Science education has an important role to play in supporting our young people to meet the complex challenges of the modern age. Students need a curriculum that can prepare them to work collaboratively, competently and confidently to address the wicked "glocal" problems of our time. Rangatahi themselves recognise this - those involved in…

The National Research Council's "Framework for K-12 Science Education" and the Next Generation Science Standards ("NGSS Lead States in Next Generation Science Standards: For states, by states." The National Academies Press, Washington, 2013) move teaching away from covering many isolated facts to a focus on a smaller number of…

Focusing on the science knowledge and pedagogical content knowledge that teachers need to realize the vision of the "Next Generation Science Standards" (NGSS) in their classrooms, this study presents findings from efforts to (1) adapt existing criteria and design heuristics for educative features of curriculum materials to the needs of…

This updated third edition of "Curriculum Planning and Instructional Design for Gifted Learners": (1) Is a guide to designing curriculum for the gifted at any level of learning and in any subject area; (2) Addresses the need to differentiate at all levels in the design process; (3) Shows how to customize curriculum for advanced learners;…

Learning progressions have been demarcated by some for science education, or only concerned with levels of sophistication in student thinking as determined by logical analyses of the discipline. We take the stance that learning progressions can be leveraged in mathematics education as a form of curriculum research that advances a linked…

In this article, the authors provide an overview of engineering and the engineering design process, and describe the steps they took to develop a fifth grade-level, standards-based engineering design task titled "Getting the Dirt on Decomposition." Their main goal was to focus more on modeling the discrete steps they took to create and…

Background: Elementary Science Education is struggling with multiple challenges. National and State test results confirm the need for deeper understanding in elementary science education. Moreover, national policy statements and researchers call for increased exposure to engineering and technology in elementary science education. The basic…

Backward design provides a framework for curriculum planning that can be used at unit, course or school level. The approach places assessment at the heart of the planning process. In this article the ideas of backward design are outlined and their application to a current curriculum development project, York Science, is described.

There is a growing acknowledgement that STEM education, at all levels, is not producing learners with a deep understanding of core disciplinary concepts. A number of efforts in STEM education reform have focused on the development of "student-centered" active learning environments, which, while believed to be more effective, have yet to be widely…

Past work has demonstrated that language comprehension ability correlates with general chemistry course performance with medium effect sizes. We demonstrate here that language comprehension's strong cognitive grounding can be used to inform effective and equitable pedagogies, namely, instructional interventions that differentially aid low-skilled…

The Massachusetts Department of Elementary and Secondary Education (DESE) released proposed Science and Technology/Engineering standards in 2013 outlining the concepts that should be taught at each grade level. Previously, standards were in grade spans and each district determined the method of implementation. There are two different methods used…

This research illustrates how varying enactments of an engineering-design-based science curriculum shaped the development of students' domain-specific scientific ideas and practices. In this comparative case study rooted in the analytical perspectives of activity theory and learning environments, student and teacher participants in three…

Research on student learning in physics has tended to focus largely on an individual perspective on learning. This can be contrasted with a sociocultural perspective which focuses on the social and linguistic dimensions of learning. As an exemplar of this perspective, this paper uses Gee's notions of 'little d' discourse and 'big D' Discourse as a…

Local instructional design describes the process of customization that naturally occurs when curriculum innovations interface with local classrooms and schools. Describing the practice of local instructional design can help to explain how curriculum is adapted to local conditions and provides insight on how instructional leaders mediate…

Critiquing and adapting curriculum materials are essential teaching practices but challenging for many preservice teachers. This study explores the use of educative curriculum materials--materials intended to support both teacher and student learning--to help preservice elementary teachers develop their pedagogical design capacity for critiquing…