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In a hypotonic solution, the concentration of solutes outside the cell is lower than inside the cell, leading to water moving into the cell by osmosis. This influx of water causes the cell to swell and can potentially lead to lysis (bursting) if the difference in concentration is significant. Since the external environment has fewer solutes, there is less tendency for the cell to absorb additional solute; instead, it primarily takes in water to balance the osmotic pressure. Therefore, cells don't absorb solute but rather focus on managing the water influx.
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What is hypotonic solution?
A hypotonic solution has a lower solute concentration compared to the cells it surrounds. When cells are exposed to a hypotonic solution, water will move into the cells through osmosis, causing them to swell or potentially burst.
When placed in a hypotonic solution what will happen to the cell?
If cells are placed in a hypotonic solution the cells gain water. The hypotonic solution has lower solute concentration then the cell's cytoplasm so the water will enter via osmosis.
Hypotonic solutions have high solute and high water compared to another solution?
Hypotonic solutions have a lower concentration of solutes compared to the cells or another solution they are being compared to, which means they contain more water relative to solute. When cells are placed in a hypotonic solution, water tends to move into the cells, causing them to swell and potentially burst. This is in contrast to hypertonic solutions, which have a higher solute concentration and can cause cells to shrink as water moves out. Thus, hypotonic solutions are characterized by a higher water concentration relative to solute compared to another solution.
If two solutions have unequal concentrations of solute what is the solution with the the lower concentration?
The solution with the lower concentration of solute is referred to as the hypotonic solution. In a comparison of two solutions, the hypotonic solution has fewer solute particles per unit volume, leading to a higher concentration of water compared to the other solution, which is termed hypertonic. When placed in a hypertonic environment, a hypotonic solution will tend to lose water, potentially causing cells to shrink.
How do cells respond to environments with different solute concentrations?
There are three types of solute concentrations, Isotonic, Hypotonic and Hypertonic. The prefix refers to how much solute is in the solution as compared to the inside of the cell. In Isotonic, the cell and solution have the same concentration of solute, so the cell stays the same size. In Hypertonic, the cell has less solute than the solution, and therefore gives water to to balance out and shrivels. In Hypotonic, the cell has more solute than the solution, and accepts water from the solution, thereby swelling, which is potentially beneficial in plant cells but can destroy animal cells. I hope this answers your questions. Isotonic is the best for animals, hypotonic is the best for plants.
What is hypotonic solution?
A hypotonic solution has a lower solute concentration compared to the cells it surrounds. When cells are exposed to a hypotonic solution, water will move into the cells through osmosis, causing them to swell or potentially burst.
Which solution has more solute-hypo or hypertonic?
A hypertonic solution has more solute compared to a hypotonic solution. In a hypertonic solution, the concentration of solutes is higher, causing water to move out of the cells. In a hypotonic solution, the concentration of solutes is lower, which leads to water moving into the cells.
When placed in a hypotonic solution what will happen to the cell?
If cells are placed in a hypotonic solution the cells gain water. The hypotonic solution has lower solute concentration then the cell's cytoplasm so the water will enter via osmosis.
Hypotonic solutions have high solute and high water compared to another solution?
Hypotonic solutions have a lower concentration of solutes compared to the cells or another solution they are being compared to, which means they contain more water relative to solute. When cells are placed in a hypotonic solution, water tends to move into the cells, causing them to swell and potentially burst. This is in contrast to hypertonic solutions, which have a higher solute concentration and can cause cells to shrink as water moves out. Thus, hypotonic solutions are characterized by a higher water concentration relative to solute compared to another solution.
What is the term used to describe a solution that has a lower concentration of solutes compared to another solution?
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.
If two solutions have unequal concentrations of solute what is the solution with the the lower concentration?
The solution with the lower concentration of solute is referred to as the hypotonic solution. In a comparison of two solutions, the hypotonic solution has fewer solute particles per unit volume, leading to a higher concentration of water compared to the other solution, which is termed hypertonic. When placed in a hypertonic environment, a hypotonic solution will tend to lose water, potentially causing cells to shrink.
What correctly describes the normal tonicity conditions for typical plant and animal cells?
Typical plant cells have a tonicity that is hypotonic to their environment, meaning they have a higher solute concentration than the surrounding environment. In contrast, typical animal cells have a tonicity that is isotonic to their environment, meaning their internal and external solute concentrations are balanced.
How do cells respond to environments with different solute concentrations?
There are three types of solute concentrations, Isotonic, Hypotonic and Hypertonic. The prefix refers to how much solute is in the solution as compared to the inside of the cell. In Isotonic, the cell and solution have the same concentration of solute, so the cell stays the same size. In Hypertonic, the cell has less solute than the solution, and therefore gives water to to balance out and shrivels. In Hypotonic, the cell has more solute than the solution, and accepts water from the solution, thereby swelling, which is potentially beneficial in plant cells but can destroy animal cells. I hope this answers your questions. Isotonic is the best for animals, hypotonic is the best for plants.
Effect of hypotonic?
A hypotonic solution (meaning the salt concentration is lower outside the cell than it is on the inside) will effectively burst your cells due to the water rushing in to diffuse in the salt in your cells.
A solution that contains a lower concentration of salt than living red blood cells would be?
A solution containing a lower concentration of salt than living red blood cells would be a hypotonic solution. This means that the solution has a lower solute concentration compared to the red blood cells, causing them to swell and potentially burst due to the influx of water.
What can happen to animal cells when placed in a hypotonic solution explain?
What can happen to animal cells when placed in a hypotonic solution explain
Is water isotonic hypotonic or hypertonic?
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.
