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The answer depends upon the conditions of the environment. If the available energy to the wave generator is unbounded, then there is no impact on amplitude as frequency increases. However if total energy rate is constant, then the amplitude must decrease as frequency increases in order to maintain the same energy output.
When the liver gets damaged or injured or if it is producing in excess, these enzymes leak out into the blood and the levels of SGOT and SGPT become elevated.
It increases as the current increases.
Under constraint (cannot get bigger) then mass increases. Otherwise, size increases.
When the mass increases then the force also increases
low rbcs count shows anaemia high rbcs count show polycythemia vera. rbcs enumerations shows the bonemarrow how much active.
low rbcs count shows anaemia high rbcs count show polycythemia vera. rbcs enumerations shows the bonemarrow how much active.
Hb Tlc Dlc Platelet Count RBCs Count PBF
Hb Tlc Dlc Platelet Count RBCs Count PBF
Erythropoietin, a hormone, produced by the kidneys stimulates RBCs.
CBC stands for Complete Blood Count. It gives Red Blood Cell Count (RBC), White Blood Cell Count (WBC), various components of RBCs and WBCs, and the immature cells within each. A CBC can show various diseases and conditions, including but not limited to:temporary dehydrationclotting tendencies and risksinfectionleukemia
They are given to people who have anemia (including thalassemia ), whose bone marrow does not make enough RBCs, or who have other conditions that decrease the number of RBCs in the blood.
In an effort to take in as much Oxygen is available to us, the human body increases the number of RBCs in the system, which also would reflect in a higher Haemoglobin count for such people.
the zeta potential of the rbc's ( the negative charge on the rbcs) REPELLS the rbcs. so. if the number of rbcs is more, more will be the repulsion. females have a lesser blood count than males physiologically. do the rest math urself :-) cheers -JD
Red blood cells (RBCs) are the oxygen-carrying cells in circulation in the body. RBCs contain the molecule hemoglobin that can bind oxygen (O2) and transport it all over the body. Anemia is lack of sufficient RBCs (and hemoglobin) to carry enough O2. You get tired easily, have muscle weakness, and your heart struggles. Your bone marrow will produce more RBCs that need more hemoglobin to fill them. Hemoglobin has iron in the center that binds to the O2. So you need RBC production from the bone marrow and iron intake from the diet to produce more O2-carrying capacity. This causes your RBC count, the number of RBCs in circulation per unit volume, to increase. RBC count is called the Red Cell Count (RCC). RCC in cells/femtoliter = hematocrit divided by mean corpuscular volume in femtoliters per cell.
Incrementation INCREASES the count, Decrementation DECREASES the count.
We can not extract DNA from RBCs as they are without nucleus. only the source of DNA extraction is Leukocytes, RBCs are not good source of extraction but we can extract DNA from immature RBCs.