When a plant is placed in a hypnotic solution, it may exhibit altered growth patterns, changes in leaf morphology, or other physiological responses. The solution could affect the plant's hormone balance, leading to unusual behaviors or growth. However, the long-term effects of such treatment on the plant's health and well-being are not well understood.
When placed in an isotonic solution (i.e. a solution where the concentration of water molecules is roughly equal to the that within cells), there is equal diffusion of water into and out of the cells. Therefore, the cells find this environment suitable. In a hypotonic solution (i.e. a solution where the concentration of water molecules is much more than that within cells) water diffuses into cells as a result of which the cells swell. Excessive swelling causes the cells to burst, a phenomenon called cell lysis In a hypertonic solution (i.e. a solution where the concentration of water molecules is lesser than that within cells) water moved out from within cells to the surrounding medium. As a result of this, cells shrink.
When plant cells are not in distilled water, they may experience different effects depending on the surrounding solution's concentration. If placed in a hypertonic solution (higher solute concentration), water will exit the cells, leading to plasmolysis, where the cell membrane pulls away from the cell wall. In a hypotonic solution (lower solute concentration), water will enter the cells, potentially causing them to swell and become turgid. In isotonic conditions, there would be no net movement of water, and the cells would maintain their normal shape and function.
Not just plant cells, all cells with semi-permeable membranes loose water when placed in a more highly concentrated solution.
You can tell that plant cells are undergoing osmosis if they swell or shrink. When plant cells are placed in a hypertonic solution, they lose water and shrink. Conversely, when they are placed in a hypotonic solution, they gain water and swell. These changes in cell size indicate that osmosis is occurring.
When a plant is placed in a hypnotic solution, it may exhibit altered growth patterns, changes in leaf morphology, or other physiological responses. The solution could affect the plant's hormone balance, leading to unusual behaviors or growth. However, the long-term effects of such treatment on the plant's health and well-being are not well understood.
Both types of cells will have endo-osmosis and will become turgid
When a plant cell is placed in an hypotonic solution it becomes swollen and hard. The cell takes in water by osmosis and starts to swell, but the cell wall prevents it from bursting.
Botany, plant biology and micro-biology describes what happens in plant cells
Chloroplasts is where photosynthesis happens in plant cells.
They are horny
it dies
When placed in an isotonic solution (i.e. a solution where the concentration of water molecules is roughly equal to the that within cells), there is equal diffusion of water into and out of the cells. Therefore, the cells find this environment suitable. In a hypotonic solution (i.e. a solution where the concentration of water molecules is much more than that within cells) water diffuses into cells as a result of which the cells swell. Excessive swelling causes the cells to burst, a phenomenon called cell lysis In a hypertonic solution (i.e. a solution where the concentration of water molecules is lesser than that within cells) water moved out from within cells to the surrounding medium. As a result of this, cells shrink.
When plant cells are not in distilled water, they may experience different effects depending on the surrounding solution's concentration. If placed in a hypertonic solution (higher solute concentration), water will exit the cells, leading to plasmolysis, where the cell membrane pulls away from the cell wall. In a hypotonic solution (lower solute concentration), water will enter the cells, potentially causing them to swell and become turgid. In isotonic conditions, there would be no net movement of water, and the cells would maintain their normal shape and function.
You can observe osmosis in plant cells by placing a plant cell in a hypertonic or hypotonic solution and observing any changes in cell size and shape due to the movement of water. Hypertonic solution will cause cell to shrink (plasmolysis) and hypotonic solution will cause cell to swell. You can use a microscope to observe these changes in plant cells during osmosis.
Not just plant cells, all cells with semi-permeable membranes loose water when placed in a more highly concentrated solution.
it happens in the chloroplasts of the plant cells