Paper 2: Topic 5 Homeostasis & response - Nervous system (LV)

Question 1

Why do single-celled organisms not need a nervous system?

Answer 1

They can respond to changes in their environment easily and directly

Question 2

Why does a multi-cellular organism need a nervous system?

Answer 2

• So that they can react to changes in their environment AND control and regulate changes in the different part of the body
• The nervous system allows cells to communicate with each other so a controlled response occurs
• A nervous system ensures co-ordinated behaviour

Question 3

What structures are the main parts of the central nervous system?

What is the peripheral nervous system?

Answer 3

The CNS is made up of the

• Brain
• Spinal cord

The peripheral nervous system is made up of all the other nerves in the body that lead into and out of the of the spinal cord.

Question 4

Describe how the central nervous system is connected to the other parts of the body?

Answer 4

Sensory and motor neurones in the peripheral nervous system

Question 5

Define the term receptor

Answer 5

A cell that detects a stimulus (change in the environment)

AND

that can generate/produce a nerve impulse

Question 6

State 4 different types of receptor

Answer 6

• Sound receptors
• Light receptors (photoreceptors)
• Chemical receptors (chemoreceptors)
• Pressure receptors

Question 7

Define the term effector

Answer 7

A muscle or gland that responds to nerve impulses and causes a response

Question 8

State how muscles respond to nerve impulses

Answer 8

They contract

HINT: do NOT write they “contract AND RELAX” - the impulse only causes them to contract

Question 9

State how glands respond to nerve impulses

Answer 9

Glands produce and secrete a hormone into the plasma

Question 10

State the function of the central nervous system

Answer 10

To receive and process information from the receptors AND

to co-ordinate the response

Question 11

Write the pathway of a nerve impulse from stimulus to response (reflex arc)

Answer 11

Stimulus → receptor -→ sensory neurone → central nervous system → motor neurone → effector → response

Remember in a reflex action the brain is not involved

Question 12

Explain why not all multi-cellular organisms have a nervous system

Answer 12

Only large, multi-cellular organisms have a nevous system

Small multi-cellular organsims e.g. jelly fish rely on reflex reponses

Question 13

State the function of a neurone

Answer 13

To transmit a nerve impulse

Question 14

Define the term ‘synapse’

Answer 14

A junction between two neurones

HINT: do NOT say “a gap” this is incorrect

Question 15

Describe how a nerve impulse is transmitted across a synapse

Answer 15

• Vesicles containing neurotransmitters travel to the end of the axon (pre synaptic membrane)
• The vesicles fuse with the pre-synaptic membrane
• The neurotransmitters are released into the synapse
• The neurotransmitters diffuse across the synapse
• The neurotransmitters bind to specific receptors on the membrane of the next neurone (post-synaptic neurone)
• And this then triggers the nerve impulse in the next neurone

Question 16

Define the term neurotransmitter

Answer 16

A specialised chemical that is released from the end of the axon of one neurone that can diffuse across a synapse to trigger a nerve impulse in the next neurone

Neurotransmitters are chemical messengers

Question 17

Explain the purpose of reflex actions

Answer 17

To prevent damage or harm to the organism.

They are rapid, they always result in the same response** and they are involuntary.

Question 18

State 5 examples of relex actions

Answer 18

• Blinking
• Coughing
• Sneezing
• Vomiting
• Knee-jerk
• Iris-reflex

Question 19

Describe a reflex arc

Hint: 6 main stages

Answer 19

1. A change in the environment occurs (a stimulus)
2. A receptor cell detects the stimulus
3. A nerve impulse is sent along the sensory neurone to the CNS
4. The nerve impulse is passed through the relay neurone in the CNS (NOT the brain)
5. The nerve impulse is sent along a motor neurone to the effector
6. The effector brings about a response (either a muscle contracts or a gland secretes a hormone)

Question 20

What is the role (function) of a sensory neurone?

Answer 20

To transmit a nerve impulse from the receptor to the relay neurone

Question 21

What is the role/function of a relay neurone?

Answer 21

To transmit a nerve impulse from the sensory neurone to the motor neurone

Question 22

What is the role/function of a motor neruone?

