A hypertonic solution is less concentrated compared to the cytoplasm of the animal cell. When an animal cell is placed in a hypertonic solution, water diffuses across the selectively permeable cell membrane in an attempt to form an equilibrium between the two liquids. If the solution is hypertonic enough compared to the cell's cytoplasm, the cell would swell and could possibly explode.
"hypertonic"
In a hypertonic solution water is most likely to move out of the cell because it is in a high concentration and the cell will shrink. They tend to give up water across the permiable cell membrane
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The pressure inside a cell that is placed in a hypertonic solution will decrease causing the cell to shrivel due to water loss
In a hypertonic solution, the cell will lose water to the surrounding solution through osmosis, causing the cell to shrink or shrivel up. This occurs because the solute concentration outside the cell is higher than inside, resulting in a net movement of water out of the cell.
"hypertonic"
In a hypertonic solution water is most likely to move out of the cell because it is in a high concentration and the cell will shrink. They tend to give up water across the permiable cell membrane
it will shrink
the cell lets out water to make it an isotonic solution
An Animal Cell in hypertonic solution will look shriveled due to osmotic effects on the cell. the hypertonic solution means there is more water potential outside of the cell, water moves from a low water potential to a high water potential. Therefore the water diffuses out of the cell decreasing the volume bringing the cell membrane in making it look shriveled up.
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In a hypertonic solution there is a higher concentration of a solute than another. Water diffuses out of the cell making it shrivel up.
The pressure inside a cell that is placed in a hypertonic solution will decrease causing the cell to shrivel due to water loss
If an alcohol-treated cell is kept in a hypertonic solution, it will likely shrink due to osmosis. The hypertonic solution has a higher solute concentration than the cell, causing water to move out of the cell and into the solution, leading to cell dehydration and shrinkage.
A hypertonic solution causes water to move out of the animal cell, leading to cell dehydration and shrinkage. This can disrupt cellular function and potentially lead to cell death.
In a hypertonic solution, the cell will lose water to the surrounding solution through osmosis, causing the cell to shrink or shrivel up. This occurs because the solute concentration outside the cell is higher than inside, resulting in a net movement of water out of the cell.