F211 Exchange Surfaces And Breathing Flashcards Preview

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Flashcards in F211 Exchange Surfaces And Breathing Deck (36)
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0
Q

Exchange Surfaces

Multicellular Organisms

A

Small surface area to volume ratio
Cannot obtain substances fast enough by diffusion
Cells in the centre of the organism would not receive any nutrients without specialised exchange surfaces

1
Q

Exchange Surfaces

Single-Celled Organisms

A

Large surface area to volume ratio

Able to exchange enough gases nutrients and waste across their outer surface to function

2
Q

Ficks Law

A

Rate of Diffusion =

SurfaceArea x ConcentrationDifference/DistanceForDiffusion

3
Q

Lung Adaptations - Surface Area

A

Large numbers of alveoli

Alveoli have large surface area and a folded outer surface

4
Q

Lung Adaptations - Concentration Difference

A

Inhaling and exhaling regularly keeps oxygen concentration in the lungs as high as possible and removes as much CO2 as possible to keep the concentration low
Moving the blood around the body moves blood with high oxygen concentration away from the lungs and brings deoxygenated blood towards the lungs

5
Q

Lung Adaptations - Distance for Diffusion

A

Alveoli and capillary walls are only one cell thick
Capillaries are positioned as close to the lungs as possible
Alveoli and capillary wall cells are made of squamous cells

6
Q

Lung Adaptations - Moisture

A

The lungs are lined with a thin layer of moisture which increases the rate of diffusion because the molecules are dissolved

7
Q

Inhaled Air

A

20% oxygen

0.04% carbon dioxide

8
Q

Exhaled Air

A

16% oxygen

4% carbon dioxide

9
Q

Larynx

A

Voice box
If you have a bigger voice box you will have a deeper voice
Vocal chords vibrate as air exits

10
Q

Trachea

A

Surrounded by horse shoe shaped cartilage
-can move neck without constricting airways
-allows oesophagus to expand during swallowing
Smooth muscle and elastic fibres
Epithelium layer

11
Q

Bronchi

A

Reinforced with cartilage
One for each lung
Smooth muscle and elastic fibres
Epithelium layer

12
Q

Internal Intercostal Muscles

A

For exhalation during high intensity exercises

13
Q

External Intercostal Muscles

A

Contract and lift ribs up and out for inhalation

Relax and ribs fall for exhalation

14
Q

Cartilage

A

For structure and support
Prevents airways from collapsing when air pressure is low during inhalation
Trachea and bronchi

15
Q

Smooth Muscles

A

When they contract the airway constricts
Contraction isn’t voluntary
Trachea bronchi bronchioles

16
Q

Bronchioles

A

Smooth muscles contracts to constrict airway if air contains harmful substances
Involuntary

17
Q

Elastic Fibres

A

They recoil to return the airway to original diameter after smooth muscles contract and constrict the airway
Trachea, bronchi, bronchioles, alveoli

18
Q

Goblet Cells

A

Part of the epithelium layer
Secrete mucus to trap bacteria in the lungs
Trachea and bronchi

19
Q

Ciliates Epithelium

A

Part of the epithelium layer
Cells have numerous tiny hair like structures projecting from membrane called cilia
Cilia move in synchronised pattern to move mucus to the back of the throat
Mucus is swallowed and stomach acidity kills bacteria

20
Q

Surfactant

A

Breaks down cohesive forces between water molecules lining the alveoli to prevent the alveoli from collapsing

21
Q

Inhalation

A

Diaphragm contracts and flattens
Intercostal muscles contract so ribs move up and out
Volume of thorax increases, increases volume of lungs and alveoli
Pressure decreases (same amount of air in a larger space) below pressure of air in the atmosphere
SO air flows in to equalise this

22
Q

Exhalation

A

Diaphragm relaxes and curves upwards
Intercostal muscles relax and ribs fall
Decreases volume of thorax, decreases lung and alveoli volume
Pressure in lungs increases (same amount of air in a smaller space) above pressure of air in the atmosphere
SO air flows out to equalise this

23
Q

Resting Tidal Volume

A

Volume of air taken in one breath at rest

24
Q

Vital Capacity

A

Maximum volume of air taken in or out during high intensity exercise

25
Q

Bell Jar - Resting Tidal Volume

A

Slow regular movements of the membrane in time with your own breathing

26
Q

Bell Jar - Vital Capacity

A

Quickly pull membrane in and out as far as possible

27
Q

Pulmonary Ventilation

A

Pulmonary Ventilation = Tidal Volume x Ventilation Rate

28
Q

Residual Volume

A

The volume of air that always remains in the lungs

29
Q

Dead Space

A

The air in the bronchioles, bronchi and trachea. There is no gas exchange between this air and the blood

30
Q

Expiratory Reserve Volume

A

How much more air can be breathed out over and above the amount that is breathed in a tidal volume breath

31
Q

Spirometer

Consists of…

A

A chamber filled with oxygen that floats on a tank of water
A person breathes in and out of a disposable mouth piece attached to a tube connected to the chamber of medical grade oxygen

32
Q

Spirometer

Breathing In

A

Takes oxygen out of the chamber causing the lid to fall

33
Q

Spirometer

Breathing Out

A

Pushes air into the chamber pushing the lid up

34
Q

Spirometer

Recording Data

A

The movements of the lid are recorded using a data logger to produce a spirometer trace

35
Q

Spirometer

Carbon Dioxide Absorber

A

If someone breathes out into the spirometer for a long period of time carbon dioxide levels will build up to dangerously high levels

Soda Lime