Answer 22

To transmit a nerve impulse from the relay neurone to the effector

Question 23

Explain the advantage of using reflex actions

Answer 23

• Quicker response time i.e. rapid response
• Which reduces damage and harm to the organism

Question 24

Define a reflex action

Hint:

This is a similar question to “state the charcateristics of a reflex action”

Answer 24

A rapid, automatic response that does not involve the conscious part of the brain

Characteristics of a reflex action:

• rapid / fast
• involuntary response i.e. subconcious

Question 25

State which 2 parts of the CNS a reflex arc may pass through

Answer 25

The spinal cord

OR

An unconscious part of the brain

Question 26

Define the term reaction time

Answer 26

The time it takes to respond to a stimulus

Question 27

State 4 factors that can affect the reaction time

Answer 27

• Age
• Alcohol
• Biological sex (do not say ‘gender’ as this is inappropriate in this context)
• Drugs e.g. caffeine

Question 28

Describe the effect caffeine has a person’s reaction time

Answer 28

• Speeds the reaction time up
• i.e. time to respond to a stimulus decreases
• hence caffeine is a stimulant

Question 29

Describe the effect alcohol has a person’s reaction time

Answer 29

• Slows down the reaction time
• i.e. time to respond to a stimulus increases
• hence alcohol is a depressant

Question 30

Describe how a person’s reaction time can be measured

Answer 30

• Use the dropping a ruler technique

OR

• Use a computer programme

Question 31

An investigation studying the effect of gender on reaction time is carried out using the dropped ruler technique.

State 4 factors that should be controlled to make the investigation valid

Answer 31

• Only use participants of the same age
• Ensure no participants have consumed any caffeinated drinks prior to the test
• Make sure all the participants use their dominant hand
• Make sure the ruler is dropped from the same height each time

Question 32

State two advantage of using a computer programme rather than the dropped ruler technique to determine a person’s reaction time

Answer 32

• A computer programme will give reactions times to a greater level of precision (as they remove human error)
• A computer programme will give more accurate reaction times (they can record in milliseconds)
• The participant is unable to ‘predict’ the test using a computer programme (when using the ruler technique participants can try to predict when the ruler is going to be dropped)

Question 33

State 2 safety issues that should be considered if you are investigating the effect of caffeine on reaction times

Answer 33

• Check the participants on not taking any medication that may be affected by caffeine
• Advise participants to not consume any more caffeine after the test as high levels of caffeine can cause side effects e.g. heart palpitations, sweats

Question 34

Describe the structure of the brain

Answer 34

A mass of billions of interconnected neurones

Question 35

Describe the function of the brain

Answer 35

To control complex behaviour

Question 36

State the 3 main regions of the brain

Answer 36

1. Cerebellum
2. Cerebral cortex (also called cerebrum or cerebral hemispheres)
3. Medulla oblongata

Question 37

Describe the location and role/function of the cerebral cortex

Answer 37

• This is the outer part of the brain
• It is located at the front of the brain
• It controls voluntary movement
• It also controls consciousness, memory , intelligence and language

Question 38

Describe the location and role/function of the cerebellum

Answer 38

• It is located at the back of the brain
• It is responsible for co-ordination of movement (using muscles)
• It maintains body posture and balance

Question 39

Describe the role/function of the medulla oblongata

Answer 39

• It is located at the base of the brain at the top of the spinal cord
• It is controls unconscious activities (involuntary actions)
• For example breathing RATE, heart RATE
• It also relays impulses between the brain and spinal cord

Question 40

What is the name given to scientists who study the brain?

Answer 40

Neuroscientists

Question 41

State 3 methods neuroscientists have used to study the brain

Answer 41

1. Studying patients with brain damage
2. Electronically stimulating the brain
3. MRI scans

Question 42

Describe how neuroscientists have studied patients with brain damage to make discoveries about brain function

Answer 42

By studying which part of the brain is damaged in different patients scientists can study the effect different types of damage has on their behaviour etc

Question 43

Describe how neuroscientists have used electrodes to make discoveries about brain function

Answer 43

By artificially stimulating the brain with tiny electrodes in the brain tissue it is possible to determine which parts are responsible for specific functions

Question 44

Describe how neuroscientists have used MRI scans to make discoveries about brain function

Answer 44

• Magnetic resonance imaging produces very detailed images of the brain structure.
• Scientists can study which parts of the brain are more active when patients are doing certain activities whilst inside the MRI scanner e.g. talking, listening to music, speaking a foreign language

Question 45

State 3 reasons why some people are against neuroscientists using electrode stimulation to study the brain

Answer 45

1. Due to the complexity of the brain inserting the electrodes can cause physical damage to the brain
2. It can result in a higher risk of problems with brain function e.g. difficulties with speech
3. Long-term effects of using this technique are not yet understood (as it is a relatively new process)

Question 46

Explain why the brain is a difficult organ to study

Answer 46

• It is a complex and delicate organ
• Which can easily be damaged
• If damage occurs it can result in life-changing consequences
• E.g. loss of mobility, speech impediments, memory loss

Question 47

What type of organ is the eye?

