Discovering Oxygen

As discussed in the Fire Extinguisher experiment, fire is a chemical reaction that requires a fuel source, heat, and oxygen in order to sustain itself. Without one or more of those components, the reaction will stop and the flames will go out. The combustion reaction consumes both the fuel and the oxygen and reorganizes their molecules into new substances, including carbon dioxide.

In a candle, the fuel source is actually the wax of the candle, not the wick. The heat from the flame melts the wax surrounding the wick. The wick “sucks up” the melted wax, like a drink through a straw, delivering it to the flame. The fire then burns the melted wax, creating more heat, which melts more wax. Traditionally, candles were made from substances found in nature that burned very slowly, like animal fats or beeswax. Today, candles can also be made with paraffin wax (a byproduct of oil refining) or plant oil-based waxes like soy wax. Wax burns much slower than other fuel sources, like wood, so candles can produce sustained light for a long period of time.

Have you ever wondered why a candle goes out when you blow on it? It is not because of the carbon dioxide in our breath. The current from blowing lowers the temperature of the area around the reaction and separates the flame from the fuel source – the melted wax. Without anything to burn and without the requisite heat, the reaction stops.

The Experiment

Supplies: A tealight candle, a saucer or shallow bowl, water, food coloring (optional), a clear glass or jar, a lighter or match, an adult helper.

What to do: Ask your adult assistant to set the candle in the saucer and light it. Add a few drops of food coloring to your water, if desired. Pour about 1/4 cup of water into the saucer so that it surrounds but does not extinguish the candle. Turn the glass upside down and carefully place it over the candle. What happens to the candle? What happens to the interior surface of the glass? What happens to the water in the saucer? Listen carefully as you lift the glass up.

What is happening: Three different principles are being demonstrated in this experiment. The first has to do with the mechanics of the chemical reaction. The water forms a seal between the upside-down glass and the dish, limiting the reaction to only the air available inside the glass. At first, the candle will continue to burn as normal, but the longer the flame burns, the less oxygen is available in the confined space to sustain the reaction. The candle will only burn as long as there is oxygen inside the jar.

The second thing happening inside the glass is proof the the displacement reaction taking place. In displacement reactions, the compounds or molecules that contribute to the reaction are different than the ones that result from the reaction. In this case, the carbon and hydrogen from the wax is combining with the oxygen to fuel the reaction. The during the reaction, the oxygen molecules get shifted around, and the end products of the reaction are carbon dioxide gas and water. While the flame is burning, the water remains in the air inside the glass in the form of water vapor, but as soon as the flame goes out, the air inside the glass cools down, and the water vapor condenses on the interior surface of the glass.

Did you notice the water creeping up the sides of the glass as the flame went out? This is related to the third principle being demonstrated, differences in air pressure. While the flame was burning, the oxygen inside the glass was being consumed by the reaction and replaced with carbon dioxide, but not in equal quantities. The heat from the flame causes the gas inside the glass to expand in volume, but once the flame goes out, the gas inside the glass cools down quickly. This creates a vacuum inside the glass because the air pressure outside the glass is greater than the air pressure inside the glass. The sound created when you moved the glass was the greater outside air pressure rushing in to fill the space inside the glass where the air pressure was lower.

Links

To learn more about oxygen and Antoine Lavoisier (the scientist who came up with the name “oxygen” and made this experiment famous), head to the Kiddle article on Oxygen Facts.

Make a Fire Extinguisher

Did you know that fire is a chemical reaction? Fire is the most common form of a combustion reaction. Combustion, or burning, describes an interaction of oxygen and a fuel source that results in heat and light, usually in the form of a flame. Combustion combines the fuel source and oxygen to create an exothermic reaction, a reaction that generates heat above and beyond the heat needed to initiate the reaction.

In order to have a combustion reaction, the fuel and oxygen need a catalyst. A catalyst is something that causes or speeds up a chemical reaction without itself being altered. The catalyst for a fire is usually temperature. The fuel has to reach a certain temperature and be in the presence of oxygen before it will ignite. Because fire is an exothermic reaction, a single spark (which can reach temperatures over 2,000 degrees!) is hot enough to begin the combustion process, and the expelled heat is enough to keep the reaction going.

Without all three ingredients – fuel, oxygen, and heat – a combustion reaction is not possible. A fuel source like paper or wood, in the presence of oxygen but without heat, will not ignite all by itself. If it did, trees and papers would be constantly burning! Likewise, having fuel and heat might ignite a reaction, but without oxygen, the reaction cannot be sustained. That is the principle we will examine in this experiment.

The Experiment

Supplies: Baking soda, a shallow bowl, a tea light candle, vinegar, a lighter or match, and an adult helper.

What to do: Sprinkle some baking soda in the bottom of the bowl. Make sure you use enough to create a nice, even layer. Set the tea light in the middle of the bowl. Ask your adult helper to light the candle. Slowly and carefully pour the vinegar into the bowl, making sure not to splash or extinguish the candle as you pour. What happens to the baking soda? What happens to the candle?

What is happening: Combining vinegar and baking soda causes a chemical reaction. One of the products of that reaction is carbon dioxide, which is a heavier gas than the oxygen/nitrogen combination in the air. The carbon dioxide settles at the bottom of the bowl, displacing the oxygen surrounding your candle. Without oxygen, the reaction cannot be sustained and the flame goes out.

Links

For an overview on combustion, check out this article on Britannica Kids.

For more in-depth information, Mocomi examines different types of combustion, flames, and fuels.

To learn more about how fire extinguishers work to put out flames, the journalists at The Conversation answers questions from Curious Kids.