scheme of circulation of red blood cell in the human body

Picture a single red blood cell in the right ventricle of the heart. Describe the general...

Picture a single red blood cell in the right ventricle of the heart. Describe the general pathway this red blood cell follows (in the correct sequence) as it moves through the human heart and body, eventually arriving back at the right ventricle. Include the names of the major blood vessels and heart chambers that this cell passes through during its journey.

The Red blood cells carry oxygen from the lungs to the tissues of the body and...

The Red blood cells carry oxygen from the lungs to the tissues of the body and carry carbon dioxide from the tissues of the body to the lungs. Each red blood cell contains millions of hemoglobin proteins that bind to oxygen and carbon dioxide allowing for transport. (isotonic blood), the morphology of red blood cells can be described as slightly ovoid, biconcave disks. When severe dehydration occurs, blood becomes hypertonic: water exits red blood cells and enters into the blood...

Describe what would happen to the flow of water when a human red blood cell placed...

Describe what would happen to the flow of water when a human red blood cell placed in the following solutions: - 0.9% NaCl Solution: (1 pt) - 5% NaCl Solution: (1 pt) - 0% NaCl Solution: (1 pt)

You are a single hemoglobin molecule in a red blood cell. Describe what would happen to...

You are a single hemoglobin molecule in a red blood cell. Describe what would happen to you in the pulmonary capillaries and in the systemic capillaries. Also, what would happen to you if your human fell into cold water and had her body temperature lowered by 2 degrees Fahrenheit

Red blood cells have a tonicity of 0.9%. If a red blood cell is placed in...

Red blood cells have a tonicity of 0.9%. If a red blood cell is placed in a 3% saline solution the cell would _______________.

Sickle-cell disease is a painful disorder of the red blood cells that in the United States...

Sickle-cell disease is a painful disorder of the red blood cells that in the United States affects mostly African-Americans. To investigate whether the drug hydroxyurea can reduce the pain associated with sickle-cell disease, a study by the National Institutes of Health gave the drug to 160 sickle-cell sufferers and a placebo to another 160. The researchers then counted the number of episodes of pain reported by each subject. What is the population of interest and what is the size of...

Sickle-cell anemia is caused by a single point mutation in the hemoglobin of human red blood...

Sickle-cell anemia is caused by a single point mutation in the hemoglobin of human red blood cells. It is a recessive gene. People who have sickle cell anemia are homozygous recessive and suffer terribly from this disorder. Now I have stated in lecture that mutations are neither good nor bad. Rather it depends on how the mutation effects the survival of the species. If the mutation harms the survival of the species it is bad, if it helps the survival...

Controlling Red Blood Cells Loss During Surgery A typical volume of blood in the human body...

Controlling Red Blood Cells Loss During Surgery A typical volume of blood in the human body about 5 L. A certain percentage of that volume (called the hematocrit) consists of red blood cells (RBCs); typically the hematocrit is about 45% in males. Suppose that a surgery takes four hours and a male patient bleeds 2.5 L of blood. During surgery the patient's blood volume is maintained at 5 L by injection of saline solution, which mixes quickly with the blood...

what is the circulation ? blood circulation?

what is the circulation ? blood circulation?

For a typical red blood cell, the intracellular volume is 87 µm3 and the surface area...

For a typical red blood cell, the intracellular volume is 87 µm3 and the surface area is 163 µm2 . If the red blood cell were spherical with the same intracellular volume, compute the surface area of the equivalent sphere. What is the difference in the surface areas (provide a relative percentage comparison with respect to the area of the red blood cell). What is the possible advantage of the shape of the red blood cell