Integrating Science, Technology, Engineering, and Mathematics

Issues, Reflections, and Ways Forward

Edited by Léonie Rennie, Grady Venville, John Wallace

© 2012 – Routledge

150 pages

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Paperback: 9780415897570
pub: 2012-05-11
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Hardback: 9780415897563
pub: 2012-05-11
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About the Book

How can curriculum integration of school science with the related disciplines of technology, engineering and mathematics (STEM) enhance students’ skills and their ability to link what they learn in school with the world outside the classroom?

Featuring actual case studies of teachers’ attempts to integrate their curriculum, their reasons for doing so, how they did it, and their reflections on the outcomes, this book encourages science educators to consider the purposes and potential outcomes of this approach and raises important questions about the place of science in the school curriculum. It takes an honest approach to real issues that arise in curriculum integration in a range of education contexts at the elementary and middle school levels. The clear documentation and critical analysis of the contribution of science in curriculum integration—its implementation and its strengths and weaknesses—will assist teachers, science educators, and researchers to understand how this approach can work to engage students and improve their learning, as well as how it does not happen easily, and how various factors can facilitate or hinder successful integration.

Reviews

"This series of case studies is valuable for educators and teacher educators in STEM fields." —Teachers College Record

Table of Contents

1. Exploring curriculum integration: Why integrate? Léonie Rennie, John Wallace, and Grady Venville 2. Focus on learning: Building rockets and submarines at Leaside High School Fiona Budgen 3. Focus on problem-solving: Modeling an ice hockey rink at Greenwich Public School Sheryl MacMath 4. Focus on engineering: Bridge building at Southern High School Grady Venville 5. Focus on literacy: Linking language and horticulture at Seaview Community School Susan Joan Gribble and Léonie Rennie 6. Focus on reinforcement: Exploring electricity and energy use at Beachville High School Sheryl MacMath 7. Focus on focus: Making and marketing a toy at Rinkview Public School John Wallace 8. Focus on teacher support: Considering access for the disabled at Gosport Community School Rachel Sheffield 9. Focus on leadership: Constructing a model house at Mossburn School Rachel Sheffield 10. Focus on community: Learning about tiger snakes at Chelsea Elementary School Rekha B. Koul and Rosemary Sian Evans 11. Focus on values: Investigating water quality in a local lake at Kentish Middle School Grady Venville 12. Reflecting on curriculum integration: Seeking balance and connection through a Worldly Perspective Léonie Rennie, Grady Venville, and John Wallace

About the Editors

Léonie Rennie is a Professor in the Science and Mathematics Education Centre at Curtin University in Western Australia.

Grady Venville is Professor of Science Education, Graduate School of Education, University of Western Australia.

John Wallace is a Professor at the Ontario Institute for Studies in Education, University of Toronto.

About the Series

Teaching and Learning in Science Series

The Teaching and Learning in Science Series brings together theoretical and practical scholarship emanating from a wide range of research approaches and paradigms on an equally wide variety of topics.

International concerns about the quality of the teaching and learning of science continue to increase across countries, states, provinces, and local communities with each round of international assessments. During a period of expansive reform in science education, it is especially important that the most current research in areas of critical concern be synthesized for use by both practitioners and researchers.

Proposals for authored or edited books are encouraged that address research and practice in the teaching and learning of science and/or any aspects of the current reforms in science education. The primary focus is the theoretical and practical importance of the problem being investigated. Equal consideration will be given to theoretically oriented and practitioner-oriented proposals. It is hoped that this series will generate as many critical questions as answers it may provide. Themes for prospective manuscripts may include, but are certainly not limited to:

  • the practicality of scientific literacy
  • science for "all" in urban and rural settings
  • scientific inquiry
  • nature of science
  • student misconceptions
  • conceptual change
  • teacher education
  • curriculum development
  • educational policy
  • high stakes testing
  • alternative teacher certification
  • apprenticeship models
  • curriculum integration
  • problem-based learning
  • special needs students and science reforms
  • teacher knowledge and beliefs
  • informal science education
  • classroom discourse
  • professional development
  • teacher/scientist collaborations
  • technology integration
  • equity and diversity within a climate of change

Learn more…

Subject Categories

BISAC Subject Codes/Headings:
EDU007000
EDUCATION / Curricula
EDU029030
EDUCATION / Teaching Methods & Materials / Science & Technology