When a hen's egg with the shell dissolved is placed in a 10% salt solution, the solution is hypertonic relative to the interior of the egg. This means that the concentration of salt outside the egg is higher than that inside the egg. As a result, water will move out of the egg through osmosis, potentially causing the egg to shrink and lose volume.
Cooling the hot solution containing dissolved benzoic acid in an ice bath will cause the benzoic acid to crystallize out of solution due to the decrease in temperature. This rapid cooling process helps to promote the formation of pure benzoic acid crystals and allows for easier separation from the solution.
The solution in which cells have been placed can be classified as isotonic relative to the cytoplasm if it has the same solute concentration as the cytoplasm, allowing for no net movement of water. If the solution has a higher solute concentration than the cytoplasm, it is hypertonic, causing water to move out of the cells and potentially leading to cell shrinkage. Conversely, if the solution has a lower solute concentration, it is hypotonic, resulting in water moving into the cells and possibly causing them to swell.
If cells are observed shrinking when placed in a solution, it indicates that the solution is hypertonic relative to the cell's internal environment. This means that the concentration of solutes outside the cell is higher than inside, causing water to flow out of the cells in an attempt to balance the solute concentrations. As a result, the cells lose water and shrink.
When the cell is placed in a solution that contains the interior of the cell, and if that solution is warmer than the cell's internal temperature, water will move out of the cell through osmosis. This occurs as the cell attempts to reach equilibrium with the surrounding environment. As a result, the cell may shrink or undergo plasmolysis if it loses too much water. Conversely, if the external solution were cooler, water might move into the cell, causing it to swell.
When a cell is placed in an isotonic solution, there will be no net movement of water into or out of the cell, as the concentration of solutes is the same inside and outside the cell. This equilibrium maintains the cell's shape and functionality, preventing it from swelling or shrinking. The cell will remain stable, with its internal environment balanced relative to the external solution.
Suger
The solution must be hypertonic compared to the interior of the cell, meaning that it has a higher concentration of solutes. This causes water to leave the cell by osmosis, leading to shrinkage.
Isotonic solution
isotonic.
Hypotonic :) good luck on plato :D
Homeostasis
The solution concentration of dissolved substances will be greater inside the cell than outside if the cell is in a hypertonic solution. This causes water to move out of the cell, leading to shrinkage or crenation of the cell.
Solute particles are the particles of solid material that are being placed into a solvent. A solute dissolved in a solvent makes a solution.
Cooling the hot solution containing dissolved benzoic acid in an ice bath will cause the benzoic acid to crystallize out of solution due to the decrease in temperature. This rapid cooling process helps to promote the formation of pure benzoic acid crystals and allows for easier separation from the solution.
The solution in which cells have been placed can be classified as isotonic relative to the cytoplasm if it has the same solute concentration as the cytoplasm, allowing for no net movement of water. If the solution has a higher solute concentration than the cytoplasm, it is hypertonic, causing water to move out of the cells and potentially leading to cell shrinkage. Conversely, if the solution has a lower solute concentration, it is hypotonic, resulting in water moving into the cells and possibly causing them to swell.
If cells are observed shrinking when placed in a solution, it indicates that the solution is hypertonic relative to the cell's internal environment. This means that the concentration of solutes outside the cell is higher than inside, causing water to flow out of the cells in an attempt to balance the solute concentrations. As a result, the cells lose water and shrink.
htpotonic