Wiki User
∙ 14y agoThe salt solution in the bucket is 10% of the salt solution in the bag.
The bagged solution has a higher density than the bucket solution; therefore, the bagged solution will most likely fall to the bottom of the bucket as the bucket water is displaced above it -- assuming there is no air in the bag, the density of the bag material is negligible, and the salt is fully dissolved in the water.
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The solution in the bucket is 0.3% while the solution is the bag is 3%. Thus, the solution in the bucket has less concentration of salt than the solution in the bag. Hence, the solution in the bucket is hypotonic to the solution in the bag.
Wiki User
∙ 14y agoThe solution in the bucket would be more diluted compared to the solution in the bag. This is because the water in the bucket, which is less salty at 0.3 percent, would mix with the salt water in the bag, resulting in a less concentrated overall solution in the bucket.
When pollen grains are placed in a 10 percent sugar solution, they will absorb water from the solution through osmosis. This can cause the pollen grains to swell and become turgid. The sugar solution provides a hypertonic environment, leading to an influx of water into the pollen grains.
A hypotonic solution has a lower concentration of solutes compared to the solution it is being compared to. When a cell is placed in a hypotonic solution, water will move into the cell causing it to swell and potentially burst due to osmotic pressure.
No, a hypertonic solution is one with a higher solute concentration compared to another solution. When a cell is placed in a hypertonic solution, water will leave the cell, causing it to shrink or crenate.
In this scenario, the salt solution is hypertonic compared to the cell. Water will move out of the cell through osmosis, causing the cell to shrink or shrivel up.
A solution with a high concentration of non-permeating solutes is called hypertonic. This means that the solute concentration in the solution is higher compared to the solute concentration inside the cell. Cells placed in a hypertonic solution will lose water and shrink due to osmosis.
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.
When red blood cells are placed in a 9.0 percent NaCl (salt) solution, they will shrink and shrivel up due to the higher salt concentration outside the cell compared to inside. This process is called plasmolysis, and the cells will appear crenated or wrinkled under a microscope.
It will shrink.
yes
When pollen grains are placed in a 10 percent sugar solution, they will absorb water from the solution through osmosis. This can cause the pollen grains to swell and become turgid. The sugar solution provides a hypertonic environment, leading to an influx of water into the pollen grains.
Red blood cells placed in 9% NaCl will appear shriveled and wrinkled due to the hypertonic solution causing water to leave the cells, leading to cell dehydration and a crenated appearance.
A hypotonic solution has a lower concentration of solutes compared to the solution it is being compared to. When a cell is placed in a hypotonic solution, water will move into the cell causing it to swell and potentially burst due to osmotic pressure.
Distilled water will move out of the dialysis bag and into the sucrose solution due to osmosis and the fact that the dialysis bag has a hypertonic solution of H2O as compared to the sucrose solution.
It would get salty! duhhh
No, a hypertonic solution is one with a higher solute concentration compared to another solution. When a cell is placed in a hypertonic solution, water will leave the cell, causing it to shrink or crenate.
htpotonic
get larger then smaller... XD