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Reconceptualizing STEM Education
Reconceptualizing STEM Education explores and maps out research and development ideas and issues around five central practice themes: Systems Thinking; Model-Based Reasoning; Quantitative Reasoning; Equity, Epistemic, and Ethical Outcomes; and STEM Communication and Outreach. These themes are aligned with the comprehensive agenda for the reform of science and engineering education set out by the 2015 PISA Framework, the US Next Generation Science Standards and the US National Research Council’s A Framework for K-12 Science Education. The new practice-focused agenda has implications for the redesign of preK-12 education for alignment of curriculum-instruction-assessment; STEM teacher education and professional development; postsecondary, further, and graduate studies; and out-of-school informal education. In each section, experts set out powerful ideas followed by two eminent discussant responses that both respond to and provoke additional ideas from the lead papers. In the associated website highly distinguished, nationally recognized STEM education scholars and policymakers engage in deep conversations and considerations addressing core practices that guide STEM education.
Supporting K-12 English Language Learners in Science
Presenting three systematic, ongoing research and professional learning projects for supporting English learners in science, this book synthesizes their common themes and highlights unique features, findings, and lessons learned. Based in a different region of the U.S. and focused on different target populations, each project actively grapples with the linguistic implications of the three-dimensional learning required by the Framework for K-12 Science Education and the Next Generation Science Standards.
Teaching Science to Every Child
Teaching Science to Every Child proposes a fresh perspective for teaching school science and draws upon an extensive body of classroom research to meaningfully address the achievement gap in science education. Settlage and Southerland begin from the point of view that science can be thought of as a culture, rather than as a fixed body of knowledge. Throughout this book, the idea of culture is used to illustrate how teachers can guide all students to be successful in science while still being respectful of students' ethnic heritages and cultural traditions. By combining a cultural view of science with instructional approaches shown to be effective in a variety of settings, the authors provide elementary and middle school teachers with a conceptual framework as well as pedagogical approaches which support the science learning of a diverse array of students.
Evolution Education Around the Globe
This edited book provides a global view on evolution education. It describes the state of evolution education in different countries that are representative of geographical regions around the globe such as Eastern Europe, Western Europe, North Africa, South Africa, North America, South America,Middle East, Far East, South East Asia, Australia, and New Zealand.Studies in evolution education literature can be divided into three main categories: (a) understanding the interrelationships among cognitive, affective, epistemological, and religious factors that are related to peoples’ views about evolution, (b) designing, implementing, evaluating evolution education curriculum that reflects contemporary evolution understanding, and (c) reducing antievolutionary attitudes. This volume systematically summarizes the evolution education literature across these three categories for each country or geographical region. The individual chapters thus include common elements that facilitate a cross-cultural meta-analysis. Written for a primarily academic audience, this book provides a much-needed common background for future evolution education research across the globe.
Science Teachers' Learning
Currently, many states are adopting the Next Generation Science Standards (NGSS) or are revising their own state standards in ways that reflect the NGSS. For students and schools, the implementation of any science standards rests with teachers. For those teachers, an evolving understanding about how best to teach science represents a significant transition in the way science is currently taught in most classrooms and it will require most science teachers to change how they teach. That change will require learning opportunities for teachers that reinforce and expand their knowledge of the major ideas and concepts in science, their familiarity with a range of instructional strategies, and the ...
Crosscutting Concepts
"If you've been trying to figure out how crosscutting concepts (CCCs) fit into three-dimensional learning, this in-depth resource will show you their usefulness across the sciences. Crosscutting Concepts: Strengthening Science and Engineering Learning is designed to help teachers at all grade levels (1) promote students' sensemaking and problem-solving abilities by integrating CCCs with science and engineering practices and disciplinary core ideas; (2) support connections across multiple disciplines and diverse contexts; and (3) use CCCs as a set of lenses through which students can learn about the world around them. The book is divided into the following four sections. Foundational issues t...
Making the Unequal Metropolis
List of Oral History and Interview Participants -- Notes -- Index
Making Education Educational
This book is an argument for reflexivity in the act of teaching, which means to acknowledge that intention guides the act of teaching. Teaching must create attention towards processes of collectivity in the classroom. Today, teaching is both acts of expressing knowledge and acts of securing justice to all students through a mediation of knowledge. Teaching therefore expresses both knowledge with reference to school subjects, and justice according to the distribution of this knowledge. The authors argue for teaching as the driver of education. To pay attention to teaching is to pay attention to that which is inside the system of education. To consider education as a mediation of knowledge bet...
Building Assets Reducing Risks
A recipient of the federal Investing in Innovation (i3) grant, Building Assets Reducing Risks is an innovative, strength-based school program for grade 9 designed to reduce academic failures; close the achievement gap; increase attendance; decrease the use of alcohol, tobacco, and other drugs; and improve the school climate. One component of this program is I-Time, a series of weekly 30-minute sessions for team building and education in social competencies. This I-Time Curriculum binder provides 35 engaging activities focusing on a variety of topics, with the goal to create a positive school climate by building individual and group strengths and improving student-to-student and student-to-teacher relationships.
