Respiratory System*

Question 1

Draw a diagram of the human respiratory (lung) system

Answer 1

complete with labels from edmodo

Question 2

What are the parts of the respiratory system?

Answer 2

Epiglottis, oesophagus, larynx (voicebox), rings or cartilage, intercostal muscles, trachea (windpipe), rib, heart, diaphragm, bronchus, bronchiole, alveolus/i, pleura (pleural membranes)

Question 3

What is another name for the trachea?

Answer 3

windpipe

Question 4

What is another name for the larynx?

Answer 4

voicebox

Question 5

How do we get our energy for metabolism?

Answer 5

By burning food in our cells (respiration)

Question 6

How do we get fresh supplies of oxygen?

Answer 6

By breathing it in through our lungs

Question 7

What is respiration?

Answer 7

the exchange of gases which takes place in the lungs and the enzyme controlled release of energy from food

Question 8

How many bones are in the ribs

Answer 8

12 pairs

Question 9

What are your lungs (along with the heart) enclosed between?

Answer 9

The ribs and the diaphragm (the thorax)

Question 10

What is another name for the diaphragm?

Answer 10

the thorax

Question 11

What else other than the lungs is between the ribs and the diaphragm?

Answer 11

the heart

Question 12

What do the pleural membranes do?

Answer 12

Fluid here (the pleural membrane) reduces the friction between lungs and ribs.

Question 13

What do the intercostal muscles do?

Answer 13

Move the rib cage up or down

Question 14

Where are the intercostal muscles?

Answer 14

attached between the ribs

Question 15

What is the diaphragm?

Answer 15

a sheet of muscle at the base of the rib cage

Question 16

Where is the diaphragm?

Answer 16

at the base of the rib cage

Question 17

Recite the passage of air in the lungs

Answer 17

Air enters the nose, travels down the windpipe, the bronchus and the bronchioles, to the alveoli. Each alveolus is covered in a net of thin-walled blood capillaries. The lining of an alveolus is only one cell thick.

Question 18

What is each alveolus covered in?

Answer 18

each alveolus is covered in a net of thin-walled blood capillaries

Question 19

How thick is the lining of the alveolus?

Answer 19

one cell thick

Question 20

What in order are the parts of the respiratory system that air enters?

Answer 20

Nose, windpipe, bronchus, bronchioles, alveoli, capillaries

Question 21

How does oxygen and carbon dioxide transfer from the alveolus to the bloodstream and vica versa?

Answer 21

Oxygen diffuses through the alveolus and capillary linings, and attaches to red blood cells. At the same time, carbon dioxide diffuses from the plasma into the alveolus.

Question 22

What is diffusion?

Answer 22

Diffusion is the movement of molecules from a region of high concentration to a region of low concentration

Question 23

What is diffusion?

Answer 23

Diffusion is the movement of molecules from a region of high concentration to a region of lower concentration

Question 24

.

Answer 24

White blood cells in the alveoli can engulf bacteria and foreign matter.

Question 25

What do white blood cells in the alveoli do?

Answer 25

White blood cells in the alveoli can engulf bacteria and foreign matter.

Question 26

Where is mucus produced?

Answer 26

The lining cells of the nose, trachea and bronchi produce a sticky mucus that traps dust and germs.

Question 27

What in the alveoli can engulf bacteria and foreign matter?

Answer 27

White blood cells

Question 28

How have alveoli adapted for gas exchange?

Answer 28

They have a large surface area (90m squared) and their walls are elastic

Question 29

Do alveoli have a large surface area?

Answer 29

yes (90m squared)

Question 30

Is there a large distance between the air and the blood?

Answer 30

no

Question 31

Is there a complete involvement of air and blood?

Answer 31

yes

Question 32

Are the walls of alveoli elastic?

Answer 32

yes

Question 33

What does inhaled air contain?

Answer 33

Oxygen 21%, Carbon dioxide 0.04%, Nitrogen 79% and some water vapour.

Question 34

What does exhaled air contain?

Answer 34

Oxygen 16%, Carbon dioxide 4%, Nitrogen 79%, and extra water vapour.

Question 35

How do the rib muscles and diaphragm know when to contract?

Answer 35

The brain sends them signals

Question 36

What does the brain tell to breath?

Answer 36

the rib muscles and the diaphragm

Question 37

What happens to the ribs and diaphragm when you inhale?

