When a plant cell loses water it will undergo a condition called plasmolysis. This condition only happens in the extreme condition and rarely happens in the natural conditions.
that happens when osmosis occurs
equilibrium readjusts itself and a new equilibrium is established
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.
][][][
Your equilibrium loses track of a balance point, thus your body reacts the same
When a plant cell loses water it will undergo a condition called plasmolysis. This condition only happens in the extreme condition and rarely happens in the natural conditions.
that happens when osmosis occurs
chemical equilibrium maintained by the cell
it becomes a positive ion. apex
When a cell loses its shape, it may lose its ability to function properly. The shape of a cell is important for its function, as it affects processes such as cellular movement, division, and communication with other cells. A loss of cell shape can also indicate damage or dysfunction within the cell.
When a cell loses a lot of water, it can shrink and become dehydrated, leading to changes in its shape and function. This process is known as plasmolysis and can impair the cell's ability to carry out normal biological processes due to the loss of turgor pressure.
if the plant cell is in concentrated water...it shrinks .i.e the water in plant cell flows out and hence the plant cell loses its turgidity and shrinks.this process is called exosmosis .
equilibrium readjusts itself and a new equilibrium is established
The cell is in a state of dynamic equilibrium. This means that while molecules are constantly moving in and out of the cell, there is no overall change in the concentration inside the cell because the rate of movement in both directions is equal.
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.
][][][