This practical resource takes educators through a planning process--from selecting standards to designing learning activities--that weaves together language, literacy, and science in ways that are responsive to emergent bilinguals. Drawing on extensive and current research, the authors show how secondary educators can use students' own language…

Now in a fully updated seventh edition, "The Teaching of Science in Primary Schools" provides essential information for students, trainee, and practising teachers about the why, what and how of teaching primary science. Paying particular attention to inquiry-based teaching and learning, the book recognises the challenges of teaching…

The addition of the arts to STEM education, now known as STEAM, adds a new dimension to problem-solving within those fields, offering students tools such as imagination and resourcefulness to incorporate into their designs. However, the shift from STEM to STEAM has changed what it means for students to learn within and across these disciplines.…

These proven, practical early childhood teaching strategies help teachers identify young gifted children, differentiate curriculum, assess and document students' development, and build partnerships with parents. Chapters focus on early identification, curriculum compacting, social studies, language arts, math and science, cluster grouping,…

How do teachers and schools create meaningful learning experiences for students with diverse skills, abilities, and cultures? How can teachers authentically assess the learning of their students and build on their strengths and interests in ways that enrich the larger community? How can schools become places where everyone is learning from each…

This article describes how the Science Department at Shoeburyness High School in Essex introduced a space-themed year 8 (ages 12-13) science course to increase student engagement and motivation. As well as discussing the rationale for such curriculum change, it describes the processes of planning and resourcing the course, and the barriers that…

New Zealand has had a national school science curriculum for more than 80 years. In the past the evolution content of this document has varied, and has at times been strongly influenced by creationist lobby groups. The "new" science curriculum, to be fully implemented in 2010, places much greater emphasis than before on understanding…

This article addresses some of the curriculum implications of adopting a socioscientific issues (SSIs)-oriented approach to science education, including (a) the need to provide scientific knowledge on a need-to-know basis and adapted to the complexity, multidimensionality, and fluidity of real-world situations and the constraints of particular…

In this timely book, curriculum expert Gerald A. Lieberman provides an innovative guide to creating and implementing a new type of environmental education that combines standards-based lessons on English language arts, math, history, and science with community investigations and service learning projects. By connecting academic content with local…

Students use manipulative models and small-scale simulations that promote learning of complex biological concepts. The authors have developed inexpensive wet-lab simulations and manipulative models for "Diagnosing Diabetes," "A Kidney Problem?" and "A Medical Mystery." (Contains 5 figures and 3 online resources.)

With a grant through Indiana University's Inner Asian & Uralic National Resource Center, the authors developed an online, five-week unit that discusses the cultural and ecological "worlds" of central Asia, specifically the countries of Kazakhstan, Uzbekistan, Kyrgyzstan, Tajikistan, and Turkmenistan. There are two main ideas…

This article summarizes the major components of curriculum design: vision, operationalization of the vision, design, and evaluation. It stresses that the relationship between these components is dynamic, and that the process of curriculum design does not proceed via a linear application of these components. The article then summarizes some of the…

Because quantitative biology requires skills and concepts from a disparate collection of different disciplines, the scientists of the near future will increasingly need to rely on collaborations to produce results. Correspondingly, students in disciplines impacted by quantitative biology will need to be taught how to create and engage in such…

The need for a revised curriculum within the life sciences has been well-established. One strategy to improve student preparation in the life sciences is to redesign introductory courses like biology, chemistry, and physics so that they better reflect their disciplinary interdependence. We describe a medically relevant, context-based approach to…

In recent years, short question-and-answer activities known as lecture tutorials that are designed to help students work with and discover concepts for themselves, rather than simply being told about them (lectured to) have become a popular tool for learner-centred teaching of introductory college astronomy. Students on such a course are usually…