Did you ever see this image before? You may have if you’ve read Superman comics. The picture shows the planet Krypton, fictional home of Superman, as it is exploding outward into space. Using the name Krypton for an exploding planet is ironic, because krypton the element is one of the least reactive of all the elements. Krypton is nonreactive because it’s a noble gas.
What Are Noble Gases?
Noble gases are nonreactive, nonmetallic elements in group 18 of the periodic table. As you can see in the periodic table below, noble gases include helium (He), neon (Ne), argon (Ar), krypton (Kr), xenon (Xe), and radon (Rn). All noble gases are colorless and odorless. They also have low boiling points, explaining why they are gases at room temperature. Radon, at the bottom of the group, is radioactive, so it constantly decays to other elements. For an excellent overview of the noble gases, watch the video at this URL:
- To explore specific noble gases, click on their symbols in the periodic table at this URL: http://www.ptable.com/.
Q: Based on their position in the periodic table (Figure above), how many valence electrons do you think noble gases have?
A: The number of valence electrons starts at one for elements in group 1. It then increases by one from left to right across each period (row) of the periodic table for groups 1–2 and 13–18 (numbered 3–0 in the table above). Therefore, noble gases have eight valence electrons.
Chemical Properties of Noble Gases
Noble gases are the least reactive of all known elements. That’s because with eight valence electrons, their outer energy levels are full. The only exception is helium, which has just two electrons. But helium also has a full outer energy level, because its only energy level (energy level 1) can hold a maximum of two electrons. A full outer energy level is the most stable arrangement of electrons. As a result, noble gases cannot become more stable by reacting with other elements and gaining or losing valence electrons. Therefore, noble gases are rarely involved in chemical reactions and almost never form compounds with other elements.
Because the noble gases are the least reactive of all elements, their eight valence electrons are used as the standard for nonreactivity and to explain how other elements interact. This is stated as the octet (“group of eight”) rule. According to this rule, atoms react to form compounds that allow them to have a group of eight valence electrons like the noble gases. For example, sodium (with one valence electron) reacts with chlorine (with seven valence electrons) to form the stable compound sodium chloride (table salt). In this reaction, sodium donates an electron and chlorine accepts it, giving each element an octet of valence electrons.
Some Uses of Noble Gases
Did you ever get a birthday balloon like the one pictured below? The balloon is filled with the noble gas helium. The gas is pumped from a tank into a Mylar balloon. Unlike a balloon filled with air, a balloon filled with helium needs to be weighted down so it won’t float away.
Q: Why does a helium balloon float away if it’s not weighted down?
A: Helium atoms have just two protons, two neutrons, and two electrons, so they have less mass than any other atoms except hydrogen. As a result, helium is lighter than air, explaining why a helium balloon floats up into the air unless weighted down.
Early incandescent light bulbs, like the one pictured in the Figure below, didn’t last very long. The filaments quickly burned out. Although air was pumped out of the bulb, it wasn’t a complete vacuum. Oxygen in the small amount of air remaining inside the light bulb reacted with the metal filament. This corroded the filament and caused dark deposits on the glass. Filling a light bulb with argon gas prevents these problems. That’s why modern light bulbs are filled with argon.
Q: How does argon prevent the problems of early light bulbs?
A: As a noble gas with eight electrons, argon doesn’t react with the metal in the filament. This protects the filament and keeps the glass blub free of deposits.
Noble gases are also used to fill the glass tubes of lighted signs like the one in the Figure below. Although noble gases are chemically nonreactive, their electrons can be energized by sending an electric current through them. When this happens, the electrons jump to a higher energy level. When the electrons return to their original energy level, they give off energy as light. Different noble gases give off light of different colors. Neon gives off reddish-orange light, like the word “Open” in the sign below. Krypton gives off violet light and xenon gives off blue light.
- Noble gases are nonreactive, nonmetallic elements in group 18 of the periodic table.
- Noble gases are the least reactive of all elements. That’s because they have eight valence electrons, which fill their outer energy level. This is the most stable arrangement of electrons, so noble gases rarely react with other elements and form compounds.
- The octet rule states that atoms react to form compounds that allow them to have eight valence electrons like the noble gases, which are the least reactive elements.
- Noble gases are used for balloons, light bulbs, and lighted signs.
noble gas: Nonmetal in group 18 of the periodic table that has eight valence electrons (or two in the case of helium) and is unreactive.
Watch the video about noble gases at the following URL, and then answer the questions below.
- Compare and contrast the reactivity of the elements helium, neon, argon, krypton, and xenon.
- Compare the density of these noble gases to the density of air.
- Describe how the mass of noble gases changes from the top to the bottom of group 18.
- What are noble gases?
- Explain why noble gases are almost completely nonreactive.
- What is the octet rule? How is it related to noble gases?
- Hydrogen (H) atoms have one electron and exist as diatomic (“two-atom”) molecules (H2). Helium atoms have two electrons and exist only as single helium atoms. Explain why hydrogen and helium differ in this way.