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Hands-On Math Projects With Real-Life Applications
Grades 6-12
Judith A. Muschla, Gary Robert Muschla
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eBook - ePub
Hands-On Math Projects With Real-Life Applications
Grades 6-12
Judith A. Muschla, Gary Robert Muschla
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Hands-On Math Projects with Real-Life Applications, Second Edition offers an exciting collection of 60 hands-on projects to help students in grades 6--12 apply math concepts and skills to solving everyday, real-life problems! The book is filled with classroom-tested projects that emphasize: cooperative learning, group sharing, verbalizing concepts and ideas, efficient researching, and writing clearly in mathematics and across other subject areas. Each project achieves the goal of helping to build skills in problem solving, critical thinking, and decision making, and supports an environment in which positive group dynamics flourish.
Each of the projects follows the same proven format and includes instructions for the teacher, a Student Guide, and one or more reproducible datasheets and worksheets. They all include the elements needed for a successful individual or group learning experience. The projects are easily implemented and can stand alone, and they can be used with students of various grade levels and abilities.
This thoroughly revised edition of the bestseller includes some new projects, as well as fresh information about technology-based and e-learning strategies and enhancements; No Child Left Behind standards; innovative teaching suggestions with activities, exercises, and standards-based objectives; reading and literacy connections; and guidelines and objectives for group and team-building projects.
Hands-On Math Projects with Real-Life Applications is printed in a lay-flat format, for easy photocopying and to help you quickly find appropriate projects to meet the diverse needs of your students, and it includes a special Skills Index that identifies the skills emphasized in each project. This book will save you time and help you instill in your students a genuine appreciation for the world of mathematics.
"The projects in this book will enable teachers to broaden their instructional program and provide their students with activities that require the application of math skills to solve real-life problems. This book will help students to realize the relevance and scope of mathematics in their lives."
-- Melissa Taylor, middle school mathematics teacher, Point Pleasant Borough, New Jersey
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Part One
Implementing Projects in the Math Class
Chapter One
Overview of projects in the math class
In a well-run math class, computation, problem solving, and critical thinking are all taught. Instead of learning skills in isolation, students learn math in context where they can see how it is applied in real situations. In this way they come to recognize the importance of math in their own lives. The connection between math and the real world is a strong one. This is especially true of math classes in which projects are a significant part of the curriculum.
Filled with activity and enthusiasm, a successful project-oriented math class is a center of individual learning, collaboration, cooperation, and sharing. Students work alone, together, and with the teacher. Along with learning fundamental math skills, students learn to think logically, analyze data, make decisions, and solve multifaceted problems that arise out of real-life situations. Students thus use the skills they are learning in meaningful ways.
Your Role
Your role changes when your students work on math projects. Along with your traditional responsibilities of introducing concepts, demonstrating skills with example problems, and grading the work of your students, you will become a facilitator and promoter. The horizons of your teaching will expand. More of your time will be spent working directly with individuals and groups. As students work on solving problems, you will circulate around the room, offering advice and suggestions, asking questions that lead to insights or direction, and giving encouragement and praise. Sometimes you may simply monitor a groupâs efforts or model appropriate behavior. Occasionally you may need to pull a group back on task. (See âThe Teacherâs Role During Math Projects.â)
There are many ways you can incorporate projects into your curriculum. While following your text, you can easily provide regular project activities. You may build time for projects into your schedule, for example, a day or two each week, or do units on projects a few times a year. Some teachers introduce a multistep project and then give students time to work on it at the end of class over the next few days. No matter how you provide the time, you should be consistent. Students not only need sufficient time for working on projects, they need to know when they will be working on them. This information enables students to come to class prepared and ready to work.
Supporting the Standards of the National Council of Teachers of Mathematics
The projects in this book support the Standards of the National Council of Teachers of Mathematics (NCTM), with specific emphasis on the following:
⢠The Problem-Solving Standard
⢠The Communication Standard
⢠The Connections Standard
⢠The Representation Standard
Problem solving is an essential part of learning mathematics. At its most basic, it requires students to find a solution to a problem without initially knowing what methods or procedures to use. As they seek a solution to the problem, students must draw on their own knowledge, experience, and skills. They may be required to assume various tasks, including conducting research, analyzing and organizing data, and drawing conclusions. In their efforts to discover answers, they reinforce previously learned skills, acquire new skills, and gain a greater understanding of mathematics. By presenting students with a variety of practical, engaging problems to solve, the projects contained in this book support the Problem-Solving Standard and foster the learning of valuable problem-solving skills.
