Difference between revisions of "Expand Ivory Soap"
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| − | {{fa}}Ivory bar soap is a special type of soap that has the ability to float. It can do this because it has air pockets whipped into it during the manufacturing process. It is unique to other soaps because they do not have these air pockets and don’t float. Because of these air pockets, Ivory soap does an interesting thing when it is heated: it expands. You can make your soap expand with a very simple experiment by heating the soap in your microwave at home.<ref>http://www.stevespanglerscience.com/lab/experiments/soap-souffle/</ref> | + | {{fa}}Ivory bar soap is a special type of soap that has the ability to float. It can do this because it has air pockets whipped into it during the manufacturing process. It is unique to other soaps because they do not have these air pockets and don’t float. Because of these air pockets, Ivory soap does an interesting thing when it is heated: it expands. You can make your soap expand with a very simple experiment by heating the soap in your microwave at home.<ref name="rf1">http://www.stevespanglerscience.com/lab/experiments/soap-souffle/</ref> |
[[Category:Science for Kids]] | [[Category:Science for Kids]] | ||
== Steps == | == Steps == | ||
=== Expanding the Soap === | === Expanding the Soap === | ||
| − | #Gather the necessary materials. To perform this experiment, you will need a bar of Ivory brand soap, a bowl, water, a knife, paper towels, a microwave-safe plate, and a microwave. Parental supervision is recommended while performing this experiment. All of these items should be easily accessible at home. The soap can be purchased at any grocery store or big box store.<ref | + | #Gather the necessary materials. To perform this experiment, you will need a bar of Ivory brand soap, a bowl, water, a knife, paper towels, a microwave-safe plate, and a microwave. Parental supervision is recommended while performing this experiment. All of these items should be easily accessible at home. The soap can be purchased at any grocery store or big box store.<ref name="rf1" /> |
#* The bar of soap must be Ivory brand for this to work properly. | #* The bar of soap must be Ivory brand for this to work properly. | ||
| − | #Cut the soap into four pieces. With adult supervision, use the knife to cut the bar of soap into four approximately equal pieces. Separating the soap will make it heat faster and expand better in the microwave.<ref | + | #Cut the soap into four pieces. With adult supervision, use the knife to cut the bar of soap into four approximately equal pieces. Separating the soap will make it heat faster and expand better in the microwave.<ref name="rf1" /> |
#* Put the soap pieces on a microwave-safe plate. | #* Put the soap pieces on a microwave-safe plate. | ||
| − | #Microwave the soap on HIGH for 1 ½ - 2 minutes. Place the plate of soap in the microwave and set the time for two minutes. Watch the bar of soap as it begins to expand and erupt into beautiful puffy clouds. Make sure an adult is present during this step and stop the microwave once the soap stops expanding.<ref | + | #Microwave the soap on HIGH for 1 ½ - 2 minutes. Place the plate of soap in the microwave and set the time for two minutes. Watch the bar of soap as it begins to expand and erupt into beautiful puffy clouds. Make sure an adult is present during this step and stop the microwave once the soap stops expanding.<ref name="rf1" /> |
#* Avoid overcooking the soap as this can cause it to burn. | #* Avoid overcooking the soap as this can cause it to burn. | ||
#* Leave the “soap soufflé” in the microwave for at 1-2 minutes to let it cool. | #* Leave the “soap soufflé” in the microwave for at 1-2 minutes to let it cool. | ||
| − | #Observe and touch the soap. Once the soap has fully cooled, handle it and see what it feels like. It may look like a giant marshmallow, but you’ll notice that it is still rigid like the original bar of soap. You can still use it like soap as well; just break off pieces.<ref | + | #Observe and touch the soap. Once the soap has fully cooled, handle it and see what it feels like. It may look like a giant marshmallow, but you’ll notice that it is still rigid like the original bar of soap. You can still use it like soap as well; just break off pieces.<ref name="rf1" /> |
#* The soap expands because there are water molecules in the tiny pockets of air. When the soap is heated, the water vaporizes and the trapped air expands. The heat also makes the soap softer, allowing these expanding air pockets to cause the whole bar to blow up like a cloud. | #* The soap expands because there are water molecules in the tiny pockets of air. When the soap is heated, the water vaporizes and the trapped air expands. The heat also makes the soap softer, allowing these expanding air pockets to cause the whole bar to blow up like a cloud. | ||
