2]

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