You currently have JavaScript disabled on this browser/device. JavaScript must be enabled in order for this website to function properly.

ZingPath: Mixtures

Separation of Mixtures

Searching for


Learn in a way your textbook can't show you.
Explore the full path to learning Mixtures

Lesson Focus

Separation of Mixtures

Physical Science

Learning Made Easy

You will identify the homogeneous and heterogeneous mixtures and you will determine the appropriate method to separate them.

Over 1,200 Lessons: Get a Free Trial | Enroll Today

Now You Know

After completing this tutorial, you will be able to complete the following:

  • Describe a homogeneous mixture as a substance having uniform composition or structure.
  • Describe a heterogeneous mixture as a substance having variable composition or structure.
  • Describe the following three methods to separate mixtures: distillation, filtration, and separatory funnel.

Everything You'll Have Covered

A mixture is a combination of two or more substances that are not chemically combined. Since they still retain their own chemical properties, they can be separated by physical means. Mixtures fall into two different categories, homogeneous and heterogeneous. Homogeneous mixtures appear to be the same throughout (such as salt water). Heterogeneous mixtures have a variable composition throughout the mixture (such as sand).

Often, mixtures may need to be separated into their component substances. When separated, the individual substances will retain their chemical properties. Multiple methods may be used to separate mixtures including filtration, distillation, and separation funnels.

Filtration is a method most commonly used to separate a solid-liquid mixture, where the solid has not dissolved but is suspended. Filter paper is placed on top a collection devises, and the mixture is poured into the filter paper. The solid will remain in the filter, and the liquid will run through the paper and into the collection device.

Distillation is a method that can separate a variety of mixtures including a solid-liquid solution, and two liquids with different boiling points. The liquid is placed in the distillation apparatus and heated. One of the components of the mixture vaporizes while the other remains in the initial container. The vapor moves into a collection tube, which cools the vapor, condensing it into a liquid. The condensed liquid is then collected in a separate container. Each component of the mixture is now separated and in individual containers.

Separation funnels are used with two liquids that have different densities. The mixture is poured into the separation funnel where the liquids separate by densities. The stopcock is opened to allow the more dense fluid to run through. When the first liquid completely runs through, the stopcock is shut and the two liquids are separated.

Tutorial Details

Approximate Time 20 Minutes
Pre-requisite Concepts Students should be familiar with solutions.
Course Physical Science
Type of Tutorial Concept Development
Key Vocabulary distillation, filtration, heterogeneous