The Impact of Virtual Manipulatives on Student Achievement in Mathematics PDF Download
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Author: Kathleen Palazuelos
Publisher:
ISBN:
Category : Manipulatives (Education)
Languages : en
Pages : 64
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Book Description
This study examined the academic achievement of students using virtual manipulatives compared to students using physical manipulatives to understand a fraction unit. The school was a Title I school with a high population of English learners. The unit was taught with the district’s curriculum to both the control and treatment groups. Treatment group students utilized virtual manipulatives during instruction, both dynamic and static manipulatives. Control group students utilized only physical manipulatives. The study found students in the treatment group utilizing virtual manipulatives outperformed the control group on the posttest after controlling for prior knowledge. English learners in the treatment group also had a higher academic achievement than students in the control group after controlling for prior knowledge.
Author: Kathleen Palazuelos
Publisher:
ISBN:
Category : Manipulatives (Education)
Languages : en
Pages : 64
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Book Description
This study examined the academic achievement of students using virtual manipulatives compared to students using physical manipulatives to understand a fraction unit. The school was a Title I school with a high population of English learners. The unit was taught with the district’s curriculum to both the control and treatment groups. Treatment group students utilized virtual manipulatives during instruction, both dynamic and static manipulatives. Control group students utilized only physical manipulatives. The study found students in the treatment group utilizing virtual manipulatives outperformed the control group on the posttest after controlling for prior knowledge. English learners in the treatment group also had a higher academic achievement than students in the control group after controlling for prior knowledge.
Author: Patricia S. Moyer-Packenham
Publisher: Springer
ISBN: 3319327186
Category : Education
Languages : en
Pages : 344
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Book Description
This book explores terminology, frameworks, and research being conducted worldwide on virtual manipulatives. It brings together international authors who provide their perspectives on virtual manipulatives in research and teaching. By defining terminology, explaining conceptual and theoretical frameworks, and reporting research, the authors provide a comprehensive foundation on the study and use of virtual manipulatives for mathematics teaching and learning. This foundation provides a common way for researchers to communicate about virtual manipulatives and build on the major works that have been conducted on this topic. By discussing these big ideas, the book advances knowledge for future research on virtual manipulatives as these dynamic tools move from computer platforms to hand-held, touch-screen, and augmented platforms.
Author: Amy B. Holmes
Publisher:
ISBN:
Category :
Languages : en
Pages : 18
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Book Description
Four figures and three tables are appended.There is growing consensus among researchers, educators, and policy makers about the need for greater emphasis on ambitious student-centered mathematics instruction in light of mounting concern about student mathematics performance in the intermediate grades and beyond. To facilitate educators' adoption of ambitious mathematics instructional practices, recent reform initiatives, such as the Common Core Standards for Mathematics (CCSM), have specified the content elementary students should learn and the practices in which students should engage, while organizations such as the National Council of Teachers of Mathematics (NCTM) have assumed responsibility for making recommendations for improving instructional practices in mathematics. In particular, since 1989, the NCTM has continually called for the increased use of manipulative materials at all levels of mathematics education in order to support students' conceptual and procedural understanding. However, the evidence for the effects of using manipulatives to support student mathematics achievement across the primary and secondary grades is generally mixed. Investigating reasons for such contradictory findings through rigorous inquiry is important for advancing both theory and practice in mathematics education. This systematic review and meta-analysis seeks to address this issue in order to strengthen communication and research partnerships with educators, administrators, and policy makers interested in effective practices in mathematics education. A comprehensive literature search was conducted to identify qualifying studies reported between 1989 and 2012, including a search of electronic bibliographic databases, gray literature databases, and reference lists of research reports and prior reviews. The search culminated in a total of 856 reports, of which 17 reports describing 21 primary studies met the eligibility criteria after screening of titles, abstracts, and/or full-text reports, for a total sample of 1519 students. Two separate meta-analyses were conducted for the comparison of manipulatives use to a business as usual nonuse condition (14 studies, 14 effect sizes, 1126 students) and for the comparison of virtual manipulatives use to a business as usual physical manipulatives use condition (7 studies, 7 effect sizes, 393 students). Although clearly not a mathematics achievement panacea, results from this review provide evidence that student achievement in grades PK-12 can be improved through the use of mathematics manipulatives. Among other implications, practitioners, administrators, and policy makers may want to consider purchasing more inexpensive manipulative materials in order to reserve funds for other interventions that research has shown to have a more substantial impact on student mathematics achievement. Tables and figures are appended.
Author: Sara Delano Moore
Publisher: Corwin Press
ISBN: 1071816063
Category : Education
Languages : en
Pages : 289
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Book Description
Put math manipulatives to work in your classroom and make teaching and learning math both meaningful and productive. Mastering Math Manipulatives includes everything you need to integrate math manipulatives—both concrete and virtual—into math learning. Each chapter of this richly illustrated, easy-to-use guide focuses on a different powerful tool, such as base ten blocks, fraction manipulatives, unit squares and cubes, Cuisenaire Rods, Algebra tiles and two-color counters, geometric strips and solids, geoboards, and others, and includes a set of activities that demonstrate the many ways teachers can leverage manipulatives to model and reinforce math concepts for all learners. It features: · Classroom strategies for introducing math manipulatives, including commercial, virtual, and hand-made manipulatives, into formal math instruction. · Step-by-step instructions for over 70 activities that work with any curriculum, including four-color photos, printable work mats, and demonstration videos. · Handy charts that sort activities by manipulative type, math topic, domains aligned with standards, and grade-level appropriateness.