Answer 37

The ribs are pulled up and out and the diaphragm flattens downwards

Question 38

What happens to the volume of the chest when you inhale?

Answer 38

The volume of the chest increases, so air pressure drops and more air is drawn into the lungs and alveoli

Question 39

How is air drawn into the lungs when you inhale?

Answer 39

The volume of the chest increases, so air pressure drops and more air is drawn into the lungs and alveoli

Question 40

Draw a diagram of inhalation including steps

Answer 40

now

Question 41

What are the steps of inhalation?

Answer 41

The brain sends signals to the rib muscles and diaphragm to contract. The ribs are pulled up and out, and the diaphragm flattens downwards. The volume of the chest increases, so air pressure drops and more air is drawn into the lungs and alveoli.

Question 42

What do red blood cells have in them?

Answer 42

haemoglobin

Question 43

How much of the oxygen do red blood cells carry?

Answer 43

97%

Question 44

Where is the oxygen carried in that is not being carried by the red blood cells?

Answer 44

The plasma

Question 45

How much oxygen is carried in the plasma?

Answer 45

3%

Question 46

How is oxygen transported in the blood?

Answer 46

Red blood cells carry 97% of the oxygen and the other 3% is carried in the plasma

Question 47

What is carbon dioxide carried as in the plasma?

Answer 47

bicarbonate ions or as dissolved carbon dioxide

Question 48

What is the majority of carbon dioxide carried by?

Answer 48

plasma

Question 49

What is a small % of carbon dioxide carried by?

Answer 49

red blood cells

Question 50

What does exhaling mean?

Answer 50

breathing out

Question 51

What happens when you exhale?

Answer 51

The rib muscles and diaphragm relax, springing back to their original positions, so air pressure in the lungs increases, and air is pushed out from the alveoli

Question 52

Draw an exhalation diagram with labeled steps

Answer 52

now

Question 53

How is air pushed out from the alveoli?

Answer 53

air pressure in the lungs increases and the air is pushed out

Question 54

where is carbon dioxide carried in?

Answer 54

most in the plasma as bicarbonate ions or as dissolved carbon dioxide and a small percentage by the red blood cells

Question 55

what is another name for inhaling?

Answer 55

inspiration

Question 56

what is another name for exhaling?

Answer 56

expiration

Question 57

draw a diagram of gas exchange in the lungs and tissues.

Answer 57

now

Question 58

Draw a table of the composition of air in the lungs

Answer 58

by % volume of inhaled and exhaled air

Question 59

Is excess air saturated with water?

Answer 59

.

Question 60

What is the voice box otherwise known as?

Answer 60

the larynx

Question 61

What is the larynx made of?

Answer 61

Two sheets of muscle that vibrate as the air passes between them and so we can produce sounds and speech, in co-operation with our tongue, mouth and teeth.

Question 62

How does the larynx work?

Answer 62

Two sheets of muscle vibrate as the air passes between them and so we can produce sounds and speech, in co-operation with our tongue, mouth and teeth.

Question 63

What way do we breathe?

Answer 63

Automatically by involuntary reflex action. It is controlled by medulla oblongata of the brain.

Question 64

How is the rate of breathing decide? What is this an example of?

Answer 64

The rate of breathing is continually adjusted to meet the body’s needs (an example of homeostasis)

Question 65

What is our breathing controlled by?

Answer 65

medulla oblongata of the the brain

Question 66

How do we speak?

Answer 66

Two sheets of muscle that vibrate as the air passes between them and so we can produce sounds and speech, in co-operation with our tongue, mouth and teeth.

Question 67

What is the role of the brain in breathing?

Answer 67

Mostly breathing rhythm is unconsciously set by the brain. We can voluntarily change the rate at which we breath. You can’t hold your breath forever. Your brain won’t let you.

Question 68

How is breathing rhythm set?

Answer 68

Breathing rhythm is unconsciously set by the brain

Question 69

Can we voluntarily change the rate at which we breath?

Answer 69

yes

Question 70

Can you hold your breath forever? why?

Answer 70

no. your brain won’t let you

Question 71

Name some breathing disorders and describe them

Answer 71

Asthma - inflammation and constriction of bronchi
Bronchitis - bacterial infection of the bronchi
Emphysema - destruction of alveoli
TB - elasticity reduced (bacteria)
Pneumonia - fills with fluid

Question 72

What is asthma?

