Using Culture, Policy and Traditional Knowledge to Improve Engagement in Science Courses

Duffy, Lawrence K.; Middlecamp, Catherine Hurt; Godduhn, Anna; Fabbri, Cindy E.

doi:10.3844/ajassp.2009.1560.1566

Cited by 2 publications

(2 citation statements)

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“…A major goal of these Arctic science courses should be to demonstrate how past legacy of activity led to stewardship and involvement of cultural values and traditions as a means of advancing public policy (Duffy et al, 2009). The intellectual groundwork has been laid by the SENCER project.…”

Section: Ipy the Uarctic And Sencer For Northern Societymentioning

confidence: 99%

“…The next semester the course was more heavily marketed, with a full page insert in the universities student newspaper and posters that advertised the course. The course was also cross-listed between the department of Chemistry and Biochemistry and the Department of Anthropology, maintaining the Liberal Arts and Sciences (LAS) designator, but enrollment did not improve (Duffy, et al 2009). …”

Section: Challengesmentioning

confidence: 99%

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Engaging Students in Science Courses: Lessons of Change from the Arctic

et al. 2011

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Where you live should have something to do with what you teach. In the Arctic, this idea of place-based education—teaching and sharing knowledge that is needed to live well— is central to the UARCTIC consortium and the 4th International Polar Year educational reform effort. A place-based issue oriented context can engage students in chemistry concepts when it intersects with their experience and lives. This article examines the rationale and means of integrating local concerns such as world view, culture, traditional knowledge and policy into both general and specialized chemistry courses. More broadly, capacious place-based issues should be widely adapted by all curriculum reform efforts to demonstrate the connectivity between science and societal understanding of technological options. A case in point is the inclusion of indigenous perspectives in a non-majors general chemistry course when the concepts of scientific method, ice and water resources, genetic engineering, etc. are discussed. In a specialized course on radioactivity in the north, topics connected nuclear chemistry and radioactivity to people and energy. The local landscape should be central to science courses and involve issues relevant to stewardship, a component of the indigenous world view. The historical issues can be connected to current nuclear energy and uranium mining as they relate to the risks and benefits for the local community. This article will make the case that curriculum reform that focuses on real-world topics will not only engage students so that they perform well in class but also spark their interest so that they continue learning after the course is over.

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Section: Ipy the Uarctic And Sencer For Northern Societymentioning

confidence: 99%

Section: Challengesmentioning

confidence: 99%