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Question 1

Inspiration

Answer 1

• the external intercostal muscles contract, raising the rib cage
• the muscles of the diaphragm contract and the diaphragm flattens
• the volume of the thoracic cavity increases
  The air pressure inside the lungs decreases below the the atmospheric pressure
• the difference in air pressure allows air outside the body to flow into the lungs and equalise the pressure.
• the lungs inflate with air

Question 2

Expiration

Answer 2

-the external intercostal muscles relax and rib cage moves inwcavityards and downwards due to gravity
- the diaphragm relaxes and returns to its dome shape
- the volume of the thoracic decreases
- the air pressure inside the lungs increase above atmospheric pressure
- this difference in pressure allows air to be forced out of the lungs into the atmosphere

Question 3

ADH in osmoregulation on a hot day/ sweating/ loss of blood/ dehydration/ exercising

Answer 3

• The stimulus: Change in the amount of solutes in the blood increases osmolarity
• That information is sent to the and the hypothalamus registers that there is excessive salt in the blood and starts the process
• the pituitary gland/ hypophysis secretes more anti diuretic hormone (ADH)
• this hormone is sent to the distal convoluted tubule and collecting duct inside the nephron making them more permeable to water in order to absorb more water
• This causes more water to be reabsorbed
• Because of this only a small amount of concentrated urine is produced
• finally equilibrium is restored in terms of the amounts of solute and water in the body

Question 4

ADH in osmoregulation on a cold day/ inactive/ drinking lots of liquids/ resting

Answer 4

• The stimulus: Change in the amount of solutes in the blood decrease osmolarity
• That information is sent to the hypothalamus and the hypothalamus registers that there is excessive water in the blood and starts the process
• the pituitary gland/ hypophysis secretes less anti diuretic hormone (ADH)
• this hormone is sent to the distal convoluted tubule and collecting duct in the nephron making them less permeable to water in order to absorb less water
• This causes more water to be lost
• Because of this a large amount of diluted urine is produced
• finally equilibrium is restored in terms of the amounts of solute and water in the body

Question 5

Aldosterone and salt equilibrium maintenance. Fixing imbalance caused by: excessive sweating/ loss of blood/ drop in blood pressure

Answer 5

• stimulus: a change in osmolarity occurs, salt concentration is decreasing
• the sensory cells that line the afferent arteriole recognise the change and secrete the hormone, renin.
• the renin triggers the production of the hormone, angiotensin.
• this information is recognised by the adrenal gland and in response it secretes aldosterone
• Aldosterone is sent to the distal convoluted tubule which increases the amount of sodium absorption back into the blood
• equilibrium is restored

Question 6

Nutrition: Absorption of carbohydrates

Answer 6

• Starch is acted upon by the enzyme salivary amylase in the mouth in an alkaline medium
• The starch is broken down to maltose. This also happens in the small intestine when amylase from pancreatic juice acts on the remaining starch
• The maltose is then broken down to its monomers, which is glucose, by the enzyme maltase which is secreted by the intestinal glands (intestinal juice)
• the glucose is then absorbed into the blood capillaries of the villus by passive diffusion and transported to the liver by means od the hepatic portal vein

Question 7

Nutrition: absorption of proteins

Answer 7

• protein is acted upon by the enzyme pepsin in the gastric juice of the stomach in the mouth (in an acidic medium).
• The protein is broken down to polypeptides. This also happens in the pancreas when trypsinogen changed to trypsin from pancreatic juice acts on the remaining protein
• The polypeptides is then broken down to its monomers, which is amino acids, by the enzyme erepsin which is secreted by the intestinal glands (intestinal juice)
• the amino acids are then absorbed into the blood capillaries of the villus by passive diffusion and transported to the liver by means od the hepatic portal vein

Question 8

Nutrition: absorbing fats

Answer 8

• Fat is acted upon by the enzyme lipase in the pancreatic juice in the pancreas
• The fat is broken down into glycerol and free fatty acids. This also happens in the small intestine when lipase in the intestinal juice acts on the remaining fat.
  -Glycerol is water soluble so it can be absorbed by the villus
• Fatty acid is insoluble so it combines with bile in order to enter the villus
• Inside the villus the fatty acids and glycerol reform and enter the lacteal (structure running down the middle of the villus) a part of the lymphatic system.
• once the this reformed substance mixes with the lacteal it is know as chyle
• finally fat us absorbed by the body

Question 9

Ultrafiltration

Answer 9

-Blood flows from the afferent arteriole into the glomerulus (network of blood capillaries)
- Some of the plasma from the blood capillaries passes

Question 10

Gaseous exchange in the alveoli

Answer 10

• Deoxygenated blood flow into the alveoli from the body tissues
• the air breathed into the alveoli has a high concentration of oxygen
• this concentration gradient allow diffusion of oxygen in the air into the blood capillaries
• oxygen diffuses through the thin wall of the alveolus and capillary into the blood
• the blood becomes oxygenated and leaves the lings ans passes through the heart to the tissues of the body
• the capillaries around the alveoli contain high concentration of co2 waste from respiration while the air in the alveoli is oxygenated.
• this concentration gradient allows co2 to diffuse out of the blood into the air in the alveoli to be exhaled