Answer 72

Asthma is a narrowing of the bronchioles due to some irritant (dust mite, pollen, cold virus) and so the sufferer finds it difficult to inhale enough oxygen.

Question 73

What is emphysema ?

Answer 73

destruction of alveoli

Question 74

What is TB?

Answer 74

Elasticity reduced (bacteria)

Question 75

What is Pneumonia?

Answer 75

fills with fluid

Question 76

what is bronchitis?

Answer 76

bacterial infection of the bronchi

Question 77

how do you treat asthma?

Answer 77

Removing the offending agent can prevent it and treatment is by use of inhalers that dilate the tubes again.

Question 78

How do you prevent asthma?

Answer 78

by removing the offending agent

Question 79

What irritants can cause asthma?

Answer 79

dust mites, pollen, cold virus etc.

Question 80

Why can’t people with asthma breathe?

Answer 80

The bronchioles are narrowed due to some irritant (dust mite, pollen, cold virus) and so the sufferer finds it difficult to inhale enough oxygen.

Question 81

What are the symptoms of asthma?

Answer 81

Coughing, wheezing, breathlessness, chest tightness

Question 82

What are the causes of asthma?

Answer 82

Pollen, animals, smoke, dust mites, chemicals, exercise

Question 83

How do you prevent and treat asthma?

Answer 83

Identify triggers - avoid and remove

Use specific drug treatments - Bronchodilators, steroids

Question 84

What are receptors?

Answer 84

Receptors (nerves) in the medulla are sensitive to changes in the CO2 concentration of the blood.

Question 85

What is the function of receptors?

Answer 85

Receptors (nerves) in the medulla are sensitive to changes in the CO2 concentration of the blood.

Question 86

What happens in the respiratory system if we are exercising?

Answer 86

A rise in the CO2 levels in the blood results in the medulla sending impulses to the diaphragm and intercostal muscles, causing an increased rate of contraction and deeper inspiration

Question 87

What does a rise in the CO2 levels in blood result in?

Answer 87

The medulla sending impulses to the diaphragm and intercostal muscles, causing an increased rate of contraction and deeper inspiration

Question 88

What is homeostasis?

Answer 88

Homeostasis is the maintenance of a constant internal environment within the body.

Question 89

What does the medulla sending impulses to the diaphragm and intercostal muscles cause?

Answer 89

an increased rate of contraction and deeper inspiration

Question 90

Why is homeostasis necessary?

Answer 90

Homeostasis is necessary if an organism is to be independent of its surroundings, and if its metabolism is to function efficiently.

Question 91

Why does your body and its individual cells need to be at just the right conditions?

Answer 91

To perform at their best

Question 92

Where do a cell’s delicately balanced chemical reactions work best?

Answer 92

Within the narrow limits of temperature, pH, solute concentration etc.

Question 93

What does your body and its individual cells need to perform at their best?

Answer 93

To be at just the right conditions

Question 94

How do simple aquatic organisms obtain their food, water and oxygen?

Answer 94

Directly from the water that surrounds them

Question 95

Give examples of simple aquatic organisms

Answer 95

Amoeba and seaweeds

Question 96

What to more complex organisms carry?

Answer 96

their own internal sea inside them (tissue fluid) which is in contact with all the living cells in the body

Question 97

What is the “internal sea” in complex organisms called?

Answer 97

tissue fluid

Question 98

How do complex organisms compare to simple aquatic organisms which obtain their food, water and oxygen directly from the water that surrounds them?

Answer 98

their own internal sea inside them (tissue fluid) which is in contact with all the living cells in the body

Question 99

What is tissue fluid in contact with?

Answer 99

all the living cells in the body

Question 100

What can many organisms do, even when conditions in their external environment are changing?

Answer 100

control conditions of temperature, fluid balance and chemistry within themselves (their “internal environment”) even when conditions in their external environment are changing

Question 101

What waste products need to be removed by homeostasis, how are they produced and how are they removed?

Answer 101

CO2 produced by respiration, removed via lungs

Urea produced by liver breaking down amino acids, removed by kidneys and transferred to bladder

Question 102

Draw a diagram of body systems interacting in homeostasis.

Answer 102

with labels and arrows for intake and removal

Question 103

What internal conditions need controlling by homeostasis and how?

