therefore can fit 1000 cells
This answer was actually correct... But needs more information.
Average Human RBC (erythrocyte) diameter of 6–8µm
So, 7.5µm would be within the statistical average.
And 7.5mm = 7500µm.
So 7500µm / 7.5µm/cell = 1000 cells.
There are micrometers in a millimeter. If you use that formula you figure out that there are 7,500 red blood cells in 7.5 millimeters of space.
35,000,000 cells 35,000,000 cells Hey peoples some of these answers suck so i am going to change some of them to better answers so you are lucky i am here!
1 mm = 1000 µm Therefore, it could fit 1000 cells
It is the space where you will find bone marrow, which is where Red Blood Cells and White Blood Cells are formed
No. They do not. They are able to support themselves without organelles helping. They are degraded in the bone marrow so that there is more space for the hemoglobin.
A mature red blood cell does not have a nucleus. And neither do prokaryotes (bacteria).
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.
Some unicellular organisms get by fine with no nucleus. The general term for these is prokaryotes. (A few prokaryotes form multicelluar stages, but this is not common.) Most multicellular organisms... and some unicellular organisms... do have cell nuclei. The general term for these is eukaryotes. Some specialized cells in multicellular organisms have no nucleus. For example, mammalian red blood cells have no nucleus. The generic term for any cell without a nucleus, whether a prokaryote or a specialized cell in a eukaryote, is anucleate (which simply means "without a nucleus").
Red blood cells do not have a nucleus in order to create maximum space for Heamoglobin in the cell.
The body is made of bones,fat,cells,blood,and atoms. Because of atoms your body is mostly empty space The body is made of bones,fat,cells,blood,and atoms. Because of atoms your body is mostly empty space The body is made of bones,fat,cells,blood,and atoms. Because of atoms your body is mostly empty space
They do not have a nucleus which allows them to make more space for haemoglobin.
Extracellular fluid is the fluid outside of cells. It is in the interstitial space, in the blood vessels and lymph vessels
Extracellular fluid is the fluid outside of cells. It is in the interstitial space, in the blood vessels and lymph vessels
no. it remains at it is even at zero gravity
It is the space where you will find bone marrow, which is where Red Blood Cells and White Blood Cells are formed
blood is made up of blood cells and plasma. it has a density of approximately 1 (maybe a little more) so 1L of blood approx takes up as much space as 1L of water.
Red blood cells have no nucleus. This allows them more space to carry oxygen.
No. They do not. They are able to support themselves without organelles helping. They are degraded in the bone marrow so that there is more space for the hemoglobin.
* Red blood cells do not have a nucleus (to save space and allow for higher amounts of haemoglobin), whereas white bloody cells do. * White blood cells protect the body from diseases (either by digesting the 'problem' or by emission of antibodies), whereas red blood cells are simply a means of transporting oxygen and other gases. * Red blood cells tend to have a life span of about 4 months, while white blood cells have a lower life span (which varies between the types of white blood cell). * Red blood cells are smaller than white bloody cells. * Red blood cells have a much higher density within the bloodstream (at 4,000,000-6,000,000 /mm3) than white blood cells (5000-7000 /mm3). ..... I hope this helps :] most of it is probably waffle... (i know i put 5)
Blood plasma is 95% water. Other components of blood plasma include clotting factors, proteins, and glucose; blood cells are not part of the plasma.