In this video, we're going to introduce osmosis. Osmosis is a type of passive diffusion, which means that absolutely no energy is required for osmosis to occur. Osmosis is defined as the passive diffusion of a solvent across a semipermeable membrane. Recall that solvents are substances that dissolve other substances, and usually in biology, the solvent is going to be water. We can define osmosis as the passive diffusion of water across a semi-permeable membrane such as a biological membrane or a cell membrane. The direction that water will flow across that semipermeable membrane or biological membrane will depend on the tonicity of the solution. The tonicity is defined as the relative concentration of solute dissolved in the solutions.
When it comes to tonicity, there are three terms that you all should know, and they all end in 'tonic', which is just referring to the tenacity. The difference between these three terms is the prefix that comes right before it. The first term that you need to know is 'hypotonic'. 'Hypo' is a prefix that means low, and it even rhymes with low—'hypolo'. Hypotonic solutions are going to have lower solute concentrations. The second term you should know is 'isotonic'. 'Iso' is a prefix that means equal, so isotonic solutions are going to have an equal solute concentration. The third and final term you need to know is 'hypertonic'. Unlike 'hypo', which rhymes with low, 'hyper' connotes higher solute concentrations. 'Lower', 'equal', and 'higher' are words of comparison, requiring a comparison of at least two regions. These terms, hypotonic, isotonic, and hypertonic, should be used when comparing two regions.
The two regions we are typically going to compare are the inside of the cell, which is region number 1, and the second region, which is the solution on the outside of the cell. Down below, we label the tonicity of the outside solution relative to the inside of the cell. Notice, in the first scenario, there are two green solutes outside, but a much higher concentration inside. Thus, the outside has a lower solute concentration than the inside, making the outside hypotonic. Moving to the second scenario, the solute concentrations inside and outside are about equal, so the outside is isotonic with respect to the inside. In the third scenario, the outside has a higher solute concentration than the inside, making it hypertonic.
Now, looking at the inside: the first image shows the inside has a higher solute concentration, making it hypertonic. In the second image, the solute concentrations are equal, so the inside is also isotonic. Lastly, in the third image, the inside has a lower concentration, making it hypotonic. These terms are words of comparison between the outside and the inside of the cell. This concludes our introduction to osmosis. As we move forward, now that we know about tonicity, we can discuss the direction of water flow. We'll explore this further in our next video.