Blood Vessels (OCR GCSE Combined Science A (Gateway))
Revision Note
Arteries
There are three main types of blood vessel:
Arteries- carry blood away from the heart
Veins- carry blood towards the heart
Capillaries- involved in the exchange of gas of materials with tissues
Each vessel has a particular function and is specifically adapted to carry out that function efficiently
There are also smaller vessels, arterioles that branch off from arteries and venules that branch into veins
Arteries carry blood under pressure
Key features:
Carry blood at high pressure away from the heart
Carry oxygenated blood (except the pulmonary artery)
Have a narrow lumen
Have thick muscular walls compared to the size of the lumen
The strong muscular walls contain elastic fibres to allow them to stretch and spring back
Blood flows through at a fast speed
The structure of an artery is adapted to its function in the following ways
Thick muscular walls withstand the high pressure of blood and maintain the blood pressure as it recoils after the blood has passed through
A narrow lumen also helps to maintain high pressure
Veins
Veins take blood back to the heart
Key features:
Carry blood at low pressure towards the heart
Have thin walls as the blood is at a lower pressure
Have a larger lumen than arteries
Contain valves
Blood flows through at a slow speed
The structure of a vein is adapted to its function in the following ways:
A large lumen reduces resistance to blood flow under low pressure
Valves prevent the backflow of blood as it is under low pressure
Comparing the structure of arteries and veins
Capillaries
Capillaries are small
Key features:
Very small - too small to be seen with the naked eye
Carry blood at low pressure within tissues
Have permeable walls that are one cell thick
Supply oxygenated blood and nutrients to tissues
Take away waste and deoxygenated blood
Speed of blood flow is slow
The structure of a capillary is adapted to its function in the following ways:
Capillaries have walls that are one cell thick (short diffusion distance) so substances can easily diffuse in and out of them
The walls are ‘leaky’ allowing blood plasma to leak out and form tissue fluid surrounding cells
Structure of a capillary
A network of small capillaries allows for efficient exchange of materials in tissues
Examiner Tips and Tricks
The circulatory system can be viewed as a network of cylindrical tubes. The velocity of blood flow varies inversely with the total cross-sectional area of the blood vessels. As the total cross-sectional area of the vessels increases, the velocity of flow decreases. The slow flow in capillaries is because of the high total cross-sectional area of capillaries and not because capillaries are narrow. The collective cross-sectional area of all the capillaries in the human body is about a 1000 fold greater than the aorta. The slow flow in capillaries favours gas exchange and nutrient supply to cells.
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