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.
10 percent glucose solution is hypertonic.
hypertonic effect
suspended in a solution with the following composition: 10% NaCl, 10% glucose and 40% albumin.
Dissolve 10 g pure glucose in 100 mL distilled water.
Dissolve 100 g glucose in 1 L distilled water (or 10 g glucose in 100 mL disitlled water).
it is hypotonicQuoting from someone else's reply to this question What_is_an_example_of_a_hypotonic_solution,"0.45% NaCl (half-normal saline solution); since normal saline is 0.9% NaCl, any solution less than 9% is hypotonic".Doesn't this mean that 10% is hypertonic?
the solution in the balloon is hypertonic relative to the solution in the breaker. is this true
hypertonic
hypertonic effect
A hypotonic solution will be anything with less than 0.9% salt.
suspended in a solution with the following composition: 10% NaCl, 10% glucose and 40% albumin.
Dissolve 10 g pure glucose in 100 mL distilled water.
1:10 ratio.
If you have a semipermeable sac containing 4 percent NaCl, 9 percent glucose, and 10 percent albumin is suspended in a solution with the following com- position: 10 percent NaCl, 10 percent glucose, and 40 percent albumin. The glucose will move into a semi-permeable sac.
nothing
A 10% NaCl solution is hypertonic to a blood cell and would cause the cell to shrink, aka crenation.
Dissolve 100 g glucose in 1 L distilled water (or 10 g glucose in 100 mL disitlled water).
If a cell containing 97% water was placed in a hypertonic solution of 10% salt and 90% water, then the cell would crenate. This occurs due to osmosis. The hypertonic solution will pull out the water which will cause the cell to shrink. It does this to reach equilibrium but equilibrium cannot be attained. The concentration of the hypertonic solution is too great for the cell or Isotonic so the permeable cell will give to the osmotic pressure being greater than turgor pressure; solute and waste will be removed from the cell causing it to shrink in size because the turgor pressure keeps the cell stable.