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When the concentration of dissolved particles outside the cell is equal to the concentration of dissolved particles inside the cell the cell is what?
When the concentration of dissolved particles outside the cell is equal to the concentration inside the cell, the cell is in a state of equilibrium, also known as isotonic conditions. In this state, water moves in and out of the cell at equal rates, resulting in no net change in cell size or shape. This balance is crucial for maintaining cellular function and overall homeostasis.
What do you call the phenomenon when you have a different concentration of materials on the inside and the outside of the cell?
The phenomenon of having different concentrations of materials inside and outside a cell is called a concentration gradient. This difference in concentration can drive the movement of substances across the cell membrane through processes such as diffusion or osmosis. It plays a crucial role in cellular functions and maintaining homeostasis.
When materials pass into and out of a cell at equal rates there is no net change in concentration inside the cell?
When materials pass into and out of a cell at equal rates, it means there is an equilibrium in concentration inside and outside the cell. This equilibrium prevents a net change in concentration inside the cell, maintaining stability in the cell's internal environment.
What is a solution in which the concentration of dissolved substances is lower than the concentration inside the cell?
the answer to this question is : hypotonic solution
What do you call the phenomenon when you have a different concentration of materials on the inside and outsideof the cell?
The phenomenon of having different concentrations of materials inside and outside of a cell is called a concentration gradient. This gradient is crucial for processes like diffusion and osmosis, where substances move from areas of higher concentration to areas of lower concentration to achieve equilibrium. It plays a vital role in cellular functions and maintaining homeostasis.
What is the relationship of dissolved materials inside and outside the cell in a isotonic hypertonic and hypotonic solutions?
In an isotonic solution, the concentration of dissolved materials inside and outside the cell is the same, resulting in no net movement of water. In a hypertonic solution, the concentration of dissolved materials outside the cell is higher than inside, causing water to leave the cell and leading to cell shrinkage. In a hypotonic solution, the concentration of dissolved materials outside the cell is lower than inside, causing water to enter the cell and potentially leading to cell swelling or bursting.
When the concentration of dissolved particles outside the cell is equal to the concentration of dissolved particles inside the cell the cell is what?
When the concentration of dissolved particles outside the cell is equal to the concentration inside the cell, the cell is in a state of equilibrium, also known as isotonic conditions. In this state, water moves in and out of the cell at equal rates, resulting in no net change in cell size or shape. This balance is crucial for maintaining cellular function and overall homeostasis.
What is cells solution in which the concentration of dissolved substance in the solution is the same as concentration of dissolved substance inside a cell?
isotonic
What kind of environment is described when the concentration of dissolved substances is greater inside the cell or outside?
When greater than the cell it is hypertonic lower it is hypotonic
What do you call the phenomenon when you have a different concentration of materials on the inside and the outside of the cell?
The phenomenon of having different concentrations of materials inside and outside a cell is called a concentration gradient. This difference in concentration can drive the movement of substances across the cell membrane through processes such as diffusion or osmosis. It plays a crucial role in cellular functions and maintaining homeostasis.
When materials pass into and out of a cell at equal rates there is no net change in concentration inside the cell?
When materials pass into and out of a cell at equal rates, it means there is an equilibrium in concentration inside and outside the cell. This equilibrium prevents a net change in concentration inside the cell, maintaining stability in the cell's internal environment.
What happens when the concentration of dissolved substances is greater outside the cell than inside?
Water will move out of the cell in an attempt to equalize the concentration of dissolved substances, causing the cell to shrink or shrivel up. This process is known as crenation, and can have negative effects on the cell's functioning.
What is the difference in chloride concentration inside and outside the cell?
The chloride concentration is higher outside the cell than inside the cell.
What is the solution concentration of dissolved substances will be greater in the cell than in the solution in which it is placed?
The solution concentration of dissolved substances will be greater inside the cell than outside if the cell is in a hypertonic solution. This causes water to move out of the cell, leading to shrinkage or crenation of the cell.
What is a solution in which the concentration of dissolved substances is lower than the concentration inside the cell?
the answer to this question is : hypotonic solution
The concentration of material is greater on the outside of the cell than the inside in what solution?
The concentration of material is greater on the outside of the cell than the inside in a hypertonic solution. In this solution, there is a higher concentration of solutes outside the cell compared to inside, causing water to move out of the cell, leading to cell shrinkage.
What kind of solution exists when the substances dissolved outside the cell are more abundant than those in the cytoplasm?
When solute concentration is higher on the outside of the cell, the cell is said to be in a hypertonic solution. This will result in the diffusion of water from inside the cell to outside the cell.
