the cells becom dehydrated and looses its turgidity.In plants,the leaves looses turgidity and wilts.in animals and humans it creates an imbalance in cell reactions causing deficiency in energy supply to the body.
it will eventually burst
When too much water moves into a cell, it can cause the cell to swell and potentially burst. This process is known as lysis and can be harmful to the cell's structure and function. Cells regulate their water content through osmosis to maintain a balance and prevent lysis.
If a cell is dropped into pure water, water will enter the cell by osmosis. This can cause the cell to swell and potentially burst due to the increased pressure within the cell.
Water moves out of the cell in hypertonic solution.
In a hypertonic solution, the cell wall will shrink away from the cell membrane due to water leaving the cell. In an isotonic solution, the cell wall maintains its shape as water moves in and out of the cell in equilibrium. In a hypotonic solution, the cell wall will swell as water moves into the cell, increasing the pressure inside the cell.
it shrinks
it will eventually burst
it dies
Hypotonic Solution
When too much water moves into a cell, it can cause the cell to swell and potentially burst. This process is known as lysis and can be harmful to the cell's structure and function. Cells regulate their water content through osmosis to maintain a balance and prevent lysis.
If a cell is dropped into pure water, water will enter the cell by osmosis. This can cause the cell to swell and potentially burst due to the increased pressure within the cell.
It shrinks as water moves out of the cell.
When you don't drink enough water, you get dehidrated. That leads to ecssesive vomiting , if you wait over 2 weeks,death can happen.When a cell is in a low water environment. Water moves down its concentration gradient out of the cell. The cell shrinks and dies.
Water moves out of the cell in hypertonic solution.
The cell will be very turgid and stiff.
In a hypertonic solution, the cell wall will shrink away from the cell membrane due to water leaving the cell. In an isotonic solution, the cell wall maintains its shape as water moves in and out of the cell in equilibrium. In a hypotonic solution, the cell wall will swell as water moves into the cell, increasing the pressure inside the cell.
When cells are placed in a higher concentration of water (a hypotonic solution), water will move into the cell through osmosis, causing the cell to swell and potentially burst (lyse). This can disrupt the cell's internal environment and lead to cell damage or death.