Data Collection Activities in Algebra 1

Algebra has long been taught in the same way. This usually authority educateers rely heavily on the textbook. Though some textbooks take up changed in recent years, the central focus is till on paper and pencil, memorization of rules, and use of algorithms. The Curriculum and Evaluation Standards for School Mathematics (NCTM 1989) asks mathematics teachers to look activities that model real-world phenomena with a variety of function and represent and analyze relationships victimisation tables, verbal rules, equations, and graphs.The standards also urge teachers to give students the opport building blocky to be actively involved in math with data analysis and statistics that atomic number 18 integrated into the curriculum. My hope is to show that these types of activities can be incorporated into an algebra I course as a way of teaching side, y-intercept, and unidimensional equations. I innovation to teach a unit on one(a)-dimensional equations during the trine nine week s of an eighth grade algebra I course next semester.The jut pull up stakes begin with one correct learning the solid typically coered in most algebra textbooks. I do not plan to pretest the students because this is new material for them. This class result also go to the figurer lab and complete a lesson on the computer covering unidimensional equations. In addition, they go out work in pairs utilise T1-82 graphing calculator to seek slope and y-intercept. All of these methods be what I contrive typically taught over the past 5 years.An new(prenominal) eighth grade class impart be given several data accruement activities as a unit of study for linear equations. The primary resource for this class will be Algebra Experiments I by Mary Jean Winter and Ronald J. Carlson. My focus will begin with a totally class participation data accumulation natural process. The class will perform the wave in small sections at a time until the entire class has completed it. As a group will record the number of seconds it takes (for example) 3, 5, 8, 13, 15, 20, etc. to complete the wave.Students will thus use a prep bed activity sheet that deals them to bring a diagram of the experiment, describe the procedure, identify the independent and dependent variables, make a table of data, graph data, choose two representative points to fall in and create a line of best fit, find the slope and y-intercept of this line and describe it algebraically and verbally, then interpret the data through certain questions designed to create understanding of the purpose of the data and using the data to make predictions. This same format will be utilize for all subsequent activities uring the unit of study. The authors of the book say Algebra Experiments I reflects the prefatory philosophy of the NCTM standards for learning, teaching, and assessment. Students have an opportunity to work collaboratively, to interact, and to develop communication skill. The whole idea is to bring t he real world into your algebra schoolroom. I plan to require the class that does the experiments to keep a daily journal. It will complicate live they felt about the daily activities, a description of any particularized new topic or topics they learned and a list of questions they assuage have.Each solar day the class will address any concerns from the previous days activity. afterwards several activities have been done by hand, I will give lessons the class on how to analyze the data on the T1-82 graphing calculator. They will then be given the opportunity to use the calculator on another(prenominal) experiment. This class will also do the same graphing calculator activity on slope and y-intercept that the other class will do. I will give each class the same test and compare slews. I will also give each class a look back to compare attitudes, interest and understanding of the use of the material in a real-world application.My hope is that the students in the experiment class will have grasped the rudimentary concepts of linear equations as well if not better than the other class and be able to relate this knowledge in a rattling real way. My search for binds about my proposed topic was lengthy and I have chosen to comment on a few. My intent next semester is to read and use each of these articles in my actual action paper. I have only read one article in its entirety. What I poised from the abstracts was the importance of using real-world applications and incorporating the use of the graphing calculator.Since my goal is to show that data collection activities can provide a way to teach the basic concepts of linear equations in a real-world setting, I tried to find articles that would bear this out. Mercer (1995) presents lessons that teach slope-intercept concepts of linear equations through the use of the graphing calculator. Held (1995) uses Computer-Intensive Algebra (CIA) to focus on the use of engineering and real-world settings to deve lop a richer understanding of algebraic concepts. Dugdale (1995) has written about engine room and algebra curriculum reform. She focuses on current issues, potential residual directions, and research question.Assessment issues are addressed. Algebra is a way of reasoning involving variables/functional relationships, generalizations/modes of representation and mathematical probe/argument. Harvey (1995) was the keynote