Answer 47

Sense organ

Question 48

Name the 2 types of stimuli the eye detects

Answer 48

1. Light intensity
2. Colour

Question 49

State what type of receptors are found in the eye

Answer 49

Photoreceptors

Question 50

Describe the role/function of the sclera

Answer 50

Tough, white outer layer of the eye which supports the eye

Question 51

Describe the role/function of the retina

Answer 51

This layer contains the photoreceptor cells which can detect either the colour of the light (wavelength) or the light intensity

Question 52

Describe the role/function of the cornea

Answer 52

• The cornea is a transparent, outer layer at the front of the eye
• It refracts (bends) the light

Question 53

Describe the role/function of the optic nerve

Answer 53

The optic nerve carries the nerve impulses from the photoreceptors in the retina to the brain

Question 54

Describe the role/function of the iris

Answer 54

• The iris is contains 2 sets of muscles
• These are the radial and circular muscles
• These muscles contract or relax to control the size of the pupil
• i.e. the iris controls the level (intensity) of light that enters the eye and reaches the retina

Question 55

Describe the role/function of the ciliary muscles

Answer 55

• The ciliary muscles control the shape of the lens:
  
  • if the ciliary muscles contract they allow the lens to be thicker
  • if the ciliary muscles relax they pull the lens thinner

Question 56

Describe the role/function of the suspensory ligaments

Answer 56

• The suspensory ligaments control the shape of the lens:
  
  • if the suspensory ligament are pulled tight they make the lens thinner
  • if the suspensory ligaments are slack they allow the lens to be thicker

Question 57

Describe the role/function of the lens

Answer 57

• The lens focuses the light rays onto the retina
• To enable the photoreceptors to detect the stimulus
• If the lens is thin it only slightly refracts (bends) the light
• If the lens is thick then it strongly refracts (bends) the light

Question 58

Describe how the eye focuses on a near object

Answer 58

• The ciliary muscles contract so their diameter reduces
• The suspensory ligaments are loose & slack
• The lens is thicker and more curved
• The lens is more convergent
• The light rays are refracted more strongly
• Light rays then converge on the retina to focus the image

Question 59

Describe how the eye focuses on a distant object

Answer 59

• The ciliary muscles relax so their diameter increases
• The suspensory ligaments are tight and taught
• The lens is thinner and less curved
• The lens is more divergent
• The light rays are refracted less strongly
• Light rays then converge on the retina to focus the image

Question 60

Describe how the eye responds to bright light

Answer 60

• The circular muscles of the iris contract
• The radial muscles of the iris are relaxed
• The pupil has a narrower diameter
• Less light enters the eye
• Less light hits the photoreceptors in the retina

Question 61

Describe how the eye responds in dim light

Answer 61

• The radial muscles of the iris contract
• The circular muscles of the iris are relaxed
• The pupil has a wider diameter
• More light enters the eye
• More light hits the photoreceptors in the retina

Question 62

Name the type of response that is shown when the iris changes size

Answer 62

Reflex action

Question 63

Define the term accommodation (in the eye)

Answer 63

The reflex process of changing the shape of the lens to focus on a near or distant object

Question 64

Name the type of response that is shown when the eye accommodates an object

Answer 64

Reflex action

Question 65

Explain why a person’s eyesight may deteriorate as they age

Answer 65

• The lens loses flexibility as a it ages
• This prevents it changing shape easily
• Light refraction becomes more difficult
• Often meaning the person has to wear glasses

Question 66

Describe what is meant by the term ‘long-sighted’

Answer 66

The person is unable to focus on a nearby object

Question 67

Describe what is meant by the term ‘short-sighted’

