Placing a leaf in distilled water would allow water to enter the leaf through osmosis, leading to an increase in turgor pressure within the cells. This influx of water could cause the leaf to become turgid and firm.
Tap water contains dissolved minerals that can help provide structural support to plant cells, while distilled water lacks these minerals. Therefore, tap water can potentially help plants stay crisper by providing more stability to their cells.
The cells of the apple pieces will lose water through osmosis due to the higher concentration of salt in the water compared to the inside of the cells. This will cause the cells to shrink and become dehydrated, potentially leading to wilting and a change in texture.
Distilled water would have a higher concentration of water molecules compared to red blood cells. Red blood cells have solutes dissolved in them, so they have a lower concentration of water molecules relative to distilled water. This concentration gradient would result in osmosis moving water into the red blood cells to equalize the concentrations.
The distilled water is a hypotonic environment.
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They would change in volume.
If a cucumber is placed in distilled water, the water molecules will flow into the cell by osmosis. This happens because the distilled water solution has a lower osmotic pressure than the cucumber cell.
Your question is confusing, did you mean "distilled" water? Your body & cells live and function not in a pure water environment, but water with several electrolytes in specific concentrations: sodium, potassium, calcium, chloride and several others. If you placed red blood cells into pure water (distilled water) that did not have any of the electrolytes mentioned above, the distilled water would enter the blood cells through the process of osmosis. The basic idea of osmosis is that if there is a chemical gradient and a permeable membrane separating this gradient, there will be a transfer of water trying to reach an equillibrium. The solution in your red blood cells would be hyperosmotic compared to the distilled water. The cell membranes are semi-permeable, and would allow some of the distilled water to enter the cell, trying to balance the osmolarity. The effect would be that the red blood cells would swell with distilled water and likely burst--like an over-filled water balloon. If enough red blood cells were to pop, they could release enough electrolytes into the distilled water to keep other red blood cells from swelling and popping.
If the vacuoles in Elodea leaf cells are placed in distilled water, they become hypotonic. Distilled water has a lower solute concentration compared to the vacuoles of the cells, causing water to move into the cells through osmosis, leading to swelling and eventual bursting of the cells.
Placing a leaf in distilled water would allow water to enter the leaf through osmosis, leading to an increase in turgor pressure within the cells. This influx of water could cause the leaf to become turgid and firm.
Tap water contains dissolved minerals that can help provide structural support to plant cells, while distilled water lacks these minerals. Therefore, tap water can potentially help plants stay crisper by providing more stability to their cells.
No, immersion of the hand in distilled water will not cause cells to lyse. Distilled water does not contain any ions or solutes that would create an osmotic gradient across the cell membrane. Therefore, there is no osmotic pressure to cause the cells to rupture.
The cells of the apple pieces will lose water through osmosis due to the higher concentration of salt in the water compared to the inside of the cells. This will cause the cells to shrink and become dehydrated, potentially leading to wilting and a change in texture.
Distilled water would have a higher concentration of water molecules compared to red blood cells. Red blood cells have solutes dissolved in them, so they have a lower concentration of water molecules relative to distilled water. This concentration gradient would result in osmosis moving water into the red blood cells to equalize the concentrations.
The distilled water is a hypotonic environment.
Carrots placed in distilled water will become limp or wilted as they lose water due to osmosis. The concentration of solutes inside the carrot cells is higher than that of the distilled water, causing water to move out of the cells, leading to the wilting effect.