Pure water is considered hypotonic because it has a lower concentration of solutes compared to the inside of most cells. When cells are placed in pure water, water molecules move into the cells through osmosis, aiming to balance solute concentrations. This influx of water can cause cells to swell and potentially burst if they take in too much water. Therefore, pure water's lack of solutes makes it hypotonic relative to cellular environments.
hypotonic
Yes, pure water is hypotonic to red blood cells, meaning that it has a lower concentration of solutes compared to the inside of the cells. When placed in a hypotonic solution, red blood cells may take in water and potentially burst due to the influx of water.
Distilled water is hypotonic to undistilled water. Undistilled water is hypertonic to distilled water. Undistilled water contains chemicals, if you live in the city, and minerals and nutrients. These would be considered impurities to the pure H2O, or solutes dissolved in the water. Because the undistilled water has substances in it that the distilled water does not, it is hyper-(above)-tonic. The deionized water is hypo-(below)-tonic to the dirty water.
Water is considered a hypotonic solution when compared to solutions with higher solute concentrations, such as vinegar. In a hypotonic solution, the concentration of solutes outside the cell is lower than inside, causing water to move into the cell. Vinegar, primarily composed of acetic acid and water, has a higher concentration of solutes than pure water, making it more isotonic or hypertonic in comparison to cells.
Distilled water is hypotonic to potato.
Water is considered hypotonic because it has a lower solute concentration compared to the cytoplasm of most cells. When a cell is placed in a hypotonic solution like water, water molecules will move into the cell in an attempt to equalize solute concentrations, potentially causing the cell to swell or burst.
Water moves from a hypotonic solution to a hypertonic solution.
In this case the solution is hypotonic in relation to the cell. The cell swells up and ruptures as the water rushes in, and since the animal cell has no cell wall it cannot become turgid (stop letting in water), therefore the cell will rupture.
Water moves into a membrane-bound hypotonic vesicle through the process of osmosis. In a hypotonic solution, the concentration of solutes outside the vesicle is lower than inside, causing water to flow into the vesicle to balance the concentration gradient.
yes it is hypotonic to normal water. for more info, see is distilled water hypotonic or hypertonic.
hypotonic
yes.freshwater has high water potential,making it hypotonic