Category: Chemistry (Page 6 of 9)

Weekend Science Fun: Learning About Science Through History

Today we are going to do something a bit different. Let’s take a look how you can use a history book as an inspiration for a science experiment.

The Great Molasses Flood by Deborah Kops is an account of an unusual disaster that hit Boston in 1919. It is written for middle grade readers.

On a quiet day in January 1919, a giant tank of molasses gave way and flooded a nearby neighborhood. People were injured or killed, and a few buildings were destroyed. At first everyone was concerned about rescue and cleanup, but very soon focus turned to how the disaster could have happened.

Some people suggested the reason the tank came apart could have been due to a bomb planted by anarchists. Others said it was simply a poorly-built tank that came apart at the seams. Still others thought the molasses might have been fermenting. Fermentation is a process that converts sugars into alcohol and carbon dioxide gas, often through the activity of yeasts (see note). Could lowly yeasts have had a role in this disaster?

Fermentation Activity:

Let’s examine how fermenting molasses might have been involved in this mysterious event.

This activity takes at least one hour.

Gather:

  • Two empty plastic water or soda bottles (about 12 oz size) for each participant
  • Sharpie marker
  • Measuring cups and spoons – 1/3 cup, 1 Tablespoon and 1 teaspoon sizes
  • Warm water
  • Unsulphured molasses (substitute granulated sugar if needed)
  • Yeast used for baking (available in packets or jars)
  • Two uninflated party-size balloons for each participant
  • Rulers
  • Funnel (optional, but helpful)

Label one of the bottles “control” and one “molasses.” The control will contain all the same ingredients except molasses (You can reduce the number of controls if you are working with a large group). Add 1/3 cup warm water to each bottle with the funnel. Pour 2 Tablespoons of molasses into the bottle labeled “molasses” and swirl gently to mix. Wash and dry the funnel if you want to use it to add the yeast. Add 2 teaspoons of yeast per bottle to both bottles. Again swirl each bottle gently for a few seconds to mix the yeast into the water. Now cap each bottle with an uninflated balloon and set aside.

Check what is happening after 15 minutes and after a half hour, after 45 minutes, and after an hour.

What happens to the bottle that contains the fermenting molasses? How does that compare to the control? Measure each balloon at its widest part with the ruler and compare the results.

Encourage the children to draw their own conclusions. Could a large, possibly overloaded tank of molasses explode if the molasses began to ferment? What about the fact it was winter? Do you think temperature would be a factor? The author does say it was an unseasonably warm day. Can you think of a way to test if temperature is a factor?

(Note: The use of the plural yeasts in the upper paragraph refers to the fact that there are multiple species of yeasts involved. Typically the singular “yeast” is used to describe baking yeast. Hopefully that isn’t too confusing.)

Read The Great Molasses Flood by Deborah Kops to find out more.

Reading level: Ages 9-12
Hardcover: 112 pages
Publisher: Charlesbridge Publishing (February 1, 2012)
Language: English
ISBN-10: 1580893481
ISBN-13: 978-1580893480

Book provided by the publisher for review purposes.

Weekend Science Fun: More Chemistry

It has been a few weeks since we visited the International Year of Chemistry website, so let’s see what has been added.

Dow Chemical and The Franklin Institute (TFI) have uploaded three videos in what they are calling the “Celebrate Chemistry” series. I suspect they will be adding more in the future. Nothing too novel or innovative, but they have tried to make the videos child friendly.

1. Baking Soda Volcano (Recommended for grades 3-4)

2. In a video for older kids, The Science of Baseball covers the law of energy and conservation, and principles of physics.

If you are interested in the Student Chemistry Cartoon Contest and/or Student Chemistry Video Contest, you’ll need to submit your entries soon. They are due May 31, 2011. The idea is to clearly illustrate a chemistry principle in way that will enhance how chemistry is taught.

If you would like to find activities being held in your region, click on the activities tab and then look for your country. There is also a search box.

Here are two examples I found:

If you live in Michigan, Spring Arbor will be featuring chemistry at their annual Cougar Science Camp June 20-24, 2011. For more details, see the Cougar Science Camp page.

On August 13, 2011 Grout Museum District in Waterloo, Iowa will attempt to break the Guinness World RecordsTM Largest Chemistry Lesson.  The lesson will start at 11:00 a.m. according to the International Year of Chemistry, but they don’t have it on the museum calendar yet.

If the celebrations inspire you to do some chemistry experiments, here are 10 chemistry books to help give you ideas:

Bubble Gum Science

Our science fun this week was inspired by the nonfiction picture book Pop!: The Invention of Bubble Gum by Meghan McCarthy. Kids will enjoy the lively story of how accountant Walter Diemer started mixing this and that ingredient (at the factory where he worked), until he had invented a gum that could be used to blow bubbles. What a sweet tale!

This book just cries out for some hands-on activities.

Activity 1. Which type/brand of gum blows the best bubbles?

Gather:

  • Several brands of bubble gum and regular gum
  • Ruler (decide on inches or cm)
  • Pair of tongs or cardboard bubble caliper (see below)
  • Volunteer(s) to chew the gum and blow bubbles
  • Paper and pencil to record the results

The most difficult part of this project is finding a standard way to measure bubbles that are often a moving target. Check this website for a photo of a “bubble caliper” used for measuring record bubbles. Think about how you might build something similar or find a pair of kitchen tongs that might open wide enough to accommodate the largest bubbles. Try to find the widest point of the bubble. Practice on a few bubbles to make sure your system works and is relatively consistent.

Predict which brand will produce the biggest bubble. Now give the volunteer(s) each one stick of each type/brand of gum. Allow them to chew the gum for a few minutes and then blow bubbles. When they are confident that they are blowing the best bubbles they can with that type of gum, have them blow a few more and measure them. Decide how many bubbles of each type of gum you are going to measure in advance, so you record the same number for each test.

When you are done, add up the size of the bubbles for each type, and then divide by the number of bubbles you measured for that type. This will give you an average. You might want to graph your results with a bar graph to easily see the differences between the brands/types.

 

Activity 2. What happens to the gum when you chew it? Does it gain weight from the moisture in your mouth, lose weight, or stay the same?

Gather:

  • accurate kitchen scales
  • gum
  • wax paper to protect the scale (or the wrapper)
  • watch or timer

First, predict what you think  will happen. Take the wrapper off the gum. Place a piece of wax paper on the scale, and tare or zero the scale. If your scale does not tare, the record how much the wax paper weighs. Next place the dry gum on the scale. Record the weight (subtract the weight of the waxed paper if you did not zero it). Leave the wax paper in place.

Now chew the gum for one minute and weigh again. Record the weight. Weigh again at five minute and then at ten minutes of chewing. What is happening? Did the results follow your prediction? Try to figure out why or why not. Test more sticks and different kinds of gum, and have your friends and relatives try it, too. See if you get the same results.

Activity 3. Make your own bubble gum.

This video shows how bubble gum is made in a factory.

You can find kits and online recipes to make your own bubble gum (for example at Steve Spangler).

Try some other formulas, too. Be sure to write down what ingredients and the methods you use. Maybe with some time and the right ingredients, you could be the next Walter Diemer and discover something thrilling and new.

Links to other activities:

How long does sweet flavor last? How much sugar is there in bubble gum? See an experiment at Teach Engineering.

Why is it sticky? Learn more about the sticky properties of gum at Science in School.

Do you chew bubble gum? Let me know if you try some experiments with it. I’d love to hear what you find out.

Pop!: The Invention of Bubble Gum

A few other books and kits relating to bubble gum science:

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