6-8 > Mathematics
 Grade level: 6-8 Subject: Mathematics Duration: Two class periods
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Students will
 1 learn how to convert quantities from the English system to the metric system; and 2 think about the many ways in which measuring quantities is a part of daily life.

The class will need the following:
 • Copies of Classroom Activity Sheet: Measuring in Daily Life • Copies of Take-Home Activity Sheet: Metric Stories • Pens • Pencils • Books about the metric system (optional)

 Distribute the Classroom Activity Sheet and have students work in pairs to come up with measurements in the English system. Then work on the conversions as a class. You may also want to write a class story about what life would be like if the United States changed to the metric system.

 1 Why do you think it would be so hard for the United States to switch to the metric system? Do you think it is in the country’s best interest to overcome these difficulties? Why or why not? 2 Which system did you find easier to use? Why? 3 Do you think it is confusing that the United States uses a different measuring system from the rest of the world? What kinds of problems arise because of the use of a different measuring system? 4 Were you surprised at how many measurements you use in daily life? Why or why not? 5 Think about specific jobs that require frequent measuring, such as architecture and construction. What changes would people in these professions have to make in their daily lives if the United States switched to the metric system? Consider how the change to metric would affect all aspects of their jobs, from buying materials to measuring spaces to actually constructing buildings. 6 Suppose you wanted to bake a cake, and the recipe you wanted to use listed metric quantities but your measuring cups and spoons were based on English measurements. How would you convert each quantity? What tools could help you solve this problem?

 Use the following three-point rubric to evaluate students’ work during this lesson. Three points:cooperative work with partners to complete the Classroom Activity Sheet and develop a list of additional quantities to measure; determination of these quantities in English units and conversion of them into metric units; ability to come up with several more examples of what life would be like if we used the metric system Two points:somewhat cooperative work with partners to complete the Classroom Activity Sheet and develop a list of additional quantities to measure; determination of most of these quantities in English units and conversion of some of them into metric units; ability to come up with a few additional examples of what life would be like if we used the metric system One point:relatively ineffective cooperative work with partners to complete the Classroom Activity Sheet and develop a list of additional quantities to measure; determination of a few of these quantities in English units and conversion of a few of them into metric units; ability to come up with one or two additional examples of what life would be like if we used the metric system

 Grocery Store Math Have students list their favorite foods. Ask them to look at the packages to see how much food is in each package in both English and metric units. (Both are usually listed.) Then have them go to the grocery store and find out the prices of these foods. Was the price more or less than they thought? Ask students what this told them about the price of food. Did they notice anything about the price of food when it is bought in bulk as compared with when it is bought in small amounts? History of the Meter Challenge students to trace the history of the meter. Ask them to find out when and how the length of the meter was first established. Then have students explore how the method tof establishing the scientific length of the meter has changed over the last 200 years. Have students write brief reports to present to the class.

 The Story of Weights and Measures Anita Ganeri. Oxford University Press, 1996.An excellent introduction to the concepts of weight and measurement are encompassed in this slim book. Using lots of illustrations matched with short entries, the development of instruments for accurate weighing and measuring is traced. A short timeline and glossary are included. For Good Measure: The Most Complete Guide to Weights and Measures and Their Metric Equivalents William D. Johnstone. NTC Publishing, 1998If you want to know how to measure anything anywhere in the world, here's your book! Learn how length, surface, volume, weight, electricity, metrics, and diverse units like pressure, energy and speed, are measured here in the United States and in other countries. There's even a chapter on measurement in music and verse! The entries contain small paragraphs with the history of the particular measurement. A wealth of information is contained in this relatively modest paperback and is extremely well-indexed.

 kilogram Definition:The basic metric unit of mass and weight, nearly equal to the mass of 1,000 cubic centimeters of water. Context:Dry goods, such as flour and sugar, are measured inkilograms. liter Definition:A metric unit of capacity equal to the volume occupied by one kilogram of water at a specific temperature and atmospheric pressure. Context:Water is often bottled in amounts of 1 and 2liters. meter Definition:The basic metric unit of length, approximately equal to 39.37 inches. Context:Olympic track-and-field events are measured inmeters, not miles. volume Definition:The amount or quantity of something measured in milliliters, liters, pints, or quarts. Context:Thevolumeof a gallon container is greater than that of a quart container.

 This lesson plan may be used to address the academic standards listed below. These standards are drawn from Content Knowledge: A Compendium of Standards and Benchmarks for K-12 Education: 2nd Edition and have been provided courtesy of theMid-continent Research for Education and Learningin Aurora, Colorado.  Grade level:6-8 Subject area:Mathematics Standard: Understands and applies basic and advanced properties of the concept of measurement. Benchmarks: Solves problems involving units of measurement and converts answers to a larger or smaller unit within the same system. Grade level:6-8 Subject area:Mathematics Standard: Understands and applies basic and advanced properties of the concept of measurement. Benchmarks: Understands formulas for finding measures.

 Audrey Carangelo, freelance curriculum developer.