It is generally accepted that children have their own understanding of how the world works prior to receiving formal science instruction. A great deal of research has been done to determine students' misconceptions related to the physical sciences; less has been done to understand children's ideas in the Earth sciences. This paper reports a synthesis of the existing research about children's misconceptions relating to weather, climate and the atmosphere. The scientifically accepted interpretations are presented in tandem with the children's naïve ideas. When possible, a source of the misconception is also presented. In many cases, students' misconceptions are not addressed in the curriculum, allowing them to exist unchallenged.
Spurred by students who felt conflicted accepting evolution and the tenets of their faiths, yet knowing their faiths supported science and evolution, we began a study to determine the views clergy espouse on issues related to evolution, creationism, science, and religion. The resulting study included structured interviews with eight clergy and a religion professor, and a survey and questionnaire sent to each member of an organization made up of clergy. The data revealed a group who believed evolution and their religion to be compatible, that scripture was not meant to be understood literally, and who felt strongly that creationism did not belong in public school classrooms. The science education community may find in clergy an articulate ally in helping citizens to understand the contentious issues surrounding evolution and creationism. We share the insights that respondents provided on these issues and compared their views to those of teachers. © 2006 Wiley Periodicals, Inc. J Res Sci Teach 43: 419–442, 2006
Knowing what students bring to the classroom can and should influence how we teach them. This study is a review of the literature associated with secondary and postsecondary students' ideas about acids and bases. It was found that there are six types of alternate ideas about acids and bases that students hold. These are: macroscopic properties of acids and bases, microscopic properties of acids and bases, neutralization, acid strength, pH, and titration. School Science and Mathematics 237
Background and purposeFirst-generation college graduates, racial and ethnic minorities, people with disabilities, and those from disadvantaged backgrounds are gravely underrepresented in the health research workforce representing behavioral health sciences and biomedical sciences and engineering (BHS/BSE). Furthermore, relative to their peers, very few students from these underrepresented groups (URGs) earn scientific bachelor’s degrees with even fewer earning doctorate degrees. Therefore, programs that engage and retain URGs in health-related research careers early on in their career path are imperative to promote the diversity of well-trained research scientists who have the ability to address the nation’s complex health challenges in an interdisciplinary way. The purpose of this paper is to describe the challenges, lessons learned, and sustainability of implementing a large-scale, multidisciplinary research infrastructure at California State University, Long Beach (CSULB) – a minority-serving institution – through federal funding received by the National Institutes of Health (NIH) Building Infrastructure Leading to Diversity (BUILD) Initiative.Program and key highlightsThe CSULB BUILD initiative consists of developing a research infrastructure designed to engage and retain URGs on the research career path by providing them with the research training and skills needed to make them highly competitive for doctoral programs and entry into the research workforce. This initiative unites many research disciplines using basic, applied, and translational approaches to offer insights and develop technologies addressing prominent community and national health issues from a multidisciplinary perspective. Additionally, this initiative brings together local (e.g., high school, community college, doctoral research institutions) and national (e.g., National Research Mentoring Network) collaborative partners to alter how we identify, develop, and implement resources to enhance student and faculty research. Finally, this initiative establishes a student research training program that engages URGs earlier in their academic development, is larger and multidisciplinary in scope, and is responsive to the life contexts and promotes the cultural capital that URGs bring to their career path.ImplicationsAlthough there have been many challenges to planning for and developing CSULB BUILD’s large-scale, multidisciplinary research infrastructure, there have been many lessons learned in the process that could aid other campuses in the development and sustainability of similar research programs.Electronic supplementary materialThe online version of this article (10.1186/s12919-017-0088-3) contains supplementary material, which is available to authorized users.
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