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homeostasis
http://www.flash-med.com/LabNormal.asp That link should provide with just about every possible "normal" concentration of just about every possible blood solutes. It seems rather exhaustive. Good luck!
Blood volume and Concentration
no it does not make it greater nor fewer inside the cell membrane it's because difussion keeps on going till equilibrium happens. moreover the process difussion allows solutes to be transferred from the more concentration to the less concentration like what happens in glucose between a cell and blood. :)
osmosis
decreased concentration of solutes in the blood
The concentration of solutes in the blood stimulates the release of ADH or antidiuretic hormone. This is referred to as the plasma osmolarity.ADH releasing factor
It is called an isotonic solution. If the salt concentration is higher, it is called hypertonic and if lower it is called hypotonic.
homeostasis
a gradual change in the concentration of solutes in a solution as a function of distance through a solution. 2. the gradual difference in the concentration of solutes in a solution between two regions. In biology, a gradient results from an unequal distribution of ions across the cell membrane. When this happens, solutes move along a concentration gradient. This kind of movement is called diffusion.
http://www.flash-med.com/LabNormal.asp That link should provide with just about every possible "normal" concentration of just about every possible blood solutes. It seems rather exhaustive. Good luck!
There are two opposing forces controlling the movement of fluid from the blood into the interstitial compartment. One is the force of pressure which is driven by the heart and blood pressure which acts to push liquid into the lungs. The other force is osmosis which acts to keep liquid in the blood. The albumin in the blood increases the concentration of solutes in the blood and the water stays in the blood because of this. So hypoalbuminemia lowers the concentration of solutes in the blood and upsets the balance of forces to favor the movement of liquid into the interstitial compartment causing systemic oedema. however this does not generally happen in the lungs as the albumin concentration in the pulmonary interstitial fluid tends to follow that of the blood meaning oncotic forces are less important. So the answer is not usually.
As a blood alcohol concentration (by percentage) anywhere between 0.3-0.45 is considered increasingly lethal (with 0.45 being the lethal dose for most people) and 0.5 and above is certain to end life, a blood alcohol concentration of 2.29 would most likely have to be administered post-mortem as the subject would have been dead long before being capable of consuming enough alcohol to achieve this. Such a blood alcohol concentration is unlikely to be dangerous to the dead.
urea
Blood volume and Concentration
because
no it does not make it greater nor fewer inside the cell membrane it's because difussion keeps on going till equilibrium happens. moreover the process difussion allows solutes to be transferred from the more concentration to the less concentration like what happens in glucose between a cell and blood. :)