respiratory system

Question 1

why does the body need oxygen?

Answer 1

oxygen allows cells to break down glucose into energy molecules called ATP to produce energy

Question 2

muscles involved with inspiration at rest

Answer 2

• diaphragm
• external intercostal muscles

Question 3

muscles involved with inspiration during exercise

Answer 3

• diaphragm
• external intercostal muscles
• scalenes
• pectoralis major
• sternocleidomastoid

Question 4

respiration

Answer 4

the process of transferring energy from glucose which goes on in every cell by taking in oxygen and removing carbon dioxide

Question 5

function of alveoli

Answer 5

tiny air sacs across which gases are exchanged between the blood and the air in the lungs

Question 6

structures of alveoli that help gas exchange

Answer 6

thin walls (1 cell thick) - short diffusion pathway
extensive capillary network - excellent blood supply
large surface area - millions of alveoli in each lung, greater oxygen uptake

Question 7

pathway of oxygen

Answer 7

nose/mouth
larynx
trachea
bronchi
bronchioles
alveoli

Question 8

ventilation

Answer 8

movement of air in and out of the lungs

Question 9

internal respiration

Answer 9

exchange of gases between blood and cells

Question 10

external respiration

Answer 10

exchnage of gases between lung and blood - removing co2

Question 11

process of inspiration

Answer 11

1. External intercostal muscles contract
2. Ribs lift up and out sternum forward
3. Diaphragm forced down and contracts with EIC, pectoral and sternocloidmastoid
4. Chest expansion in all directions
5. Overall increase in size of thoarcic cavity an decrease in pressure in the lungs
6. Pressure in lungs lower then the atmosphere
7. Air is drawn into lungs - O2 and CO2 exchange through capillaries

Question 12

process of expiration

Answer 12

1. Internal intercostal muscles relax
2. Diaphragm extends upwards
3. Ribs and sternum moves down and in
4. Decreased size of thoarcic cavity
5. Pressure in lungs is increased
6. Pressure in lungs greater then the atmosphere
7. Air is forced out of lungs - CO2 is removed

Question 13

where does air move in the lungs?

Answer 13

• moves from high partial pressure to low partial pressure through the process of diffusion
• oxygen from alveoli to capillary
• carbon dioxide from capillary to alveoli

Question 14

tidal volume

Answer 14

volume of air breathed in and our per breath

Question 15

inspiratory reserve volume

Answer 15

amount of air that can be forcefully inhaled after a normal inhalation

Question 16

expiratory reserve volume

Answer 16

amunt of air that can be forcefully exhaled fter a normal exhalation

Question 17

residual volume

Answer 17

amount of air remaining in the lungs after a forced expiration

Question 18

minute ventilation

Answer 18

volume of air breathed in and our per minute

Question 19

spirometer

Answer 19

device used to measure the volume of air inspired and expired by lungs

Question 20

gaseous exchange

Answer 20

the delivery of oxygen from the lungs to the bloodstream, and the elimination of carbon dioxide from the bloodstream to the lungs

Question 21

describe gaseous exchange in terms of partial pressure in the lungs with movement of oxygen

Answer 21

• oxygen is in high partial pressure in the lungs (100mmHg)
• lower partial pressure in the capillaries (40mmHg)
• oxygen diffuses from the high partial pressure in the lungs to a low partial pressure in the capillaries

Question 22

describe gaseous exchange in terms of partial pressure in the lungs with movement of carbon dioxide

Answer 22

• carbon dioxide is in high partial pressure in the capillaries (46mmHg)
• low partial pressure in the alveoli (40mmHg)

Question 23

describe gaseous exchange at the muscles for both oxygen and carbon dioxide

Answer 23

• oxygen moves from a high partial pressure in the blood vessels (104mmHg), to a low partial pressure in the muscle tissue (40mmHg)
• carbon dioxide moves from a high partial pressure in the muscle tissue (46mmHg) to a low partial pressure (40mmHg)
• both through the process of diffusion

