Shown here are four representations chemists use for nitric oxide. In the colored models, nitrogen is blue and oxygen is red. Click on image for full size (19 Kb GIF) Windows to the Universe original artwork by Randy Russell.

Here are four representations chemists use for nitrogen dioxide. Click on image for full size (26 Kb GIF) Windows to the Universe original artwork by Randy Russell.

Nitric oxide (NO) and nitrogen dioxide (NO₂) are two gases whose molecules are made of nitrogen and oxygen atoms. These nitrogen oxides contribute to the problem of air pollution, playing roles in the formation of both smog and acid rain. They are released into Earth's atmosphere by both natural and human-generated sources.

Nitric oxide is a colorless, flammable gas with a slight odor. Nitrogen dioxide is a deep red-orange gas that is poisonous but not flammable. It, along with aerosols, is responsible for the reddish-brown color of smog. At high concentrations it is highly toxic, and can cause serious lung damage. Nitrogen dioxide is a strong oxidizing agent, and is thus very reactive with other compounds.

Scientists estimate that nature produces between 20 and 90 million tons of nitrogen oxides on Earth each year. Natural sources include volcanoes, oceans, biological decay and lightning strikes. Human activities add another 24 million tons of nitrogen oxides to our atmosphere annually.

Both NO and NO₂ are formed during high-temperature combustion in the atmosphere, when oxygen combines with nitrogen. The exhaust gases of cars and trucks are major sources of nitrogen oxides, as are the emissions from electrical power generation plants. Automobile exhaust has more NO than NO₂, but once the NO is released into the atmosphere it quickly combines with oxygen in the air to form NO₂.

Nitrogen oxides are at least partially responsible for several types of air pollution. Nitrogen dioxide lends its color to the reddish-brown haze we call smog. Photodissociation of nitrogen dioxide by sunlight produces nitric oxide and ozone in the troposphere, which is another component of smog. A series of chemical reactions transform Volatile Organic Compounds (VOCs) into substances that combine with nitrogen dioxide to produce PAN (Peroxyacytyl nitrate), yet another element in smog. Nitrogen dioxide in the air also reacts with water vapor to form nitric acid, one of the types of acid in acid rain.

Nitric oxide concentration in unpolluted air is around 0.01 ppm. In smog, the concentration rises twenty-fold to about 0.2 ppm.

Although nitrogen oxides have gained dubious distinction as pollutants, they are also used beneficially in some industrial processes. Nitric oxide is manufactured on a large scale, and is subsequently used to make nitric acid (HNO₃). To create nitric oxide for industrial uses, chemists combine ammonia (NH₃) with oxygen (O₂), releasing water (H₂O) as a byproduct. Nitrogen compounds derived from nitric acid are used to create chemical fertilizers, explosives, and other useful substances.

Here are four different ways chemists use to show a molecule of nitric oxide. In the colored molecule models, nitrogen is blue and oxygen is red. Click on image for full size (19 Kb GIF) Windows to the Universe original artwork by Randy Russell.

Here are four different ways chemists use to show a molecule of nitrogen dioxide. Click on image for full size (26 Kb GIF) Windows to the Universe original artwork by Randy Russell.

Nitric oxide (NO) and nitrogen dioxide (NO₂) are the names of two kinds of gases. Together, they are called nitrogen oxides. Nitrogen oxide molecules have nitrogen and oxygen atoms in them.

Nitrogen oxides help cause some kinds of air pollution. Nitrogen dioxide combines with other chemicals to make smog. It also combines with water droplets in the air to make nitric acid. Nitric acid is one of the kinds of acid in acid rain

Where do nitrogen oxides come from? Volcanoes and lightning make some of the nitrogen oxides in Earth's atmosphere. Humans make lots of nitrogen oxides, too. When fuel burns, nitrogen in the air combines with oxygen to make nitrogen oxides. The engines of cars, trucks, and buses make lots of nitrogen oxides.

Nitrogen oxides are not all bad. Humans use nitric oxide to make nitric acid. Nitric acid is used to make fertilizer and some kinds of explosives!

Here are four different ways chemists use to show a molecule of nitric oxide. In the colored molecule models, nitrogen is blue and oxygen is red. Click on image for full size (19 Kb GIF) Windows to the Universe original artwork by Randy Russell.

Here are four different ways chemists use to show a molecule of nitrogen dioxide. Click on image for full size (26 Kb GIF) Windows to the Universe original artwork by Randy Russell.

Nitric oxide (NO) and nitrogen dioxide (NO₂) are the names of two kinds of gases. Together, they are called nitrogen oxides. Nitrogen oxide molecules have nitrogen and oxygen atoms in them.

Nitrogen oxides help cause some kinds of air pollution. Nitrogen dioxide combines with other chemicals to make smog. It also combines with water droplets in the air to make nitric acid. Nitric acid is one of the kinds of acid in acid rain

Where do nitrogen oxides come from? Volcanoes and lightning make some of the nitrogen oxides in Earth's atmosphere. Humans make lots of nitrogen oxides, too. When fuel burns, nitrogen in the air combines with oxygen to make nitrogen oxides. The engines of cars, trucks, and buses make lots of nitrogen oxides.

Nitrogen oxides are not all bad. Humans use nitric oxide to make nitric acid. Nitric acid is used to make fertilizer and some kinds of explosives!