Answer 67

The person is unable to focus on a distant object

Question 68

Explain how a person may become long-sighted

Answer 68

• The shape of the lens is too thin or the shape of the eyeball is too short
• The light rays are not focussed on the retina
• They converge at a point behind the retina
• This causes the object to be focussed behind the retina

Question 69

Describe how to correct long-sighted vision

Answer 69

Prescribe glasses with a convex lens (lens curves outwards)

Question 70

Explain how to correct long-sighted vision

Answer 70

• Prescribe glasses with a convex lens
• This lens refracts the light more strongly
• So that the light rays focus on the retina

Question 71

State the medical term for long-sight

Answer 71

Hyperopia

Question 72

Explain how a person may become short-sighted

Answer 72

• The shape of the lens is too thick or the shape of the eyeball is too long
• The light rays are not focussed on the retina
• They converge at a point IN FRONT of the retina (within the vitreous humour)
• This causes the object to be focussed in front of the retina

Question 73

Describe how to correct short-sighted vision

Answer 73

Prescribe glasses with a concave lens (lens curves inwards)

Question 74

Explain how to correct short-sighted vision

Answer 74

Prescribe glasses with a concave lens

This lens refracts the light less strongly

So that the light rays focus on the retina

Question 75

State the medical term for short-sight

Answer 75

Myopia

Question 76

State 3 different new technologies that can be used to correct vision defects

Answer 76

1. Hard and soft contact lenses
2. Laser eye surgery
3. Replacement lenses (biological and artificial)

Question 77

State 2 new technologies that can be used to change the shape of the lens to correct vision defects

Answer 77

1. Hard and soft contact lenses
2. Lens replacement surgery

Question 78

Explain how contact lenses can be used to correct vision defects

Answer 78

• Contact lenses sit on the surface of the cornea
• They refract the light rays more or less (depending on the vision defect)

Question 79

State 3 advantages of using contact lenses to correct vision defects

Answer 79

1. They are lightweight
2. They are convenient e.g. sport
3. It is easier to change a prescription if a persons vision changes (unlike with glasses which is costly and time consuming)

Question 80

State 2 disadvantages of using contact lenses to correct vision defects

Answer 80

1. There is a risk of eye infections (more so with soft lenses than hard lenses)
2. They require a high level of hygiene when changing and cleaning them to prevent infection

Question 81

State 2 advantages of using laser eye surgery to correct vision defects

Answer 81

1. It can lead to a permanent resolution (‘fix’)
2. It is a quick procedure (only ~3 hours required at hospital with no overnight stay i.e. day operation)

Question 82

State 4 disadvantages of using laser eye surgery to correct vision defects

Answer 82

1. There is a risk of complications during surgery
2. The long-term effect is not fully understood
3. It may not be 100% effective and so the patient may still need to wear glasses
4. Vision may actually be made worse! The cost of the surgery

Question 83

Explain how laser eye-surgery can correct vision defects

Answer 83

• A laser is used to vaporise tissue
• This changes the shape of the lens
• Which changes how much the lens refracts the light
• Making the lens thinner will correct short-sightedness
• Making the lens thicker will correct long-sightedness

Question 84

Describe 3 risks associated with laser surgery

Answer 84

1. There are risks of complications as a result of the surgery e.g. reacting to the anaesthetic
2. There are risks of post-operative infection
3. There are risks of damaging other parts of the eye with the laser

Question 85

Explain how lens replacement surgery can correct vision defects

Answer 85

• The damaged lens is removed and replaced with an different lens
• The artificial lens can be from a dead donor (cadaver) or an artificial lens made from clear plastic

Question 86

Describe 3 risks associated with lens replacement surgery

Answer 86

1. There are risks of complications as a result of the surgery e.g. reacting to the anaesthetic
2. There are risks of post-operative infection
3. There are risks of damaging the retina during surgery (which could result in total loss of sight)

Question 87

State which part of the brain monitors and controls body temperature in humans

Answer 87

The thermoregulatory centre in the hypothalamus

Question 88

State what type of receptors are found in the thermoregulatory centre of the brain

Answer 88

Thermoreceptors

Question 89

Describe the stimulus that is detected by the thermoreceptors in the thermoregulatory centre of the brain

Answer 89

The temperature of the blood flowing through the brain

Question 90

Other than the thermoregulatory centre of the brain which other part of the body contains thermoreceptors?