Question 24

pulmonary ventilation

Answer 24

movement of air into and out of the lungs

Question 25

how is pulmonary ventilation regulated

Answer 25

• neural control
• chemical control
• hormonal control

Question 26

what 2 factors are involved with the regulation of pulmonary ventilation

Answer 26

• neural control with nervous system
• chemical control with blood acidity

Question 27

how do neural + chemical control work together

Answer 27

• neural involves the brain and nervous system
• chemical involves blood acidity
• acidity increases, brain informed send impulses to increase breathing

Question 28

name the 2 nervous systems

Answer 28

sympathetic
parasympathetic

Question 29

respiratory centre location/purpose

Answer 29

located in the medulla oblongata
controls the rate + depth of breathing

Question 30

what causes an increased inspiratory rate

Answer 30

increase conc of carbon dioxide in the blood

Question 31

what are the 2 parts of the respiratory

Answer 31

inspiratory reserve
expiratory reserve

Question 32

function of inspiratory reserve

Answer 32

• sends out nerve impulses via the phrenic nerve to the inspiratory muscles (external intercostal and diaphragm)
• causes them to contract, stimulation for 2 seconds, then the impulse will stop
• expiration will occur due to elastic recoil

Question 33

what products increase chemical chnage in the blood

Answer 33

carbon dioxie
lactic acid

Question 34

factors that effect neural control of breathing (3)

Answer 34

mechanical factors - proprioceptors
baroreceptors - decrease blood pressure
stretch receptors

Question 35

what detects chemical changes in the blood

Answer 35

chemoreceptors

Question 36

chemoreceptors location

Answer 36

found in carotid artery and aortic arch

Question 37

purpose of chemoreceptors

Answer 37

to send impulses to the inspiratory centre to increase ventilation until the blood acidity has returned back to normal (respond to increased lactic acid

Question 38

how do chemoreceptors complete their function

Answer 38

they do this by sending impulses down the phrenic nerve to stimulate inspiratory muscles such as sternocloidmastoid or pectorals major, causing breathing to increase

Question 39

what mechanical factors help the control of breathing

Answer 39

proprioreceptors increase breathing rate during exercise as they are found in muscle and body tissue and can detect increase in the amount of muscular movement

Question 40

baroreceptors function

Answer 40

• detect a decrease in the blood pressure in the aorta
• caratoid arteries which will cause and increase in breathing rate

Question 41

stretch receptors function

Answer 41

when the lungs become more stretched they prevent the over inflation of the lungs by sending impulses to the expiratory centre and down the intercostal nerve to expiratory muscles so that expiration can occur

Question 42

order of neural and chemical control of inspiration

Answer 42

1. receptors
2. medulla oblongata
3. phrenic nerve
4. diaphragm and external intercostals contract
5. increase rate and depth of breathing

Question 43

order of neural and chemical control of expiration

Answer 43

1. stretch receptors
2. medulla oblongata
3. intercostal nerve
4. abdominals and intercostals
5. increase expiration

Question 44

partial pressure

Answer 44

the pressure exerted by and individual gas when it is in a mixture of gasses

Question 45

how gas exchange operates at the muscle

Answer 45

• oxygen diffuses into the capillaries from the alveoli
• is taken to the muscle tissue where oxygen is in high partial pressure (100mmHg)
• moves from this high concentration to a low partial pressure (40mmHg) through the process of diffusion
• carbon dioxide moves out through diffusion (46mmHg) to (40mmHg) in the blood vessels through diffusion
• oxygen will get turned into myoglobin and co2 will be dissolved in the blood plasma

Question 46

how does exercise effect minute ventilation

Answer 46

increased breathing rate as high intensity exercise requires more oxygen

Question 47

how are bronchi/bronchioles held open

Answer 47

rings of cartilage

Question 48

how does TV, IRV, ERV, MV, and RV change during exercise

Answer 48

• TV increases
• IRV decreases
• ERV slightly decreases
• MV big increase
• RV remains the same

Question 49

how much air do we inspire and expire at rest?

