A practical approach to supporting science and engineering students with self-regulated learning / Erin E. Peters-Burton, George Mason University.
Material type:
TextLanguage: English Publication details: Cambridge : Cambridge University Press, 2024.Description: xi, 266 pages : 6 x 0.64 x 9 inchesISBN: - 9781009103800
- 507.12 23/eng20230508 PER
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CUTN Central Library Sciences | Non-fiction | 507.12 PER (Browse shelf(Opens below)) | Available | 54583 |
Section I. Foundations
1. Student Engagement in Science and Engineering Practices
2. Unpacking Science and Engineering Practices
3. Self-Regulated Learning
Section II. Engaging in Disciplinary Tasks in Science and Engineering
4. Asking Questions and Defining Problems
5. Developing and Using Models
6. Planning and Carrying Out Investigations
7. Analyzing and Interpreting Data
8. Mathematics and Computational Thinking
9. Constructing Explanations and Designing Solutions
10. Engaging in Argument from Evidence
11. Evaluating and Communicating Information
Section III. Educational Research and Teacher Education Applications
12. Professional Development Designs
13. Planning Lessons with Embedded Self-Regulated Learning Using the 5E Format
14. Research designs for Examining Science and Engineering Practices and SRL.
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Science and engineering practices tend to be more difficult to teach and monitor for student progress than content knowledge, because practices are skill based. This book presents tangible ways for teacher educators and teachers to design learning environments that involve student goal setting, monitoring, and reflection on their performance of science and engineering practices. It models ways teachers can support effective learning behaviors and monitor student progress in science and engineering practices. It also presents practical ways to set up preservice teacher instruction and inservice teacher professional development that address both self-regulated learning and science and engineering practices. Educational research designs are presented from qualitative, quantitative, and mixed methods traditions that investigate student and teacher engagement with science and engineering practices through self-regulated learning.
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