The solution of equal solute concentration compared to its surroundings is called an isotonic solution. In an isotonic environment, the concentration of solutes is the same inside and outside of a cell, resulting in no net movement of water across the cell membrane. This balance helps maintain cell shape and function.
A relatively low solute concentration is called hypotonic. In a hypotonic solution, there is a lower concentration of solutes compared to the cell, leading to water moving into the cell through osmosis.
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.
A solution that causes a cell to shrink due to a high concentration of solute in the surrounding solution is called a hypertonic solution. In this scenario, water moves out of the cell and into the surrounding solution in an attempt to balance the solute concentrations on both sides of the cell membrane. As a result, the cell loses water and shrivels or shrinks. This process is known as osmosis.
A solution with the same solute concentration as another (e.g. human body fluids) is called isotonic.
A small amount of solute in solvent is called a dilute solution. This means the concentration of the solute is low compared to the amount of solvent.
A relatively low solute concentration is called hypotonic. In a hypotonic solution, there is a lower concentration of solutes compared to the cell, leading to water moving into the cell through osmosis.
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.
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 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.
The term used to describe a solution that has a lower concentration of solutes compared to another solution is "hypotonic." In a hypotonic solution, there are fewer solute particles relative to the solvent, leading to a lower osmotic pressure. This can result in water moving into the hypotonic solution through a process called osmosis, causing cells in the solution to swell or even burst.
A solution that causes a cell to shrink due to a high concentration of solute in the surrounding solution is called a hypertonic solution. In this scenario, water moves out of the cell and into the surrounding solution in an attempt to balance the solute concentrations on both sides of the cell membrane. As a result, the cell loses water and shrivels or shrinks. This process is known as osmosis.
A solution with the same solute concentration as another (e.g. human body fluids) is called isotonic.
the answer to this question is : hypotonic solution
The term "hypertonic solution" is used to describe a solution with a higher solute concentration compared to another solution. In a hypertonic solution, water tends to move out of cells, which can lead to cell shrinkage or crenation.
A small amount of solute in solvent is called a dilute solution. This means the concentration of the solute is low compared to the amount of solvent.
A solution that has only a little solute is called a dilute solution. In a dilute solution, the concentration of the solute is low compared to the solvent. The amount of solute in the solution is relatively small.
The type of solution formed by creek water after heavy rain is called a dilute solution. This means that the concentration of solutes in the water is low compared to the solvent.