Answer 49

0.5l

Question 50

how much air do we breathe in and out in one minute?

Answer 50

12 x 0.5 = 6l

Question 51

purpose of adrenaline

Answer 51

made in the adrenal gland and responds to exercise by increasing heart rate and breathing rate

Question 52

how is adrenaline released

Answer 52

brain sends an impulse to renal glands which pump adrenaline into the blood in anticipation of exercise

Question 53

how does smoking effect respiratory system

Answer 53

• irritation of the trachea and bronchi
• reduces lung function
• damages cilia
• excess mucus build up due to cilia loss
• damaged alveoli as they break down and clump together forming larger air sacs
• reduces oxygen carrying capacity of the alveoli

Question 54

during exercise the demand for oxygen by the muscles increases, how does an increase in blood carbon dioxide change breathing rate?

Answer 54

• increase in co2 detected by the chemoreceptors
• sends nerve impulses to the respiratory centre in the medulla
• medulla sends impulses along the phrenic nerve
• which increases contraction of the diaphragm and external intercostals, increasing breathing

Question 55

explain how oxygen diffuses from the lungs into the blood and how it is transported into tissues?

Answer 55

• diffusion is the movement of molecules from high partial pressure to low partial pressure
• alveoli have a short diffusion pathway
• high o2 conc in the alveoli and low in the capillaries to it moves from alveoli to the blood
• oxygen combines the haemoglobin and is transported
• some oxygen dissolves with blood plasma

Question 56

how is breathing rate regulated by the body to meet the increasing demands of exercise?

Answer 56

• increased co2 in the blood
• detected by the chemoreceptors found in the aortic arch or caratoid arteries
• impulse is sent to the medulla oblongata
• sends impulse down phrenic nerve
  -to cause deeper and faster breathing

Question 57

a-vO2 difference

Answer 57

• difference in oxygen content of aterial and venous blood
• so more oxygen is extracted by the muscles

Question 58

explain the causes of Bohr shift and how it increases oxygen delivery to the working muscles?

Answer 58

• caused by an increase in co2 in the blood or increased temperature
• this means that the curve shifts to the right
• therefore more oxygen is dissociated from the haemoglobin

Question 59

identify one physiological effect of smoking on the respiratory system and explain its impact on performance?

Answer 59

• carbon monoxide binds to haemoglobin rather than oxygen
• nicotine restricts the bronchioles
• damages the cilia
• reduction is functioning cilia
• therefore reduced gaseous exchange in the lungs
• this decreases there ability of the athlete to use oxygen and thus have less energy available for their activity

Question 60

describe how breathing rate is controlled to meet the demands of changing levels of exercise?

Answer 60

A. anticipation of exercise - adrenaline released
B. increased depth and rate of breathing
C. exercise - Increased levels of carbon dioxide / acidity (in blood) detected by chemoreceptors
D. movements detected by proprioceptors / mechanoreceptors
E. decrease in blood pressure detected by baroreceptors
F. nerve impulses to (respiratory centre) in medulla
G. increased sympathetic / phrenic nerve impulses

Question 61

describe how poor lifestyle choices may affect the respiratory system.

Answer 61

A. lack of exercise / poor diet - reduced cardio-vascular endurance - inefficient gas exchange
B. smoking - increased breathlessness / damages cells lining trachea, bronchi and bronchioles
C. excess mucus - smoker’s cough
D. breaks down alveolar walls - reduces efficiency of gaseous exchange
E. oxygen transport affected - carbon monoxide from cigarettes combines with haemoglobin in red blood cells more readily than oxygen - reduces oxygen-carrying capacity of blood
F. Rreduced stamina / cardio-respiratory endurance