6: Intermolecular Forces and Solutions

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6.1: Forces between Molecules
Remember that in a liquid or solid the particles are touching one another (unlike in a gas where there is a large amount of space between particles). In this section you will learn about intermolecular forces which are the attractions that hold molecules together so that they are touching in solids and liquids.
6.2: Solutions - Homogeneous Mixtures
There are two types of mixtures: mixtures in which the substances are evenly mixed together (called a solution) and a mixture in which the substances are not evenly mixed (called a heterogeneous mixture). A solution is an even (or homogeneous) mixture of substances. A point should be made here that when a solution is said to have uniform properties throughout, the definition is referring to properties at the particle level.
6.3: Passive Transport - Osmosis
Osmosis is the movement of water through a semipermeable membrane according to the concentration gradient of water across the membrane, which is inversely proportional to the concentration of solutes. Semipermeable membranes, also termed selectively permeable membranes or partially permeable membranes, allow certain molecules or ions to pass through by diffusion.
6.4: Passive Transport - Tonicity
Tonicity describes how an extracellular solution can change the volume of a cell by affecting osmosis. A solution’s tonicity often directly correlates with the osmolarity of the solution. Osmolarity describes the total solute concentration of the solution. A solution with low osmolarity has a greater number of water molecules relative to the number of solute particles; a solution with high osmolarity has fewer water molecules with respect to solute particles.
6.5: Other Properties of Solutions
Certain properties of solutions differ from those of pure solvents in predictable ways.

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