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Ways of knowing science and opportunities for student learning. Mark Olson Neag School of Education University of Connecticut NARST--Dallas, TX April 7th, 2005. Motivation for study.
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Ways of knowing scienceand opportunities for student learning Mark Olson Neag School of Education University of Connecticut NARST--Dallas, TX April 7th, 2005 Olson NARST Presentation, Dallas
Motivation for study • Despite improvements in my students’ abilities in teacher education courses to make plans, construct assessments and reflect on their experiences… • Their teaching practices often appeared to be “traditional practice” in reformist clothing. Olson NARST Presentation, Dallas
Study Design • 5 secondary science interns (5th year teacher education students). • Conducted extensive interviews around observations of consecutive lessons. • 4 sets of observations and interviews for each intern. • Collected available documents, audiotaped interviews and videotaped instruction. Olson NARST Presentation, Dallas
The framing questions How do interns “make sense” of science as subject matter? And, How does this impact their students’ opportunities to learn science? Olson NARST Presentation, Dallas
The framework • Paradigmatic and narrative ways of knowing (Bruner, 1985) form distinct dimensions along which science interns make sense of subject matter. Olson NARST Presentation, Dallas
Paradigmatic ways ofknowing science A patternexplaining enterprise that: • Views particular events in relationship to general principles. • Focuses on arguments about the relationships between conceptual tools (often models) and scientific data (events). • Organizes events in relationship to an argument about general principles rather than a chronological order. Olson NARST Presentation, Dallas
Narrative ways ofknowing science A themeillustrating enterprise that: • Views particular events in relationship to other particular events. • Places the animal, plant or object of study, and not the scientific activity, as the main character of a story. • Organizes events chronologically. Olson NARST Presentation, Dallas
Paradigmatic understanding = N + P understanding P • N • Narrative Two-dimensional representation for understanding in science Olson NARST Presentation, Dallas
Sam • Taught college-prep chemistry in rural high school setting. • Strong rapport with students & mentor. • Had autonomy in planning and teaching. • Worked hard to create academically rigorous lessons Olson NARST Presentation, Dallas
radioactive Source Sam’s lesson on the Rutherford gold-foil experiment • Led students through the sequence of the experiment • Asked students “What do you think happened next?” • Used clay-ball activity to reinforce results of the experiment. Olson NARST Presentation, Dallas
Sam’s narrative construal of science • Sam engaged students in content that relied on memory and careful attention to detail. • Cognitive complexity was minimized and learning was the result of effort. • Examples served largely to illustrate subject matter. Olson NARST Presentation, Dallas
Carol • 7th grade science intern in suburban MS. • Excellent rapport with students, mentor. • Had lots of autonomy to teach what and how she wanted. • Very hard worker who spent hours preparing lessons. Olson NARST Presentation, Dallas
Carol’s lessons on natural selection • Learning science well was a matter of being able to make good explanations of phenomena. • Carol helped students organize their ideas in terms of the model. Olson NARST Presentation, Dallas
Resistance to bug spray • Question: how do ants become resistant to bug spray? • A student claimed that “after they have been sprayed a lot, they get used to it and it doesn’t kill them.” • Carol pushed students to use the model to explain this event. Olson NARST Presentation, Dallas
Carol’s paradigmatic & narrative approach • Carol worked hard to understand Natural Selection in a paradigmaticway. • She also sought a set of examples that would provide the basis for a rich narrative understanding as well. Olson NARST Presentation, Dallas
Sam The big idea of the lesson served as a theme. This theme was illustrated in each of the activities. Planned carefully to prepare engaging activities Examples were used to make subject matter memorable. Students aimed reproduce story and do what chemists’ do. Carol The big idea of the lesson served as the central principle. Patterns were to be explained in each of the activities. Planned carefully to devise simple models . Examples used to explain & test model. Students aimed to make good explanations. Key contrasts Olson NARST Presentation, Dallas
Because Sam worked to understand narratively alone--the subject matter was given structure by the textbook and personal experiences in school. He had vague notions of needing to know “more” science & to find “better” activities. Because Carol worked to understand both paradigmatically & narratively--the subject matter was a dynamic proving ground. She identified clearly what didn’t make sense, and actively sought reconciliation with her emerging paradigmatic understandings. Implications for these interns Olson NARST Presentation, Dallas
Sam X Instructional representations in practice Paradigmatic X robust understanding XCarol • Narrative Olson NARST Presentation, Dallas
Opportunities to learn • Instructional representations of science that are largely narrative provide opportunities to learn only stories of science. • Representations that require coordination between stories and models provide opportunities to learn to explain phenomena. Olson NARST Presentation, Dallas
Implications for my work as a teacher educator • Subject matter understanding matters. • Efforts to address “needing to know more” can be specified more precisely: • Needing more narrative knowledge (rich sets of examples) • Needing more paradigmatic knowledge (principled understanding) • Need to explicitly facilitate the coordination between narrative and paradigmatic construals of science. Olson NARST Presentation, Dallas