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Project Summary

Difficulty	4
Time required	Short (several days)
Prerequisites	Good observational skills
Material Availability	Readily available
Cost	Very Low (under $20)
Safety	Adult supervision recommended for handling hot liquids

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Abstract

Objective

The objective of this project is to detect the production of carbon dioxide and alcohol by yeast fermentation and to determine the reaction time and nutrient conditions needed for fermentation. You will learn that yeast is unicellular fungi and fermentation is the process by which yeast breaks down glucose to produce alcohol and carbon dioxide.

Introduction

Yeasts are unicellular fungi. They are plantlike organisms that do not contain chlorophyll and cannot undergo photosynthesis to make their own food. Instead, yeast must get their food from their surroundings. One such food source is glucose. Complex carbohydrates, like the starch in potatoes or flour, are another food source. Yeast first break these down into simple sugar molecules, like glucose.

If oxygen is present in the yeast's environment, glucose will be broken down into carbon dioxide and water, plus energy, which the yeast can use to grow and reproduce. When oxygen is not present, yeast use an alternative pathway, called alcoholic fermentation, to extract energy from sugar. In alcoholic fermentation, glucose is broken down into alcohol, carbon dioxide and water, plus energy—but much less energy than when oxygen is present. The alcohol by-product is important for making wine and beer, while the bubbles of carbon dioxide make yeast-based dough rise.

Terms, Concepts and Questions to Start Background Research

Before starting your experiments, you should do background research that enables you to understand the following terms, concepts and questions:

• unicellular
• alcoholic fermentation
• What is limewater? How do you make it? What happens to limewater in the presence of carbon dioxide?

Bibliography

• This link describes how to make limewater: http://www.hometrainingtools.com/articles/making-limewater-solution-science-teaching-tip.html
• This link has pictures that show how limewater turns cloudy when exposed to carbon dioxide: http://genchem.chem.wisc.edu/demonstrations/Gen_Chem_Pages/15precippage/reactions_between_carbon_d.htm
• This link has interesting information about yeast fermentation in bread dough: http://www.baking911.com/bread/101_fermentation.htm

Materials and Equipment

• 12 tall, slim glasses or clear plastic containers (water bottles are good)
• 4 bendable straws
• 4 straight straws (stirrers)
• Modeling clay or play dough
• Limewater (see Bibliography)
• 1 box of glucose tablets (available at your local pharmacy; you need 6 5-gram tablets)
• Yeast (12 teaspoons total)
• Water
• White sugar
• Corn syrup
• Flour
• Vegetable oil
• Stove
• Oven gloves
• Measuring cup and spoons
• Small pot

Experimental Procedure

Part 1: The Process of Fermentation

1. Make a 10% glucose solution by dissolving 6 5-gram glucose tablets in 300 ml of water (about 1.25 cups). Gentle heating and stirring will help to dissolve the tablets. After the tablets are fully dissolved, boil the solution gently for five minutes to eliminate all oxygen in the glucose. Warning: Be careful with hot stove, pot and liquid!!
2. Use oven gloves to remove the small pot of glucose from the stove. Allow it to cool (feels slightly warm to the touch).
3. Add 2 teaspoon of yeast to glass/plastic container. Pour the boiled glucose solution into the same container. Use a spoon/straw to gently mix.
4. Carefully pour half tablespoon of vegetable oil into the container so that it rests on top of the yeast-glucose mixture to keep oxygen from entering the system.
5. Insert one bendable straw into the other bendable straw.
   
6. Bend the ends of both straws at a 90-degree angle. Place the end of one straw in the mouth of the plastic/glass container you just prepared. Secure it in place with modeling clay or play dough (see Figure 2).
7. Fill a second plastic/glass container about three-fourths full of limewater.
8. Insert the other end of the straw set up into the mouth of plastic/glass container of limewater. The mouth of the straw should be submerged under the limewater. Secure the straw in place with modeling clay or play dough (see Figure 2).
   
9. Leave this assembly undisturbed in a warm location for 24 hours. This condition will be called "+yeast."
10. Repeat steps 1–8 but do not add the yeast. This condition will be called "−yeast." Leave it undisturbed in a warm place for 24 hours.
11. After 24 hours, observe +yeast and −yeast and write down your observations in your lab notebook.
12. Here are some questions to consider as you make your observations:
    1. What happened to the limewater for +yeast and −yeast conditions?
    2. The change of limewater from clear to cloudy indicates the presence of carbon dioxide. Which condition(s) produced carbon dioxide?
    3. Can you detect an alcohol-like odor coming from either condition?
    4. Production of heat suggests that a chemical reaction has occurred. Does either one feel warm?
    5. What is the difference between the +yeast and −yeast conditions? Why do you think this component is essential for fermentation?

Part 2: The Conditions for Fermentation

1. For the second experiment, you will test four different food sources for yeast. For each condition, you will prepare two containers (three per condition is even better). Label 4 pairs of containers as follows: condition #1 water, condition #2 sugar, condition #3 flour, and condition #4 corn syrup.
2. Pour 1 cup of warm water into each container.
3. #1 will serve as the control with plain water. Add 1 tablespoon of sugar to each #2, 1 tablespoon of flour to each #3 and 1 tablespoon of corn syrup to each #4.
4. Sprinkle 1 teaspoon of active dry yeast into all 8 containers.
5. Use a clean stirrer and thoroughly stir each #1 and record the time. Repeat for all containers, using a clean stirrer for each.
6. Observe the containers at regular intervals for the next 1 or 2 days. Note your observations for each container in your lab notebook. Be sure to record the time and date of each observation.
7. Here are some questions to consider as you make your observations:
   1. Fermentation produces carbon dioxide and alcohol. Did you see evidence of either of these in each condition? Explain.
   2. Yeasts are one-celled, plantlike organisms that have the ability to lie dormant (inactive) if conditions are not favorable for them to grow and reproduce. Did any of the samples remain dormant? If so, which one(s)?
   3. What conclusion can you draw about what yeasts need?
   4. Which variable combined with the yeast and warm water made the yeast ferment the fastest?

Variations

• For more science project ideas in this area of science, see Microbiology Project Ideas.

Credits

Laura Tan, MedImmune
edited by Andrew Olson, Science Buddies

Last edit date: 2005-09-22 18:54:05

Career Focus

If you like this project, you might enjoy exploring careers in Microbiology.

	Agricultural Inspector Who works to protect the public health from food-borne illnesses? Agricultural inspectors. Everyone needs to eat, and agricultural inspectors work to ensure the quality and safety of the food supply to determine if they are in compliance. They also inspect farms, businesses, and food-processing plants to determine if they are in compliance with government food regulations and laws.			Water & Liquid Waste Treatment Plant & System Operator Have you ever wondered what happens to that soapy water from your kitchen sink or laundry room washer, or the waste water from your bathroom? What about the water that factories discharge after making products? Or the water that runs off of roads and farmlands after a big storm? Water and liquid waste treatment plant and system operators run the amazing water treatment plants that remove pollutants and other harmful materials from waste water, so that it can be safely returned to the environment. These operators provide essential services that everyone in the community depends on every day to keep our water supply safe and clean.
	Microbiologist Microorganisms (bacteria, viruses, algae, and fungi) are the most common life-forms on Earth. They help us digest nutrients; make foods like yogurt, bread, and olives; and create antibiotics. Some microbes also cause diseases. Microbiologists study the growth, structure, development, and general characteristics of microorganisms to promote health, industry, and a basic understanding of cellular functions.

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