Full Description
This resource is your guide to understanding STEM's place within K-12 education, amidst the many meanings and initiatives that swirl around this buzzword in today's schools. Authors Rodger W. Bybee and Patrick L. Brown, who have worked in leadership roles developing curricula and national standards, provide background, explanations, and guidance for demystifying STEM's place in contemporary classrooms and establishing sustainable STEM programs and practices that prepare students for their futures. Chapters are organized around STEM's Purposes, Policies, Programs, and Practices -- clarifying what STEM means beyond the acronym, examining the role of educational policies, specifically the Next Generation Science Standards (NGSS), developing coherent school programs, and implementing effective classroom teaching practices. Each STEM discipline is defined alongside concrete recommendations for designing, developing, and implementing instructional materials. Across the sections, the authors focus on small, manageable changes that educators and leaders can develop with their colleagues to formulate and implement. Chapters also include personal educator stories, references to historically significant and contemporary research and examples, recommendations for leadership, and discussion questions. Whether you are a teacher leader, a member of a professional learning community, or a district administrator, this helpful guide should be a key consideration within reform processes, from selecting new programs and developing instructional materials, to providing professional development.
Contents
1. STEM Matters: An Introduction Part 1: STEM Education - Realities, Possibilities, and Priorities 2. Realities: STEM is Here; And So Are Science Standards 3. Possibilities: Thinking Differently About STEM Education 4. Priorities: Reasonable and Prudent Recommendations for STEM Education Part 2: Introducing Foundations for the STEM Disciplines 5. Science: A Way of Explaining Phenomena in The World 6. Technology: A Way of Adapting by Humans 7. Engineering: A Way of Designing Solutions for Human Problems 8. Mathematics: A Way of Quantifying and Expressing Relationships Part 3: Exploring Purposes, Policies and Perspectives for STEM Programs and Practices for STEM Education 9. The Purposes of Education, Including STEM 10. Policies for STEM Education, Including Standards 11. STEM Programs, Including Curriculum and Assessment 12. STEM Practices: Using Effective Instructional Sequences Part 4: Cultivating STEM Teacher Expertise 13. Centering Efforts on the Instructional Core 14. Beginning With a Manageable Unit 15. Enhancing Learning: Essential Practices and Impactful Instructional Sequences Part 5: Developing District-Wide STEM Programs and Practices 16. Establishing a Plan for Change 17. Evaluating STEM Instructional Materials and Resources 18. Curriculum-Based Professional Learning 19. Conclusion: Our Vision for Your Guidance and Leadership in STEM Education
