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Fostering Learners’ Collaborative Problem Solving with RiverWeb

Fostering Learners’ Collaborative Problem Solving with RiverWeb. Roger Azevedo University of Maryland Mary Ellen Verona Maryland Virtual High School Jennifer G. Cromley University of Maryland. Acknowledgements. Maryland Virtual High School (MVHS) Susan Ragan, Stacey Pitrech, Marylin Leong

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Fostering Learners’ Collaborative Problem Solving with RiverWeb

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  1. Fostering Learners’ Collaborative Problem Solving with RiverWeb Roger Azevedo University of Maryland Mary Ellen Verona Maryland Virtual High School Jennifer G. Cromley University of Maryland

  2. Acknowledgements • Maryland Virtual High School (MVHS) • Susan Ragan, Stacey Pitrech, Marylin Leong • National Center for Supercomputing Applications (NCSA) • David Curtis • National Science Foundation (NSF) • University of Maryland • Myriam Tron

  3. Overview • Introduction • Context - MVHS - NCSA - UMCP • RiverWeb • Framework and Curriculum Design Principles • Research Questions • Present Study • Method • Results • Summary • Future Directions

  4. RiverWeb - Water Quality Web-based Simulation

  5. RiverWeb

  6. RiverWeb -Notebook

  7. RiverWeb - Scatterplots & Help

  8. Framework & Curriculum Design Principles • Context • Meaningful problem space that provides intellectual challenges and sustains engagement • Driving Q’s, sub-questions, anchoring event • Standards based • Larger community of experts that defines the language and methods of the larger community • AAAS benchmarks, State & county science objectives • Inquiry • The accepted method of the scientific community for solving problems • Asking Qs, data collection, organization, and data analysis, sharing and communicating data

  9. Framework & Curriculum Design Principles • Collaboration • Interaction among students, teachers, and community members to share information and negotiate meaning • e.g., small-group meetings • Learning tools • Tools that support students in intellectually challenging tasks • Data collection, communication, modeling • Artifacts • Representations of ideas and concepts that can be shared, critiqued, and revised to enhance learning • e.g., concept maps, scientific models • Scaffolds • Methods provided by teachers, peers, and on-line resources

  10. Research Questions • How do students use multiple representations (e.g., graphs, scatterplots) during scientific reasoning? • How do students use math, biology, and chemistry concepts to reason about watershed problems? • What is the nature of students’ misconceptions about dynamic systems? • What is the nature of students’ discourse during scientific reasoning? (e.g., observations, explanations, use of supporting evidence) • How does RiverWeb support collaborative scientific reasoning and argumentation? • How and when do students utilize scaffolding provided by the teacher, peers and/or digital resources?

  11. Method • Students • 16 9th grade students, 2 Honors biology classes • Introduction to the interdependence of living organisms • Procedure • Students audio- and videotaped on 2 separate occasions over a 1 week period • 1 environmental science teacher - complete participant • Regular classroom teacher and visiting teacher • 2 researchers acted as complete observers • 10 hrs of video and audio (2 student-pairs x 2 x 75 min)

  12. Method (2) • In-depth examination of students’ emerging understanding of science phenomena • Data sources • 10 hrs of video and audio (8 student-pairs x 2 x 75 min) • notebook entries, prediction statements, pretest and posttests • Data Analyses • Quantitative (pre- and posttests, quality of notebook answers) • Nature of collaborative problem solving (e.g., reasoning chains) • Nature of teachers’ scaffolding during science activities

  13. Results • Overall, students exhibited the following difficulties: • inability to establish whether the differences observed are due to cause-and-effect or are based on a relationship between variables • lack of understanding of definitions and concepts (e.g., runoff) • difficulty reading and comparing multiple representations • incomplete co-construction of knowledge • Students engage in long reasoning chains as they jointly solve problems presented in the work sheets and notebook by accessing multiple representations and other WQS features. • Teachers provide individualized levels of scaffolding. • Students create incorrect analogies and/or use incorrect visual representations of complex concepts. • Engaged students are metacognitively aware of their performance and will address deficiencies by deploying various strategies.

  14. Summary • “Flexible” application of educational research • Theoretically-based and empirically-driven approach • Evolution and scaling-up of “computers as cognitive tools” theme • Self-regulation learning model • Role of modeling and visualization tools for science • Teachers’ professional development

  15. Future Directions • Investigate the role of self-regulated learning (SRL) during students’ complex science learning with RiverWeb • examine effects of teacher-set goals vs. learner-generated sub-goals on students’ emerging understanding of scientific phenomena • Understand the nature and role of classroom discourse during science inquiry activities • Build additional RiverWeb features • Content assistants • Hypothesis-testing area • Explore the use of AI techniques • model SRL and explanation-based coach

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