speaker at the Algebra Working Group of the Seventh world(prenominal) Conference on numeral Education in Quebec City, Canada. He speak of how important technology was in new algebra curriculum reform establish on the NCTM standards. Bell (1995) was also a speaker at the Quebec conference. He suggest curriculum modifications and reviews research on students performance.Menghini (1994) claims that, to be nubful, algebra must be linked to real-work problems. Wallace (1993) offers a data collection activity similar to one I have used in the past. I would like to i nclude this one in my lesson plans. It compares the trends of womens and mens world records for the 800-meter run using the linear and power Regression capabilities of a graphing calculator. A very promising article by Magidson (1992) addresses the challenges, risks, and rewards of teaching about linear functions in a technology-rich environs from a constructivist perspective.Describes an algebra class designed for junior high school students that focuses on the representations and real-world applications of linear functions. I hope this will help me next semester as I begin to encounter problems. References Bell, A. , (1995). Purpose in school algebra. ledger of Mathematical Behavior, 14 (1), 41-73. Dugdale, S. and others, (1995). Technology and algebra curriculum reform current issues, potential directions, and research questions. Journal of Computers in Mathematics and Science didactics, 14 (3), 325-57. Harvey, J. nd others. (1995). The influence of technology on the teaching and learning of algebra. Journal of Mathematical Behavior, 14 (1), 75-109. Heid, K. (1995). A technology-intensive approach to algebra. Mathematics Teacher, 88 (8), 650-56. Magidson, S. (1992). From the laboratory to the classroom a technology-intensive curriculum for functions and graphs. Journal of Mathematical Behavior, 11 (4), 361-37. Menghini, M. (1994). Form in algebra reflecting, with Peacock, on upper secondary school teaching. For the Learning of Mathematics, 14 (3), 9-14.Mercer, J. (1995). Teaching graphing concepts with graphing calculators. Mathematics Teacher, 88 (4), 268-73. Wallace, E. (1993). Exploring regression with a graphing calculator. Mathematics Teacher, 86, (9), 741-43. Example 2 Use of Algebra Tiles to Enhance the Concept Development of Operations on Polynomials and calculate in Ninth Grade Algebra Students The purpose of this action research purpose is to find out if the use of Algebra Tiles will enkindle the concept exploitation of operations on polyn omials and factoring in ordinal grade algebra students.Mathematics teachers are guided by the Arkansas State mathematics Framework. The following deuce-ace student learning expectations are covered by this research project. 2. 1. 5 Describe, visualize, draw and construct geometric figures in one, two, and three dimensions. 2. 3. 7 symbolise problem situations with geometric models and apply properties of figures in meaningful context to work on mathematical and real-world problems. 2. 3. 8 Represent one, two and three-dimensional geometric figures algebraically. Algebra Tiles allow in students hands-on experience with polynomials.The tiles give students the opportunity to model, to create a psychic image, to draw, and to then typically manipulate polynomials. They are based on cranial orbit and multiplication concepts that students are familiar with. Howden (1985) states It is generally recognized that understanding the meaning of a mathematics concept, as opposed to merely performing the associated computation, is an essential element of true learning and achievement and research shows that modeling and visual percept promotes such understanding.Two units on polynomials will be taught in 9th grade algebra. unity focusing on operations on polynomials and the other focusing on factoring. Two teachers will teach the same material using the same methods and tests. No pre-test will be given because ninth grade students have had no previous experience with these concepts. Both teachers will teach two of their own classes each of these two polynomial units. One class will receive handed-down instruction by symbolic manipulation only. The other class will use the Algebra Tiles along with the traditional method.The students scores for each unit using Algebra Tiles will be compared to the scores based on the traditional method only. Differences will be compared and noted. In addition, students receiving instruction with the tiles will keep a journal each day describing how they feel about using the tiles. According to Sharp (1995), students using algebra tiles pitch it easy to think about algebraic manipulations when they visualized the tiles and the majority of students stated that the tiles added a mental imagery that made learning easier. Another realizable comparison will be to see if there is any difference in scores or perception between boys and girls using the tiles. The goal of this research project is to see if Algebra Tiles or modeling will enhance the understanding of polynomials and make the process of factoring easier. References Howden, Hilde. Algebra Tiles for the Overhead Projector. New Rochelle, NY Cuisenaire bon ton of America, 1985. Sharp, Janet M. Results of Using Algebra Tiles as Meaningful Representations of Algebra Concepts, ERIC search, 1995.Related article Study give Algebra