Using Flame Tests to Identify Metal Ions Video

An error occurred trying to load this video.

Try refreshing the page, or contact customer support.

Coming up next: Using Sodium Hydroxide Solution to Identify Metal Ions

You're on a roll. Keep up the good work!

Take Quiz Watch Next Lesson
Your next lesson will play in 10 seconds
  • 0:04 What Is a Flame Test?
  • 0:55 How Does the Flame Test Work?
  • 2:49 How Do You Use a Flame Test?
  • 3:56 Lesson Summary
Save Save Save

Want to watch this again later?

Log in or sign up to add this lesson to a Custom Course.

Log in or Sign up

Speed Speed

Recommended Lessons and Courses for You

Lesson Transcript
Instructor: Amanda Robb
In this lesson, we'll be learning how to use the flame test to identify different metal ions. By the end, you'll be able to explain how to do the test and predict which metals will produce which color flames.

What Is a Flame Test?

Picture a New Year's Eve celebration. You can't wait to see the fabulous fireworks display. As you all count down to the New Year, bursts of light dazzle the sky. Bright reds, oranges, blues, and greens explode, leaving a light haze in the air.

Have you ever thought about what makes those brilliant colors? Surprisingly, all that fun comes down to chemistry. Inside fireworks are different metals, and when they are ignited they give off different colored light.

Chemists use this same principle to determine the identity of unknown metals using a flame test. During a flame test, chemists take an unknown metal and put it under a flame. The flame will turn different colors based on which metal is in the substance. The scientists can then identify their unknown substance. Let's take a detailed look at how this works.

How Does the Flame Test Work?

Metals are composed of individual atoms, which contain a nucleus of protons and neutrons and outer shells of electrons, which float freely around the nucleus. Metal atoms usually exist as ions, or an atom with a charge. Metal ions are usually cations, meaning they carry a positive charge.

The electrons of metal ions circle the nucleus in layers called orbitals. As the orbitals get farther away from the nucleus, their energy level increases. Electrons need to absorb energy to move to a higher energy orbital.

As it turns out, this is exactly what happens during the flame test. During the flame test, metal ions are exposed to thermal energy, or heat, from the flame. The electrons in the outer orbital absorb the energy and temporarily bounce to a higher energy level. However, the electrons don't stay put there. Eventually, they fall back to their original, ground energy level. As they fall back to the lower energy level, they release the energy they absorbed as light.

Light can be all different colors, depending on a property of light waves, called wavelength. Wavelength is the distance between peaks on the light waves. Light with longer wavelengths appears red, and light with shorter wavelengths appears purple.

Metals all have different configurations of electrons, which will produce different wavelengths of light during the flame test. The different wavelengths are seen as different colors. Thus, each particular metal will give off a characteristic color of light, which makes the flame change colors. Lithium is a metal that produces light with a longer wavelength during the flame test, which makes the flame turn red. Substances containing sodium turn orange, while substances containing calcium turn more of a yellow-red color. Substances with potassium ions produce a light purple flame and copper produces a characteristic blue-green color.

To unlock this lesson you must be a Member.
Create your account

Register to view this lesson

Are you a student or a teacher?

Unlock Your Education

See for yourself why 30 million people use

Become a member and start learning now.
Become a Member  Back
What teachers are saying about
Try it risk-free for 30 days

Earning College Credit

Did you know… We have over 200 college courses that prepare you to earn credit by exam that is accepted by over 1,500 colleges and universities. You can test out of the first two years of college and save thousands off your degree. Anyone can earn credit-by-exam regardless of age or education level.

To learn more, visit our Earning Credit Page

Transferring credit to the school of your choice

Not sure what college you want to attend yet? has thousands of articles about every imaginable degree, area of study and career path that can help you find the school that's right for you.

Create an account to start this course today
Try it risk-free for 30 days!
Create an account