#* Try the same experiment with a different brand of soap. You’ll notice that the soap doesn’t expand like the Ivory soap does because it doesn’t have air pockets. | #* Try the same experiment with a different brand of soap. You’ll notice that the soap doesn’t expand like the Ivory soap does because it doesn’t have air pockets. | ||
| − | #Place the bar of soap in a bowl of water. Before (or after) you perform the experiment, you can do a small test to see if the soap floats. Fill your bowl with water until it is about two-thirds full. Drop the bar into the water and observe what happens. You will notice that the soap floats. If you have other bars of soap that aren’t Ivory brand, drop them in the water and see what happens. They will sink to the bottom of the container.<ref>http://www.sciencefairadventure.com/ProjectDetail.aspx?ProjectID=183</ref> | + | #Place the bar of soap in a bowl of water. Before (or after) you perform the experiment, you can do a small test to see if the soap floats. Fill your bowl with water until it is about two-thirds full. Drop the bar into the water and observe what happens. You will notice that the soap floats. If you have other bars of soap that aren’t Ivory brand, drop them in the water and see what happens. They will sink to the bottom of the container.<ref name="rf2">http://www.sciencefairadventure.com/ProjectDetail.aspx?ProjectID=183</ref> |
#* The Ivory brand soap floats because it has lots of tiny air pockets inside it. These tiny air pockets are what allows the soap to expand the way it does when it is heated. | #* The Ivory brand soap floats because it has lots of tiny air pockets inside it. These tiny air pockets are what allows the soap to expand the way it does when it is heated. | ||
#* Remove the soap from the water and let it dry before microwaving it. | #* Remove the soap from the water and let it dry before microwaving it. | ||
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=== Making a Learning Experience === | === Making a Learning Experience === | ||
#Talk about a hypothesis. A hypothesis is an educated guess about the outcome of an experiment. Discuss the air pockets in the soap and ask your child what they think will happen to the soap when it gets heated. Write down the hypothesis before you begin. | #Talk about a hypothesis. A hypothesis is an educated guess about the outcome of an experiment. Discuss the air pockets in the soap and ask your child what they think will happen to the soap when it gets heated. Write down the hypothesis before you begin. | ||
| − | #* Can they think of anything else that expands when heated? Talk about heating marshmallows and popcorn.<ref>http://www.indypl.org/kids/blog/?p=8919</ref> | + | #* Can they think of anything else that expands when heated? Talk about heating marshmallows and popcorn.<ref name="rf3">http://www.indypl.org/kids/blog/?p=8919</ref> |
| − | #Experiment with different types of soap. Ivory soap is special because it has air whipped into it, but other soaps do not. Perform this same experiment with different types of soap and observe the various results with each brand.<ref | + | #Experiment with different types of soap. Ivory soap is special because it has air whipped into it, but other soaps do not. Perform this same experiment with different types of soap and observe the various results with each brand.<ref name="rf3" /> |
#* Record your results and observations underneath your written hypothesis. | #* Record your results and observations underneath your written hypothesis. | ||
| − | #Discuss the results. Talk about what happened with the soap. Ask your child why the soap expanded and why the air pockets are important. Explain to them that there is water trapped in the air pockets and that gas expands when it is heated.<ref | + | #Discuss the results. Talk about what happened with the soap. Ask your child why the soap expanded and why the air pockets are important. Explain to them that there is water trapped in the air pockets and that gas expands when it is heated.<ref name="rf1" /> |
| − | #* Gases expand because the molecules begin to move quickly when they are heated. This causes them to bounce off of each other and hit the pockets of soap with such force that they expand out.<ref>http://www.nsta.org/publications/news/story.aspx?id=52428</ref> | + | #* Gases expand because the molecules begin to move quickly when they are heated. This causes them to bounce off of each other and hit the pockets of soap with such force that they expand out.<ref name="rf4">http://www.nsta.org/publications/news/story.aspx?id=52428</ref> |
#* Discuss the differences between the various brands of soap and the reason you see differences in the results. | #* Discuss the differences between the various brands of soap and the reason you see differences in the results. | ||
