Nancy Butler Songer scite author profile

This study characterized students' views of science as falling into three groups: static, mixed, and dynamic. Those who view science as static assert that science consists of a group of facts that are best memorized. Those who view science as dynamic believe that scientific ideas develop and change and that the best way to learn these ideas is to understand what they mean and how they are related. Students with mixed beliefs hold some static and some dynamic views. This study also examined the relationship between views of science and acquisition of integrated understanding of thermodynamics. We found that students with dynamic views acquired more integrated understanding than those with static views. Participants were 153 middle school students following the Computer as Lab Partner (CLP) curriculum. Students conducted both simulated and real-time experiments using an electronic notebook during the 12 weeks of instruction. Interventions encouraging students to integrate their experiences resulted in 89% of students successfully predicting the outcome of an everyday situation and 77% of students being able to succcessfully explain their prediction. We investigated how students preferred to integrate their experiences and found that some students preferred a concrete prototypic locus for integration while others preferred a more abstract principled locus of integration.

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How and when does complex reasoning occur? Empirically driven development of a learning progression focused on complex reasoning about biodiversity

Songer

2009

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In order to compete in a global economy, students are going to need resources and curricula focusing on critical thinking and reasoning in science. Despite awareness for the need for complex reasoning, American students perform poorly relative to peers on international standardized tests measuring complex thinking in science. Research focusing on learning progressions is one effort to provide more coherent science curricular sequences and assessments that can be focused on complex thinking about focal science topics. This paper describes an empirically driven, five-step process to develop a three-year learning progression focusing on complex thinking about biodiversity. Our efforts resulted in empirical results and work products including: (1) a revised definition of learning progressions, (2) empirically-driven, three year progressions for complex thinking about biodiversity, (3) an application of statistical approaches for the analysis of learning progression products; (4) Hierarchical Linear Modeling results demonstrating significant student achievement on complex thinking about biodiversity, and (4) Growth Model results demonstrating strengths and weaknesses of the first version of our curricular units. The empirical studies present information to inform both curriculum and assessment development. For curriculum development, the role of learning progressions as templates for the development of organized sequences of curricular units focused on complex science is discussed. For assessment development, learning progression-guided assessments provide a greater range and amount of information that can more reliably discriminate between students of differing abilities than a contrasting standardized assessment measure that was also focused on biodiversity content.

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Technology‐rich inquiry science in urban classrooms: What are the barriers to inquiry pedagogy?*

2002

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What are the barriers to technology-rich inquiry pedagogy in urban science classrooms, and what kinds of programs and support structures allow these barriers to be overcome? Research on the pedagogical practices within urban classrooms suggests that as a result of many constraints, many urban teachers' practices emphasize directive, controlling teaching, that is, the``pedagogy of poverty'' (Haberman, 1991), rather than the facilitation of students' ownership and control over their learning, as advocated in inquiry science. On balance, research programs that advocate standards-based or inquiry teaching pedagogies demonstrate strong learning outcomes by urban students. This study tracked classroom research on a technology-rich inquiry weather program with six urban science teachers. The teachers implemented this program in coordination with a district-wide middle school science reform. Results indicated that despite many challenges in the ®rst year of implementation, students in all 19 classrooms of this program demonstrated signi®cant content and inquiry gains. In addition, case study data comprised of twice-weekly classroom observations and interviews with the six teachers suggest support structures that were both conducive and challenging to inquiry pedagogy. Our work has extended previous studies on urban science pedagogy and practices as it has begun to articulate what role the technological component plays either in contributing to the challenges we experienced or in helping urban science classrooms to realize inquiry science and other positive learning values. Although these data outline results after only the ®rst year of systemic reform, we suggest that they begin to build evidence for the role of technology-rich inquiry programs in combating the pedagogy of poverty in urban science classrooms. ß

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