Author: Richard A. Lesh
Publisher: Routledge
ISBN: 1135484333
Category : Education
Languages : en
Pages : 145
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Book Description
This special issue of Mathematical Thinking and Learning describes models and modeling perspectives toward mathematics problem solving, learning, and teaching. The concern is not only the mature forms of models and modeling in communities of scientists and mathematicians, but also the need to initiate students in these forms of thought. The contributions of this issue suggest a variety of ways that students (children through adults) can be introduced to highly productive forms of modeling practices. Collectively, they illustrate how modeling activities often lead to remarkable mathematical achievements by students formerly judged to be too young or too lacking in ability for such sophisticated and powerful forms of mathematical thinking. The papers also illustrate how modeling activities often create productive interdisciplinary niches for mathematical thinking, learning, and problem solving that involve simulations of similar situations that occur when mathematics is useful beyond school.
Author: Maria Lowther
Publisher:
ISBN:
Category : Manipulatives (Education)
Languages : en
Pages : 55
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Book Description
Author: Richard Noss
Publisher: Springer Science & Business Media
ISBN: 9400916965
Category : Education
Languages : en
Pages : 288
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Book Description
This book challenges some of the conventional wisdoms on the learning of mathematics. The authors use the computer as a window onto mathematical meaning-making. The pivot of their theory is the idea of webbing, which explains how someone struggling with a new mathematical idea can draw on supportive knowledge, and reconciles the individual's role in mathematical learning with the part played by epistemological, social and cultural forces.
Author: Brenda M. Malik
Publisher:
ISBN:
Category : Academic achievement
Languages : en
Pages : 166
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Book Description
Author: Ruth C. Clark
Publisher: John Wiley & Sons
ISBN: 1118046749
Category : Education
Languages : en
Pages : 302
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Book Description
Efficiency in Learning offers a road map of the most effective ways to use the three fundamental communication of training: visuals, written text, and audio. Regardless of how you are delivering your training materials—in the classroom, in print, by synchronous or asynchronous media—the book’s methods are easily applied to your lesson presentations, handouts, reference guides, or e-learning screens. Designed to be a down-to-earth resource for all instructional professionals, Efficiency in Learning’s guidelines are clearly illustrated with real-world examples.
Author: Jadwiga Domino
Publisher:
ISBN:
Category :
Languages : en
Pages : 126
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Book Description
Even though there numerous books, articles, research studies, and other publications written since National Council of Teacher of Mathematics (NCTM) published Curriculum and Evaluation Standards of School Mathematics in 1989 have advocated the use of manipulatives in the teaching of mathematics, there is no conclusive evidence showing that the use of manipulatives helps students attain higher achievement in mathematics. The purpose of this meta-analysis is to investigate the overall effect of using manipulatives in mathematics instruction, compared to traditional instructional methods, on students' achievement in mathematics in kindergarten through Grade 6. After formulating the research question, the following steps were undertaken: developing a coding form, gathering research studies by searching the literature, coding the appropriate information from each study, calculating effect sizes, and analyzing and interpreting the effect sizes.^The coding form developed for this study included study characteristics such as year of publication, type of publication, study design, student ability level, SES of the students, type of community, type of measuring instrument, and duration of treatment. These nine study characteristics became the moderator variables of this study and it was found that they had a significant impact on the overall mean effect size. Eight electronic data bases and 12 peer-reviewed journals were searched to locate both published and unpublished studies conducted in the U.S. between 1989 and 2010. Eligible studies met the following search criteria: manipulative use was compared to manipulative nonuse, students were in kindergarten through Grade 6, sufficient information was reported for the calculation of effect sizes, and a control group/treatment group design was used.^The search of online databases and education journals revealed 1035 articles about manipulatives and yielded 31 primary studies that met the search criteria. These studies represented 5288 students and produced 35 effect sizes. The mean effect size was 0.50 with a confidence interval between 0.34 and 0.65. These results indicate that students who used manipulatives during mathematics instruction had statistically significant higher mathematics achievement than students who were taught by traditional teaching methods. A 0.50 effect size can be interpreted to mean that students who used manipulatives scored one-half of a standard deviation higher on mathematics achievement tests than students who did not use manipulatives. This improvement in achievement implies that the average student who used manipulatives performed better than 69% of the students who did not use manipulatives.^An implication of this research study is that there is evidence that student achievement in mathematics in kindergarten through Grade 6 can be improved as a result of using manipulatives. Implications for practice are that curriculum supervisors can confidently recommend policies that include manipulatives in the teaching of mathematics, teacher educators should guide future teachers in the proper use of manipulatives, and professional development personnel can encourage and prepare teachers to incorporate the use of manipulatives in their teaching practices.
