A cell wall made of collagen, which surrounds the plasma membrane. Animal cells do not have a cell wall.
Hypotonic solutions can be found in both animal and plant cells. In a hypotonic solution, the concentration of solutes outside the cell is lower than inside the cell, causing water to move into the cell. This can lead to swelling and potentially bursting of the cell if not regulated properly by the cell.
"hypertonic"
That is not a question.Blood cells burst in hypotonic solutions because there is no equilibrium. therefore, since the solution outside of the blood cell is at a higher concentration, the solution will flow into the blood cell ( high to low concentration) and cause the cell to expand. The blood cell will burst if too much solution enters the cell.
The ideal osmotic environment for an animal cell is isotonic, where the concentration of solutes inside the cell is the same as outside the cell. This prevents the cell from taking in too much water (bursting) or losing too much water (shriveling).
Plant cells have a rigid cell wall composed of cellulose that provides structural support and prevents the cell from bursting in a hypotonic solution. The cell wall exerts an outward pressure known as turgor pressure, which balances the osmotic pressure of the solution to maintain cell shape and prevent bursting.
The contractile vacuole in some animal cells helps regulate osmotic pressure by actively pumping out excess water that enters the cell in a hypotonic solution. This prevents the cell from bursting due to the influx of water.
What can happen to animal cells when placed in a hypotonic solution explain
Hypotonic solutions can be found in both animal and plant cells. In a hypotonic solution, the concentration of solutes outside the cell is lower than inside the cell, causing water to move into the cell. This can lead to swelling and potentially bursting of the cell if not regulated properly by the cell.
"hypertonic"
Animal cells will burst (lyse) first in a hypotonic solution because they lack a cell wall.
That is not a question.Blood cells burst in hypotonic solutions because there is no equilibrium. therefore, since the solution outside of the blood cell is at a higher concentration, the solution will flow into the blood cell ( high to low concentration) and cause the cell to expand. The blood cell will burst if too much solution enters the cell.
The ideal osmotic environment for an animal cell is isotonic, where the concentration of solutes inside the cell is the same as outside the cell. This prevents the cell from taking in too much water (bursting) or losing too much water (shriveling).
Plant cells have a rigid cell wall composed of cellulose that provides structural support and prevents the cell from bursting in a hypotonic solution. The cell wall exerts an outward pressure known as turgor pressure, which balances the osmotic pressure of the solution to maintain cell shape and prevent bursting.
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.
Osmosis is the diffusion of water - and a hypotonic solution means it expands. a plant cell sap has a lower water potential causing the water to enter the cell - it does not fight osmosis, it works with it.
Osmosis works for any type of cell. Because of a lower concentration of solute inside the cell then out, the water would rush to where the solute is in an attempt to make it even. It would retain its shape because of its cell wall making it rigid which is absent in animal cells which is prone to swelling and making it burst.
Both types of cells will have endo-osmosis and will become turgid