250 million X 4 = < 1 billion
4- is how many o2 molecules a single HBn carries assuming they are full saturated(which they almost never are)
Actually, one hemoglobin molecule can carry 4 molecules of oxygen. There are ~1 billion molecules of oxygen in each RED BLOOD CELL.
Hemoglobin consists of four subunits, each of which has a binding site for oxygen. Therefore, four oxygen molecules can bind to one hemoglobin.
Basically when oxygen binds into an red blood cell, the red blood cell absorbs as much oxygen as possible in the hemoglobin molecule. In the process the hemoglobin becomes oxyhemoglobin.
zero because of the red blood cells
1958 can fit 195
2 6 8 4
4
lot of
Hemoglobin is a protein, i.e. a molecule, not a cell. About 97% of the "dry content" of red blood cells is hemoglobin. The exact number of hemoglobin protein molecules is not particularly well defined since red blood cells vary in weight but the range could probably be estimated from that 97% statistic.
Haemoglobin combines with four molecules of oxygen.
Red blood cells are highly specialized for oxygen transport. They lack a nucleus and instead, contain many copies of hemoglobin. Red Blood cells move single file through the capillaries
Four heme groups, so I think four molecules of oxygen can be transported by one molecule of haemoglobin.
each Red blood cell is capable of transporting oxygen, and carbon dioxide.
Each RBC can carry up to 4 oxygen molecules.
One RBC contains about 250 million Hemoglobin molecules
1. Into the cell of the alveolus 2.+3. Out of the alvealus into cell of the capillary wall 4. Out of the cell of the capillary wall and into blood plasma 5. Into the red blood cell. So 5.
The red blood cell is just about the easiest cell to study , it has haemoglobin (lots of it) it has a nucleus when it forms from bone marrow , but when it matures it loses the nucleus and is replaced by ..... can u guess ? MORE HAEMOGLOBIN , as well as some other chemicals / components , it has a cell membrane otherwise known as : lipid bilayer ( a thin membrane made of molecules ) as well as a few other minor to average components.
The structure of red blood cells is specialized for the transport of oxygen throughout the body. The biconcave disc shape of the cell increases the surface area of the cellular membrane to maximize oxygen absorption. Red blood cells lack nuclei and many other common cellular organelles in order to maximize space for the protein hemoglobin within the cells. Hemoglobin readily bonds oxygen molecules and gives red blood cells their characteristic red color.
Red blood cells are the most common type of blood. Hemoglobin carries some of the waste products.Blood is a complex, living tissue that contains many cell types and proteins
There are many genetic mutations that affect the hemoglobin itself, the best-known of which is sickle cell disease. Such hereditary disorders as spherocytosis weaken the outer membrane of the red cell.