Osmosis (DP IB Biology)
Revision Note
Solvation & Water
A solution typically consists of a solute dissolved in a solvent
Water is a very good solvent because it is dipolar
The hydrogen side of the molecule is slightly positive while the oxygen side is slightly negative
This enables water molecules to form hydrogen bonds with other polar solute molecules and ions
Hydrogen bonding between water molecules is also considered at the start of the course, the notes can be found here
The interaction between a solvent, such as water, and a solute is known as solvation
Hydrogen bond and electron arrangement in water diagram
Water molecules are dipolar because electrons are distributed unevenly between the hydrogen and oxygen atoms
Polar solvents, such as water, can orientate themselves towards polar solutes and ions to form hydrogen bonds or ion-dipole forces
This creates hydration shells around each solute particle
Dipolar nature of water diagram
The dipole nature of water molecules allow them to form hydration shells around polar solutes and ions
Water Movement in Solutions
All cells are surrounded by a cell membrane which is partially permeable
Water can move in and out of cells by osmosis
Osmosis is the diffusion of water molecules from a less concentrated (dilute) solution to a more concentrated solution across a partially permeable membrane
In doing this, water is moving down its concentration gradient
The cell membrane is partially permeable which means it allows small molecules (like water) through but not larger molecules (like solute molecules)
Partially permeable membrane diagram
Osmosis and the partially permeable membrane.
Osmosis can also be described as 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
Movement of water diagram
The water moves from the region of lower solute concentration (dilute solution) to the region of higher solute concentration (concentrated solution)
If a cell is placed in a solution with a lower solute concentration (i.e. more dilute) than the cytoplasm of the cell, then there will be a net movement of water into the cell by osmosis
Solutions like this is referred to as being hypotonic
If however, the solution outside the cell has a higher solute concentration (i.e. more concentrated) than the cytoplasm of the cell, then there will be a net movement of water out of the cell
These solutions are said to be hypertonic
If the solute concentration is the same on both sides of the cell membrane, there will be no net movement of water into or out of the cell by osmosis
An solution with a similar concentration as the cytoplasm of a cell is referred to as an isotonic solution
Tonicity of solutions diagram
The net movement of water is determined by the relative solute concentration of the solution outside the cell
Examiner Tips and Tricks
Take note that water molecules are always moving into and out of cells due to the kinetic energy that the molecules possess. It is therefore incorrect to say that there would be no movement of water if a cell is placed in an isotonic solution. There would be no net movement of water in a particular direction in that case.
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