Gaseous Exchange
Lungs:
During inhalation the external intercostal
muscles contracts and the internal relaxes which pushes the ribs up and out.
Apart from this, the diaphragm contracts, puling the diaphragm down and flat.
All this creates a high volume in the chest (thorax) and therefore low
pressure. This causes air to be pulled into the lungs as there is higher
pressure outside. During exhalation, the opposite happens meaning the ribs are
pulled down and in and the diaphragm goes back to a dome shape. This creates
high pressure which pulls the air out of the lungs.
Adaptations of alveoli
|
Advantages
|
Large surface area
|
This allows for faster diffusion as
more particles can diffuse across the membrane at one time.
|
Good blood supply
|
Maintains a steep concentration
gradient between alveoli and the blood capillaries.
|
Walls one cell thick
|
Creates a short diffusion pathway.
|
Moist
|
Increases the rate of oxygen
diffusion as it dissolves.
|
Diseases from
smoking:
1. Emphysema - chemicals from cigarettes damage the elastic tissue in
the lungs, reducing the surface area of the alveoli and therefore the speed and
mount of oxygen it absorbs.
2. Lung cancer - carcinogenic chemicals in cigarette tar causes cancer.
3. Bronchitis - cigarette smoke paralyses cilia in the trachea meaning
phlegm and microbes enter the lungs, this can cause infections.
4. Heart disease - nicotine in the cigarettes leads to the hardening
and narrowing of blood vessels. This can lead to heart attacks.
5. Lethargy - cigarette smoke contains carbon monoxide which means less
oxygen are carried around the body.
6. Nervousness - cigarettes contain nicotine which is addictive so
withdrawal symptoms occur when one is not smoking.
Investigating the
effects of exercise on breathing:
1. Breath into a double bubbler with limewater or bicarbonate indicator
for twenty seconds.
2. Do vigorous exercise for three minutes.
3. Repeat step one with new double bubbler.
After exercise the limewater is usually cloudier
and the indicator should be more yellow. This is because your breathing is more
concentrated in carbon dioxide and also because the breathing rate is high
after exercise.
Effects of
exercise:
1. Muscles need more energy so breathing rate increases to supply more
oxygen for respiration and to oxidise carbon dioxide.
2. Heart rate increases to pump more oxygen around the body and faster.
3. Arterioles widen to stop blood pressure from increasing.
4. Blood diverted from inactive organs (e.g. stomach/liver) towards
muscles through vasodilation and constriction
No comments:
Post a Comment