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9.1: Mixtures and Solutions

  • Page ID
    86237
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    Learning Objectives

    • Describe the difference between homogenous and heterogenous mixtures.
    • Distinguish a homogenous mixture as a solution or colloid.

    As introduced previously, mixtures are combinations of two or more substances that each retain their individual physical properties. A mixture can be classified as either heterogenous or homogenous. In a heterogeneous mixture, the composition is not uniform throughout the sample, and sometimes the individual substances that make up the mixture can be differentiated by eye. Trail mix, salad, and blood (which is also called a suspension) are examples of heterogenous mixtures. Homogenous mixtures are uniform and have the same composition throughout. Air, simple syrup, and seawater are examples of homogenous mixtures.

    Homogenous mixtures can be further classified, based on the size of their particles, as solutions or colloids. Solutions are composed of particles the size of an ion or small molecule, ~0.1-2.0 nm. The examples provided above are all considered solutions; air is a solution of small gas molecules, simple syrup is a solution of sucrose in water, and seawater is a solution of ions and water. Homogenous mixtures with larger particles, ~2.0-500 nm, are classified as colloids. Milk, fog, and butter are all considered colloids. Mixtures with particles larger than 500 nm are called suspensions and are considered to be heterogenous mixtures in which the particles will settle upon standing. Many medications are classified as suspensions that need to be re-mixed before taking in order to redistribute the particles throughout the mixture. Some examples and distinguishing characteristics of solutions, colloids, and suspensions are listed in Table \(\PageIndex{1}\) below.

    Table \(\PageIndex{1}\): Properties of Liquid Solutions, Colloids, and Suspensions
    Type of Mixture Approximate Size of Particles (nm) Characteristic Properties Examples
    solution < 2 not filterable; does not separate on standing; does not scatter visible light air, white wine, gasoline, salt water
    colloid 2–500 scatters visible light; translucent or opaque; not filterable; does not separate on standing smoke, fog, ink, milk, butter, cheese
    suspension 500–1000 cloudy or opaque; filterable; separates on standing muddy water, hot cocoa, blood, paint

    The major component of a solution, called the solvent, is typically the same phase as the solution itself. Each minor component of a solution (and there may be more than one) is called the solute. In most of the solutions we will describe in this textbook, there will be no ambiguity about whether a component is the solvent or the solute. For example, in a solution of salt in water, the solute is salt, and solvent is water.

    Solutions come in all phases, and the solvent and the solute do not have to be in the same phase to form a solution (such as salt and water). For example, air is a gaseous solution of about 80% nitrogen and about 20% oxygen, with some other gases present in much smaller amounts. An alloy is a solid solution consisting of a metal (like iron) with some other metals or nonmetals dissolved in it. Steel, an alloy of iron and carbon and small amounts of other metals, is an example of a solid solution. Table \(\PageIndex{2}\) lists some common types of solutions, with examples of each.

    Table \(\PageIndex{2}\): Types of Solutions
    Solvent Phase Solute Phase Example
    gas gas air
    liquid gas carbonated beverages
    liquid liquid ethanol (C2H5OH) in H2O (alcoholic beverages)
    liquid solid saltwater
    solid gas H2 gas absorbed by Pd metal
    solid liquid Hg(ℓ) in dental fillings
    solid solid steel alloys

    9.1: Mixtures and Solutions is shared under a CC BY-NC-SA 3.0 license and was authored, remixed, and/or curated by LibreTexts.

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