Answer 90

The skin

Question 91

Describe the stimulus that is detected by the thermoreceptors in the skin

Answer 91

The temperature of the skin

Question 92

Define the term ‘core body temperature’

Answer 92

The temperature of the body’s internal organs (usually approximately 37 degrees C)

Question 93

Describe the role/function of the thermoreceptors in the skin

Answer 93

To detect the change in temperature (stimulus) and send nerve impulses to the thermoregulatory centre

Question 94

Describe how the body responds if the core body temperature is too high

Answer 94

Arterioles supplying the skin WIDEN (vasodilation)

More blood flows through the capillaries close the the surface of the skin

More sweat is produced from the sweat glands

Sweat evaporates from the skin

These increase heat loss and so cools the body MORE and prevent overheating

Hairs also lie flat on the surface of the skin

Question 95

Explain the how vasodilation helps reduce the core body temperature

Answer 95

***** The diameter of the arteriole lumen INCREASES (vasodilation)
* This means MORE blood flows into capillaries to the surface of the skin
* This INCREASES the transfer of energy from the skin to the environment
* This then REDUCES the temperature of the blood returning to the core of the body
* Hence REDUCING the core body temperature

Question 96

Describe how the body responds if the core body temperature is too low

Answer 96

• Arterioles supplying the skin narrow (vasoconstriction)
• Reduces blood to the surface of the skin so LESS heat energy is lost
• No sweat is produced from the sweat glands
• Skeletal muscles contract at a high rate (shivering)
• Hairs on the surface of the skin are erect

Question 97

Explain the how vasoconstriction helps raise the core body temperature

Answer 97

• The diameter of the lumen of the arterioles decreases (vasoconstriction)
• This means less blood flows to the surface of the skin
• This decreases the transfer of energy from the skin to the environment
• This then ensures the temperature of the blood returning to the core of the body remains high
• Hence increasing the core body temperature

Question 98

Explain the how shivering helps increase the core body temperature

Answer 98

• As the skeletal muscles contract more the rate of respiration in the muscle cells increases
• This is necessary to produce more ATP
• To enable the skeletal muscles to contract more frequently
• Respiration is an exothermic reaction so transfers more energy to the environment
• Hence raising the temperature of the blood flowing though the skeletal muscles
• The heat is then transferred to the core organs as blood flows through the body

Question 99

Explain how the increased sweating helps reduce the core body temperature

Answer 99

• The sweat glands increase the quantity of sweat produced
• The sweat accumulates on the surface of the skin
• The sweat evaporates
• As the sweat evaporates it transfers the energy (heat) from the blood to the environment
• This means the blood returning to the core organs is at a lower temperature

Question 100

Explain why the hairs on the surface of the skin are erect when the core body temperature is too low

Answer 100

• The erect hairs trap a layer of air underneath them
• This generates an insulation layer
• Which helps reduce energy transfer from the blood to the environment
• This means the temperature of the blood returning to the core organs is maintained (i.e. heat loss is prevented)

Question 101

Explain why the hairs on the surface of the skin lie flat when the core body temperature is too high`

Answer 101

• The flattened hairs do not trap a layer of air underneath them
• This removes any insulation layer
• Which helps increase energy transfer from the blood to the environment
• This means the temperature of the blood returning to the core organs is lower

Question 102

Label the diagram of the reflex arc

Answer 102

Question 103

Label the diagram of a motor neurone

Answer 103

Question 104

State the 7 charactersitics of living organisms

Answer 104

1. Movement
2. Respiration
3. Sensitvity - the ability to detect and respond to the environment
4. Growth
5. Reproduction
6. Excretion
7. Nutrition

Question 105

Define the term ‘sensitivity’

Answer 105

The ability to detect and respond to the environment

Question 106

Explain what is meant by ‘an involuntary action’

Answer 106

A response by an organism that requires no conscious thought

In these cases the stimulus always results in the same response i.e. the response is fixed

Question 107

Define the term ‘involuntary action’ (2)

Answer 107

• It is an response that required no conscious thought i.e. it was automatic
• The stimulus will always produce the same response each time in an involuntary action

Question 108

Name the two types of photoreceptor cell found in the retina and explain thier function

Answer 108

Cone cells - these detect the colour of the light

Rod cells - these detect the intensity of the light