Introduction to Systems Thinking for the Chemistry Education Community

• MaryKay Orgill ^[1] ; Sarah York ^[1] ; Jennifer MacKellar ^[2]
  1. [1] University of Nevada, United States
  2. [2] ACS Green Chemistry Institute, United States
• Localización: Journal of chemical education, ISSN 0021-9584, Vol. 96, Nº 12, 2019, págs. 2720-2729
• Idioma: inglés
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• Resumen

  • Within recent history, both science research and science education have been largely reductionist in perspective. While the reductionist approach has resulted in a significant increase in our knowledge of the natural world and in great technological advances, it is not sufficient for addressing global world challenges, such as sustainability, pollution, climate change, and poverty. We, as members of the Systems Thinking in Chemistry Education (STICE) project, argue that for science in general, and chemistry in specific, to continue to advance and for citizens to be prepared to participate knowledgeably and democratically in science-related policy decisions, the reductionist approaches that are commonly used in chemistry research and chemistry education must be complemented with a more holistic approach. Systems thinking is such an approach. This article discusses the historical development, describes the key characteristics, and presents some skills and competencies associated with systems thinking. Our intention is to provide chemical educators with enough basic information about systems thinking that they can consider why and how such an approach might be applied in the education of both future chemists and future global citizens.