No, a hypertonic solution has less water compared to other types of solutions.
Yes, a hypotonic solution has a higher concentration of water compared to other solutions.
From NorthSeattle.edu (see link to the left):Tonicity1. Tonicity of aqueous solutions (water with solutes, such as salt, dissolved in it) is based on cellular responses to that solution.2. Solutions are isotonic if the cells or tissue neither shrink nor swell in response to immersion in that solution.3. Solutions are hypertonic if the cells or tissue shrink in response to immersion.4. Solutions are hypotonic if the cells or tissue swell in response to immersion.See the Web Links to the left for more information.
Soda is hypertonic, but it all depends what you are comparing it to. As long as the other solution you are using in the semi-permiable membrane has a lower number of solute particles than soda it is still Hypertonic.
The one that is lower is called hypotonic. But these are all comparisons between two things. There is another solution involved called isotonic. This one is equal to the one that you are comparing it with. Hypotonic means below and hypertonic means above some thing that you are comparing them with.
Liquid X is likely a hypertonic solution, meaning it has a higher solute concentration than the cells. When cells are placed in a hypertonic solution, water leaves the cells to try to equalize the concentration, causing them to shrink in a process called plasmolysis.
Hypotonic refers to a solution with a lower solute concentration compared to another solution, while hypertonic refers to a solution with a higher solute concentration. These terms describe the concentration of solutes in solutions relative to each other.
A hypersonic solution refers to a solution that has a higher concentration of solute compared to another solution. On the other hand, a hypotonic solution has a lower concentration of solute compared to another solution. Hypertonic solutions will cause water to flow out of a cell, while hypotonic solutions will cause water to flow into a cell.
When comparing two solutions, the solution with the greater concentration of solute is called hypertonic. This means that it has a higher solute concentration compared to the other solution.
Hypotonic and hypertonic describe the concentration of solutes in a solution compared to another solution. In a hypotonic solution, there is a lower concentration of solutes than in the other solution, while in a hypertonic solution, there is a higher concentration of solutes.
Yes, a hypotonic solution has a higher concentration of water compared to other solutions.
yes it is hypotonic to normal water. for more info, see is distilled water hypotonic or hypertonic.
The words isotonic, hypertonic, and hypotonic refer to the relationship between two solutions. - When two solutions are isotonic to one another, the two solutions have the same amount of solute as each other. - When a solution is hypertonic in reference to another solution, that solution has more solute than the other. - When a solution is hypotonic in reference to another solution, that solution has less solute than the other. - Thus, on a scale of INCREASING solutes, you could align three solutions like this: hypotonic --> isotonic --> hypertonic. Secondly, since substances move from a region of high concentration (more solute) to low concentration (less solute), remember that solutes will always move from a hypertonic solution to a hypotonic solution OR solvents will always move from a hypotonic solution to a hypertonic solution. A good way to remember this is to know that "hyper" means above (more than) and hypo means "below" (less than), e.g. in HYPERactive = being really energetic or more energetic than normal vs. HYPOthermia = being very cold or below the normal temperature. A way to figure out whether a solution is isotonic, hypertonic, or hypotonic in respect to another solution is to figure out the solutions tonacities. Tonacity is the measure of solute in a solution. Therefore, something hypertonic has more tonacity or more solute than another solution. Some people learn the term "solute potential," which has a similar concept to tonacity. Examples: A 0.4 mol glucose solution is isotonic to a 0.4 mol glucose solution. A 0.4 mol glucose solution is hypertonic to a 0.2 mol glucose solution. A 0.2 mol glucose solution is hypotonic to a 0.4 mol glucose solution.
From NorthSeattle.edu (see link to the left):Tonicity1. Tonicity of aqueous solutions (water with solutes, such as salt, dissolved in it) is based on cellular responses to that solution.2. Solutions are isotonic if the cells or tissue neither shrink nor swell in response to immersion in that solution.3. Solutions are hypertonic if the cells or tissue shrink in response to immersion.4. Solutions are hypotonic if the cells or tissue swell in response to immersion.See the Web Links to the left for more information.
Soda is hypertonic, but it all depends what you are comparing it to. As long as the other solution you are using in the semi-permiable membrane has a lower number of solute particles than soda it is still Hypertonic.
The one that is lower is called hypotonic. But these are all comparisons between two things. There is another solution involved called isotonic. This one is equal to the one that you are comparing it with. Hypotonic means below and hypertonic means above some thing that you are comparing them with.
Liquid X is likely a hypertonic solution, meaning it has a higher solute concentration than the cells. When cells are placed in a hypertonic solution, water leaves the cells to try to equalize the concentration, causing them to shrink in a process called plasmolysis.
Yes, osmosis can occur in an isotonic solution. In an isotonic solution, the concentration of solutes inside and outside the cell is the same, so there is no net movement of water across the cell membrane. This differs from osmosis in other types of solutions, such as hypertonic or hypotonic solutions, where there is a concentration gradient that causes water to move into or out of the cell to reach equilibrium.