Deoxygenated blood is low in oxygen and high in carbon dioxide.
The heart pumps blood low in oxygen and high in carbon dioxide to the lungs, where blood releases carbon dioxide and picks up oxygen.
The pulmonary veins are high in oxygen and low in carbon dioxide. All other veins are high in carbon dioxide and low in oxygen.
The right ventricle pumps blood low in oxygen and high in carbon dioxide back to the lungs.
Carbon dioxide rich blood, which is red blood cells lacking oxygen but high in carbon dioxide concentration.These blood cells have circulated through the body and given up much of its oxygen while collecting waste carbon dioxide. The pulmonary artery carries this blood from the heart to the lungs, where it picks up a fresh supply of oxygen and eliminates carbon dioxide.
Very high! and low in carbon dioxide
Carbon dioxide is at high levels and oxygen at low levels in blood that is being pumped from the heart to the lungs.
Blood in the right atrium typically contains a high proportion of deoxygenated blood, which is low in oxygen and high in carbon dioxide.
Oxygen diffuses into the blood in the lungs and binds to the hemoglobin since the oxygen concentration is high and the carbon dioxide concentration is low. The blood is pumped to the body. The hemoglobin releases the oxygen to the tissues because here, the concentration of oxygen is low and that of carbon dioxide is high.
Low level of carbon- dioxide and more level of oxygen.
No. It depends on the concentration of carbon dioxide in the alveoli and the blood. The concentration of carbon dioxide in the capillaries of the alveoli is higher than the concentration of carbon dioxide in the air, so carbon dioxide in the capillaries of the alveoli diffuses out of the capillaries into the alveoli of the lungs and is exhaled.
Oxygen moves from the alveoli into the bloodstream through diffusion, where it crosses the thin walls of the alveoli and capillaries. Similarly, carbon dioxide moves from the bloodstream into the alveoli for removal when blood with high levels of carbon dioxide comes into contact with alveolar air with lower levels of carbon dioxide.
Exchange of both oxygen and carbon dioxide through the respiratory membrane occurs by diffusion. Oxygen moves from an area of high concentration in the alveoli to an area of low concentration in the blood, while carbon dioxide moves from high concentration in the blood to low concentration in the alveoli.