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By 3 main mechanisms: 1. As bicarbonate ions (HCO3-) Carbon dioxide combines with water to form carbonic acid with the aid of the enzyme, carbonic anhydrase. The carbonic acid dissociates into bicarbonate ions and hydrogen ions. Bicarbonate ions are transported via the blood plasma to the alveoli, where the reverse process occurs to revert back to carbon dioxide. 2. Carbaminohaemoglobin Carbon dioxide combines with haemoglobin to form carbaminohaemoglobin. This is reversible at the alveoli. About 10% is transported this way. 3. Dissolved in blood plasma. The most straightforward way. Simply dissolve in blood plasma and bring it over to the alveoli. About 5% is transported this way.
The Arteries carry the blood away from the heart to the other organs and the veins bring it back when the blood has no more nutrients. From Unkown
When air reaches lungs which has thousands small sacks called alveoli the oxygen is difussed to blood capillaries that line alveolar wall.
blood vessels. they are the pathways or tubes in the body through which blood flows. the blood vessel are of three kinds. these are the arteries, veins, and capillaries. the arteries carry blood away from the heart. the veins bring blood back to the heart. capillaries carry blood rich in oxygen to the tissue, and carry away waste products
your lungs have structures called alveoli. The alveoli are surrounded by capillary beds which carry blood. The oxygen enters the alveoli when you inhale. The oxygen then diffuses from high concentration in your alveoli to low concentration the blood in the capillaries surrounding the alveoli.
If there is metabolic alkalosis (high pH in the blood) or metabolic acidosis (low pH in the blood), the respiratory system will compensate by either increasing or decreasing the rate of respiration (expulsion or retention of CO2 to bring the blood pH back to within normal limits).
By 3 main mechanisms: 1. As bicarbonate ions (HCO3-) Carbon dioxide combines with water to form carbonic acid with the aid of the enzyme, carbonic anhydrase. The carbonic acid dissociates into bicarbonate ions and hydrogen ions. Bicarbonate ions are transported via the blood plasma to the alveoli, where the reverse process occurs to revert back to carbon dioxide. 2. Carbaminohaemoglobin Carbon dioxide combines with haemoglobin to form carbaminohaemoglobin. This is reversible at the alveoli. About 10% is transported this way. 3. Dissolved in blood plasma. The most straightforward way. Simply dissolve in blood plasma and bring it over to the alveoli. About 5% is transported this way.
Some people feel slightly sick or nauseated if they have not eaten on time. It's very common. Also, otherwise healthy people can have temporary drops in blood glucose. Eating a balanced meal helps bring blood sugar back within normal range.
A: distortion is caused by a device operating out of it normal capabilities. To reduce or lessen it is necessary to bring the device within its proper operating curve
High blood pressure medication can be taken by teenagers. If the blood pressure is not so high that is less than 145/90 then they may first try lifestyle changes to bring the pressure to normal. If it is not produce any result then may go for high blood pressure medications. But if the blood pressure is more than 145/90 then it is advisable to have the medication as well as lifestyle changes to bring it back to normal then if needed can discontinue medication with stringent lifestyle changes. i hope this helped :)
adh and aldosterone both aid in stress response by maintaining the blood pressure. during stress the blood pressure increases. they both help bring it back to normal.
Red Blood cells bring oxygen and nutrients to the cells of the muscles.
bring blood back from heart
bring blood back from heart
The Vein does not bring blood to the Heart.
The inferior and superior vena cavas bring blood from the body to the right side of the heart. The pulmonary veins bring blopd from the lungs to the left side of the heart.
blood brings oxgen and nutrients to cells