The projects also support the Communication Standard. Because effective communication depends on clear thought and expression, communication encourages students to think critically, formulate their ideas, and express those ideas with mathematical precision. Communication gives students the opportunity to state their ideas, listen to the ideas of others, and compare them to their own, furthering their understanding of math. An important part of every project of this book is sharing results through formal and informal presentations.
The Teacherâs Role During Math Projects
Since discovery is an important part of any project, you must encourage your students to assume much of the responsibility for their learning and progress. Your role changes. Along with your traditional duties, you will be spending some of your class time doing many of the following:
⢠Presenting multistep, critical thinking projects based on real-life situations
⢠Organizing and monitoring groups so that members work effectively together
⢠Modeling appropriate behavior and problem-solving skills
⢠Demonstrating to students what it is to be an enthusiastic problem solver by showing them how you are willing to tackle projects that at first may seem impossible
⢠Brainstorming with groups
⢠Guiding students in their research efforts
⢠Showing students that process is crucial to finding solutions
⢠Offering suggestions to solve problems
⢠Offering encouragement and applauding efforts
⢠Explaining that mistakes are merely stepping-stones to finding solutions and to learning
⢠Answering questions
⢠Helping students sort through their thoughts as they consider problem-solving strategies
⢠Showing students that various strategies may be used to solve the same problem
⢠Providing sufficient time for working on projects
⢠Monitoring student behavior and ensuring that classroom procedures are followed
⢠Keeping students on task
⢠Evaluating and assessing student progress
⢠Providing time for sharing results
Along with the Standards for Problem Solving and Communication, working on math projects supports the Connections Standard. Although students are often taught mathematical skills in isolation or in packets of information, mathematics is a broad, complex subject in which ideas are interconnected, extending throughout the field of math and to other disciplines. As they work on projects, students will find relationships among ideas that will broaden their understanding of problems and solutions, thereby gaining an appreciation of the scope of mathematics and how math is interwoven through all parts of society.
The projects of this book also support the Representation Standard. Mathematical ideas are represented with notations, symbols, and figures. Typical examples of representations include numbers, expressions, diagrams, and graphs. There are many more, of course. As students work on projects, they will express mathematical ideas as representations, which then become tools to explore, model, and develop mathematical concepts. An understanding of mathematical representations will serve students well in their continued study of math.
Perhaps one of the greatest benefits of using math projects in the classroom is how students must draw on numerous skills as they work toward solutions. When students work on math projects, they expand their view of math to real-life situations and develop skills that stretch well beyond the traditional curriculum. Such results support the Standards of the NCTM and enrich the mathematical experiences of students.
Strategies for Problem Solving
The math projects your students will be doing will require computation, analysis, problem-solving and critical thinking skills, and decision making. Since the type and nature of problems vary, there can be no set plan or step-by-step process they can use all the time. You should familiarize your students with various strategies that they can draw on as needed. Emphasize that strategies are methods or procedures that can be used alone or with other strategies. If a student should ask what strategy is best for solving a particular problem, a good answer is, âThe one that works best for you.â You will likely find that different students will use different strategies to solve the same problem.
While some students may be quite adept at problem solving, many will need guidance, and you may wish to distribute copies of âProblem-Solving Strategies.â It is a guide that can help students get started in solving problems and keep them moving along.
There is also much you can do in regular lessons to help students acquire sound problem-solving skills that will be useful to them throughout their lives. See âHelping Students Develop Problem-Solving Skillsâ for a list of suggestions.
Problem-Solving Strategies
There are many ways to solve multistep problems. If you believe that there can be only one or two, you limit your options and reduce your chances of finding a solution. Following are some suggestions and strategies.
Before you begin seeking the solution:
⢠Make sure that you understand the problem. This may require rereading it several times.
⢠Be sure you understand the question and what answers you are seeking.
⢠Look for âhiddenâ questions.
⢠Find the important information that the problem provides, and eliminate information that is not essential. (Sometimes problems contain facts that you do not need.)
⢠Supply any missing information. You may need to research and analyze data.
⢠Make sure that you understand any special facts, data, or units of measurement.
As you seek a solution, consider all of these strategies:
⢠Look for patterns, relationships, connections, sequences, or causes and effects.
⢠Use guess and check (also called trial and error). Choose a place to start, try a solution, and see if it works. If it does not, try another.
⢠Organize your facts and information in a list. Sometimes this exercise can show relationships that you might otherwise overlook.
⢠Construct a table or chart. This is another way of identifying relationships.
⢠Think logically. Look for sequence and order.
⢠Rely on common sense. Some answers simply are not possible. Do not waste time pursuing them.
⢠Sketch or draw a model to help you visualize the problem.
⢠Simplify the problem by breaking it down into manageable steps. Solve a sub-problem...