335.7*1.06 = 355.842 grammes
2.3 percent glucose solution and .3 percent sodium solution
1:10 ratio.
200 grams/1,000 mL x 100= 20%
No. Only if the two components have the same density (specific gravity), which is highly unlikely.
10
1.3
the solution in the balloon is hypertonic relative to the solution in the breaker. is this true
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.
Assuming that is is a solution of glucose in water, the answer is 93%.
2.3 percent glucose solution and .3 percent sodium solution
The density (the expression specific gravity is obsolete) of NaCl is2,165 g/cm3.
how many grams of glucose must be added to 525g of 2.5 percent leg mass glucose solution?and give the furmela?
1:10 ratio.
yes it is isotonic solution.
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.
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.
A 30% glucose solution is purely glucose and water, though it is actually impossible to keep other contaminants out of it. To create a 30% solution of glucose, you take a fixed volume of water and add 30% of that value of glucose to the water. The amount of glucose is in grammes. For example, 3g of glucose would be added to 10ml of water.