Osmosis (Edexcel AS Biology (A) SNAB): Revision Note
Osmosis
All cells are surrounded by a cell surface membrane which is partially permeable
Water can move in and out of cells across the cell surface membrane by a process called osmosis
Osmosis is the net movement of water molecules from a region of lower solute concentration to a region of higher solute concentration through a partially permeable membrane
Water molecules move from a dilute solution to a concentrated solution
In doing this, water is moving down its concentration gradient, so osmosis is a specialised form of diffusion
Water molecules will move from an area of more free water molecules to an area of fewer free water molecules
Water molecules are considered 'free' when they are not surrounding substances in a solution; when a substance dissolves it becomes surrounded by water molecules; such water molecules are no longer free and cannot move through a membrane readily
Cell membranes are partially permeable, allowing small molecules like water through but not larger molecules such as solutes
Although water molecules are polar they can still pass through the bilayer because of their small size.
Osmosis is the movement of water molecules from a dilute to a concentrated solution through a partially permeable membrane
Osmosis is the movement of water molecules down their concentration gradient. Note that 'water potential' is a term used to describe the number of free water molecules present.
Osmosis is important because it constantly affects the cells of living organisms
Cell cytoplasm consists of water and dissolved substances
Cells lose or take on water depending on the number of free water molecules in their surroundings in comparison to their cytoplasm
When cells are placed in pure water, which has the highest possible number of free water molecules, water moves into the cells by osmosis and the cells swell
In animal cells this could lead to cell bursting
In plant cells the cell wall prevents bursting
When cells are placed into a solution that has a smaller number of free water molecules than their cytoplasm, e.g. a concentrated glucose solution, water moves out of the cells by osmosis and the cells shrink
In animal cells the entire cell shrivels
In plant cells the vacuole and cytoplasm shrink but the cell wall maintains the overall shape of the cell
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