Answer 103

Temperature - Increased by shivering, lost by sweating
Ion content - Increased by eating, lost by sweating and urine.
Water content - Increased by drinking, lost by sweating and urine
Blood glucose - Increased and decreased by hormones.

Question 104

Why is homeostasis necessary?

Answer 104

Homeostasis is necessary if an organism is to be independent of its surroundings, and if its metabolism is to function efficiently

Question 105

How do most homeostatic mechanisms work?

Answer 105

Most homeostatic mechanisms work by negative feedback, i.e. if there is a change away from the normal optimum value, action is automatically taken to reverse this change.

Question 106

What is negative feedback?

Answer 106

if there is a change away from the normal optimum value, action is automatically taken to reverse this change.

Question 107

What does temperature influence with regard to homeostasis?

Answer 107

Temperature influences the rate of enzyme-controlled reactions that sustain life.

Question 108

What are endotherms? what is another name for them? give examples

Answer 108

Mammals and birds are endotherms (warm blooded): they have a fairly constant body temperature.

Question 109

What special thing can warm blooded creatures do?

Answer 109

Operate in low temperature environments, as they can keep the rate of enzyme activity high.

Question 110

What type of creature are most animals?

Answer 110

ectotherms (cold blooded)

Question 111

what are ectotherms? what is another name for them? give examples

Answer 111

Most animals are ectotherms (cold blooded) - their body temperature varies with the external temperature, e.g. fish, amphibians, reptiles

Question 112

What is an example of how homeostasis works in humans?

Answer 112

Control of body temperature is an example of how homeostasis works in humans

Question 113

What is our normal core body temperature and how is our heat produced?

Answer 113

Our normal core body temperature is maintained at 37 degrees celsius, the heat being mainly produced from the liver during its metabolism.

Question 114

.

Answer 114

Muscles, skin and blood all play a role in controlling body temperature

Question 115

Draw a diagram of the skin and how it controls temperature

Answer 115

.

Question 116

Name the parts of the skin

Answer 116

Sweat pore, sebaceous gland, hair, hair erector muscles, sense receptors, epidermis, dermis, arteriole, capillary network, venule, adipose (fat) tissue, sweat gland, sweat duct.

Question 117

What happens if our temperature rises?

Answer 117

If our temperature rises, more blood flows close to surface of the skin and glands release sweat

Question 118

What happens if our temperature drops what happens?

Answer 118

Blood flows beneath the adipose tissue, we stop sweating, our hairs stand up and we shiver

Question 119

What is an example of how homeostasis works in humans? (water)

Answer 119

Control of body water levels is an example of how homeostasis works in humans.

Question 120

Why is water important to living organisms?

Answer 120

Metabolism - it is a substrate (ingredient) in many reactions.
Medium for chemical reactions
Movement of materials in and out of cells
Transport system
Lubricant
Support
Temperature control
Dispersal of reproductive cells and seeds

Question 121

How does being a land animal affect our water?

Answer 121

Being a land animal, we have a continuous need to conserve water.

Question 122

How often must water be taken in and what must be done regarding its loss

Answer 122

Water must be taken in daily and its loss must be carefully regulated

Question 123

How is water taken in?

Answer 123

Water is taken in as food and drink, and is also formed inside the cells during some reactions, especially respiration.

Question 124

When is water formed in the body?

Answer 124

Inside the cells during some reactions, especially respiration.

Question 125

How is water lost from the body?

Answer 125

Lungs - some water gets evaporated as we exhale from our warm, damp lungs
Skin - by evaporation from cells and through sweat
Intestines - in the faeces (undigested food)
Kidneys - in dissolving the poisons and wastes we wish to excrete from the body.

Question 126

How is water lost from the lungs?

Answer 126

some water gets evaporated as we exhale from our warm, damp lungs

Question 127

How is water lost form our skin?

Answer 127

by evaporation from cells and through sweat

Question 128

What is the basic definition for faeces?

Answer 128

undigested food

Question 129

How is water lost from our intestines?

Answer 129

in the faeces (undigested food)

Question 130

How is water loss reliant on our kidneys?

Answer 130

the kidneys dissolve the poisons and wastes we wish to excrete from the body.

Question 131

Do we have control over the amount of water lost each day from the lungs, skin or intestines?

Answer 131

no

Question 132

What does osmoregulatory mean?

Answer 132

water control

Question 133

continue

Answer 133

.