100ppb
its 100 ppm
Glucose concentration strips will work.
The concentration is 69,3 g/L.
The words isotonic, hypertonic, and hypotonic refer to the relationship between two solutions. - When two solutions are isotonic to one another, the two solutions have the same amount of solute as each other. - When a solution is hypertonic in reference to another solution, that solution has more solute than the other. - When a solution is hypotonic in reference to another solution, that solution has less solute than the other. - Thus, on a scale of INCREASING solutes, you could align three solutions like this: hypotonic --> isotonic --> hypertonic. Secondly, since substances move from a region of high concentration (more solute) to low concentration (less solute), remember that solutes will always move from a hypertonic solution to a hypotonic solution OR solvents will always move from a hypotonic solution to a hypertonic solution. A good way to remember this is to know that "hyper" means above (more than) and hypo means "below" (less than), e.g. in HYPERactive = being really energetic or more energetic than normal vs. HYPOthermia = being very cold or below the normal temperature. A way to figure out whether a solution is isotonic, hypertonic, or hypotonic in respect to another solution is to figure out the solutions tonacities. Tonacity is the measure of solute in a solution. Therefore, something hypertonic has more tonacity or more solute than another solution. Some people learn the term "solute potential," which has a similar concept to tonacity. Examples: A 0.4 mol glucose solution is isotonic to a 0.4 mol glucose solution. A 0.4 mol glucose solution is hypertonic to a 0.2 mol glucose solution. A 0.2 mol glucose solution is hypotonic to a 0.4 mol glucose solution.
That depends on the concentration of glucose inside of the red blood cell (RBC). If the glucose concentration inside the cells is less than the concentration outside the cell, then water will pass through the cell's membrane and into the surrounding fluid. If the concentration inside the RBC is greater than that of the outside solution, then the RBC will taken in water. Most likely, this will cause the cell to lyse open (burst) and die.
its 100 ppm
Glucose concentration strips will work.
Glucose concentration strips will work.
No. Everything below 0.9% of NaCl is hypotonic and every solution with concentration over 0.9% is hypertonic solution. Isotonic solution (to blood) is the one that has 0.9% of NaCl, or some other concentration of another compound.
Yes, during process of osmoses the solvent from higher concentration to lower concentration moves through semipermeable membrane, the 2% solution has lower concentration of solute therefore higher concentration of solvent.
Isotonic solution is very close to sea water in composition and also concentration. Glucose isotonic solution is an electrolyte solution used for re-hydration. It contains salt, water and glucose.
The concentration is 69,3 g/L.
The words isotonic, hypertonic, and hypotonic refer to the relationship between two solutions. - When two solutions are isotonic to one another, the two solutions have the same amount of solute as each other. - When a solution is hypertonic in reference to another solution, that solution has more solute than the other. - When a solution is hypotonic in reference to another solution, that solution has less solute than the other. - Thus, on a scale of INCREASING solutes, you could align three solutions like this: hypotonic --> isotonic --> hypertonic. Secondly, since substances move from a region of high concentration (more solute) to low concentration (less solute), remember that solutes will always move from a hypertonic solution to a hypotonic solution OR solvents will always move from a hypotonic solution to a hypertonic solution. A good way to remember this is to know that "hyper" means above (more than) and hypo means "below" (less than), e.g. in HYPERactive = being really energetic or more energetic than normal vs. HYPOthermia = being very cold or below the normal temperature. A way to figure out whether a solution is isotonic, hypertonic, or hypotonic in respect to another solution is to figure out the solutions tonacities. Tonacity is the measure of solute in a solution. Therefore, something hypertonic has more tonacity or more solute than another solution. Some people learn the term "solute potential," which has a similar concept to tonacity. Examples: A 0.4 mol glucose solution is isotonic to a 0.4 mol glucose solution. A 0.4 mol glucose solution is hypertonic to a 0.2 mol glucose solution. A 0.2 mol glucose solution is hypotonic to a 0.4 mol glucose solution.
Water will diffuse from solution B to solution A
A solution which has a high concentration of a solute (example - glucose) will have a low water concentration. But when you look at pure water it has a high water concentration. So if a cell contains a high concentration of glucose and was placed in a pure water solution, water would simply move down its concentration gradient (going from high to low) which eventually causes the cell to swell. I hope this helped :D
2% glucose solution is considered as a hypotonic solution for that the solution will enter the semi-permeable membrane of the red blood cells causing the cells to explode or burst. Why? It's because RBCs have a higher concentration inside it than that of the 2% glucose solution so the solution will enter the cells.
That depends on the concentration of glucose inside of the red blood cell (RBC). If the glucose concentration inside the cells is less than the concentration outside the cell, then water will pass through the cell's membrane and into the surrounding fluid. If the concentration inside the RBC is greater than that of the outside solution, then the RBC will taken in water. Most likely, this will cause the cell to lyse open (burst) and die.