the normal concentration of NaCl in red blood cells is 0.9%
The concentration of red blood cells is hemoglobin.
3.8 to 5.1 million red blood cells in the body. Most abundant!
bovine red blood cells are smaller and more concentrated than human rbc
Red blood cells because that is what carries oxygen throughout the body
4, Active Transport. this is the question from castel learning.
Red Blood Cells
The four major components in blood are: -Plasma -Platelets -Red Blood Cells -White Blood Cells
bovine red blood cells are smaller and more concentrated than human rbc
They wear red shirts
The concentration of potassium within red blood cells is much higher than in the surrounding plasma or serum
Red blood cells have the responsibility of transporting oxygen throughout the body. About 33% of the weight of a red blood cell is attributed to a specialized protein called hemoglobin. Because of this, red blood cells are often referred to as "bags of hemoglobin."
polycythemia
polycythemia
It's one of these answers: a. The red blood cells will absorb water and increase in size. b. The red blood cells will lose water and decrease in size. c. The red blood cells will first absorb water, then lose water and maintain their normal size. d. The red blood cells will first lose water, then absorb water, and finally double in size. A is wrong, just let you know. Still trying to figure out the answer myself.
In terms of the salt concentration OUTSIDE the cell (in the medium), 0.15M NaCl would retain the normal condition of the red blood cell. Hope you liked it! :D
Dehydration reduces blood volume without changing the number of blood cells, so their concentration increases.
The concentration of cytoplasm of RBCs could be 0.5 M.
Provided the concentration of salt is higher than the salt concentration in the red blood cell, the red blood cell, through the process of osmosis and the principal of diffusion, will shrink, as water flows from within the red blood cell to the solution
It's one of these answers: a. The red blood cells will absorb water and increase in size. b. The red blood cells will lose water and decrease in size. c. The red blood cells will first absorb water, then lose water and maintain their normal size. d. The red blood cells will first lose water, then absorb water, and finally double in size. A is wrong, just let you know. Still trying to figure out the answer myself.