what are three differences between mammal red blood cells and normal blood cells? explain how each...

Explain, in detail, the differences between B cells, CD4 T-Cells and CD8 T-Cells. What is the...

Explain, in detail, the differences between B cells, CD4 T-Cells and CD8 T-Cells. What is the role of each and where are they formed? Which cells are under attack during HIV?

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...

1.Are there different types of red blood cells? If so what are they. 2. ?After looking...

1.Are there different types of red blood cells? If so what are they. 2. ?After looking at healthy cells: If you were to observe cells from someone with a bacterial infection, what ?differences might there be? Why are there differences?

What are some differences between the ways in which white blood cells and proteins fight infections?

What are some differences between the ways in which white blood cells and proteins fight infections?

Describe the difference between a whole blood transfusion and an infusion of packed red cells, pRBC....

Describe the difference between a whole blood transfusion and an infusion of packed red cells, pRBC. If a type AB patient experienced moderate and slow blood loss, but still required a transfusion, which procedure would most likely be administered in a hospital: a whole blood transfusion from a type B donor or a packed red cell transfusion from a type B donor? Explain your answer.

Explain how partial pressure differences between the cell and the capillary result in the movement of...

Explain how partial pressure differences between the cell and the capillary result in the movement of those gases between the cell and the capillary.

Two red blood cells each have a mass of 9.05×10^−14kg and carry a negative charge spread...

Two red blood cells each have a mass of 9.05×10^−14kg and carry a negative charge spread uniformly over their surfaces. The repulsion arising from the excess charge prevents the cells from clumping together. One cell carries −2.70pC and the other −3.30 pC, and each cell can be modeled as a sphere 3.75×10^−6m in radius. If the red blood cells start very far apart and move directly toward each other with the same speed, what initial speed would each need so...

Two red blood cells each have a mass of 5.50×10−14 kg and carry a negative charge...

Two red blood cells each have a mass of 5.50×10−14 kg and carry a negative charge spread uniformly over their surfaces. The repulsion arising from the excess charge prevents the cells from clumping together. Once cell carries −2.40 pC of charge and the other −3.50 pC, and each cell can be modeled as a sphere 8.00 μm in diameter. What minimum relative speed v would the red blood cells need when very far away from each other to get close...

Two red blood cells each have a mass of 2.30×10−14 kg and carry a negative charge...

Two red blood cells each have a mass of 2.30×10−14 kg and carry a negative charge spread uniformly over their surfaces. The repulsion arising from the excess charge prevents the cells from clumping together. Once cell carries −2.40 pC of charge and the other −3.10 pC, and each cell can be modeled as a sphere 8.00 μm in diameter. What minimum relative speed v would the red blood cells need when very far away from each other to get close...

Two red blood cells each have a mass of 1.90×10−14 kg1.90×10−14 kg and carry a negative...

Two red blood cells each have a mass of 1.90×10−14 kg1.90×10−14 kg and carry a negative charge spread uniformly over their surfaces. The repulsion arising from the excess charge prevents the cells from clumping together. Once cell carries −2.00 pC−2.00 pC of charge and the other −3.10 pC−3.10 pC, and each cell can be modeled as a sphere 6.60 μm6.60 μm in diameter. What minimum relative speed vv would the red blood cells need when very far away from each...