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1:10 ratio.
10 percent is a 10th of something, so 10 percent of $10 is $1.
(10 percent) percent of 7700 = 7.7
10 percent is 10/100 = 0.1so 10 percent of 15900 = 0.1x15900= 1590
10%10 percent
Yes, a 10 percent glucose solution is hypertonic because it has a higher solute concentration than the surrounding environment, leading to a net flow of water molecules into the solution, causing cells to shrink or crenate when exposed to it.
10 percent NaCl is hypertonic to red blood cells. This means that the concentration of solutes outside the red blood cell is higher than inside, causing water to move out of the cell, potentially leading to the cell shrinking or shrinking.
The solution in the bag is hypotonic compared to the solution in the beaker. This is because the bag has a lower concentration of solute (2%) compared to the beaker (10%), so water will tend to move into the bag to equalize the concentrations, causing the bag to swell.
true
Yes, glucose can move into the cell through facilitated diffusion using glucose transport proteins on the cell membrane. The concentration gradient allows for passive transport of glucose molecules into the cell.
A 10% NaCl solution is hypertonic to red blood cells. This means that the concentration of salt outside the cells is higher than inside, causing water to move out of the cells through osmosis, potentially leading to cell shrinkage.
No, it is far from isotonic. there's even more salt in it than in ocean water (3%).A typical home recipe for an isotonic solution, used for nasal spray, consists of 1⁄2 litre of water, 4 to 5 grams (1 teaspoon) of salt. This is about 10 grams per Litre or 1 % NOT 10%
B
To make a 10% glucose solution, dissolve 10g of glucose in 90mL of water. Mix well until the glucose is completely dissolved. This will give you a total volume of 100mL of 10% glucose solution.
The balloon will contain a mixture of the 10% and 5% glucose solutions. Since water can pass through but not glucose, the glucose concentration inside the balloon will decrease over time as water moves from the lower concentration in the beaker to the higher concentration in the balloon through osmosis.
A 10% NaCl solution is hypertonic to red blood cells. This means that the concentration of solutes outside the cells is higher than inside, causing water to move out of the cells, potentially leading to their shrinkage or dehydration.
A patient treated with 0% saline would experience hemolysis (destruction of red blood cells) due to the hypotonic solution causing water to move into the cells. In contrast, a patient treated with 10% saline would undergo crenation (shriveling) of red blood cells due to the hypertonic solution causing water to move out of the cells.