Attention to the attitudes of preservice and inservice primary teachers toward science is of fundamental importance to research on primary science education. However, progress in this field of research has been slow due to the poor definition and conceptualization of the construct of primary teachers' attitude toward science. This poor theoretical background has led to the use of a multitude of different concepts and measurement instruments. The main goal of this article is to present a new and comprehensive theoretical framework for primary teachers' attitudes toward science. The framework is based on an extensive review of previously used concept definitions of the construct. It is argued that this framework should serve as a necessary conceptual basis for future research and interventions in this domain, as well as for the construction of valid measurement instruments. © 2011 Wiley Periodicals, Inc. Sci Ed 96:158–182, 2012
This article provides a description of a novel, attitude‐focused, professional development intervention, and presents the results of an experimental pretest‐posttest control group study investigating the effects of this intervention on primary teachers’ personal attitudes toward science, attitudes toward teaching science, and their science teaching behavior. The training course integrated an explicit focus on attitudes towards (teaching) science with an inquiry‐based learning approach and refrained from recipe‐like, pre‐structured, and content‐based instruction examples. Results show that the training course had profound positive effects on primary teachers’ professional attitude towards teaching science. Teachers improved in self‐efficacy beliefs regarding science teaching, felt less dependent on context factors, and enjoyed science teaching more. In addition, the training course had positive effects on teachers’ personal attitude towards science, including improved self‐efficacy and relevance beliefs, and decreased anxiety. Furthermore, there was a large effect on teachers’ science teaching behavior in the classroom and on the number of science related activities they engaged in during their personal lives. These results show that an attitude‐focused approach is more effective in changing teachers’ attitudes and science teaching behavior compared to merely being engaged in science teaching. © 2015 Wiley Periodicals, Inc. J Res Sci Teach 52: 710–734, 2015.
In this article, we present a valid and reliable instrument which measures the attitude of in-service and pre-service primary teachers toward teaching science, called the Dimensions of Attitude Toward Science (DAS) Instrument. Attention to the attitudes of primary teachers toward teaching science is of fundamental importance to the professionalization of these teachers in the field of primary science education. With the development of this instrument, we sought to fulfill the need for a statistically and theoretically valid and reliable instrument to measure pre-service and in-service teachers' attitudes. The DAS Instrument is based on a comprehensive theoretical framework for attitude toward (teaching) science. After pilot testing, the DAS was revised and subsequently validated using a large group of respondents (pre-service and in-service primary teachers) (N ¼ 556). The theoretical underpinning of the DAS combined with the statistical data indicate that the DAS possesses good construct validity and that it proves to be a promising instrument that can be utilized for research purposes, and also as a teacher training and coaching tool. This instrument can therefore make a valuable contribution to progress within the field of science education.
The rapid developments in neuroscientific techniques raise high expectations among the general public and therefore warrant close monitoring of the translation to the media and daily-life applications. The need of empirical research into neuroscience communication is emphasized by its susceptibility to evoke misconceptions and polarized beliefs. As the mass media are the main sources of information about (neuro-)science for a majority of the general public, the objective of the current research is to quantify how critically and accurately newspapers report on neuroscience as a function of the timing of publication (within or outside of periods of heightened media attention to neuroscience, termed “news waves”), the topic of the research (e.g. development, health, law) and the newspaper type (quality, popular, free newspapers). The results show that articles published during neuroscience news waves were less neutral and more optimistic, but not different in accuracy. Furthermore, the overall tone and accuracy of articles depended on the topic; for example, articles on development often had an optimistic tone whereas articles on law were often skeptical or balanced, and articles on health care had highest accuracy. Average accuracy was rather low, but articles in quality newspapers were relatively more accurate than in popular and free newspapers. Our results provide specific recommendations for researchers and science communicators, to improve the translation of neuroscience findings through the media: 1) Caution is warranted during periods of heightened attention (news waves), as reporting tends to be more optimistic; 2) Caution is also warranted not to follow topic-related biases in optimism (e.g., development) or skepticism (e.g., law); 3) Researchers should keep in mind that overall accuracy of reporting is low, and especially articles in popular and free newspapers provide a minimal amount of details. This indicates that researchers themselves may need to be more active in preventing misconceptions to arise.
Despite the large body of research on students' educational and career choices in the field of technology, design, and science, we still lack a clear understanding of how to stimulate more students to opt for a study path or career within the STEM fields (Science, Technology, Engineering, Mathematics). In this article, we outline a new theoretical framework to describe how students' implicit belief about the malleability of their intelligence can be an important precursor of their STEM educational and career choice behavior. Based on the different bodies of literature about STEM choices and about students' implicit beliefs about their abilities, we present three hypothetical pathways, in the form of testable models, that describe potential relations between the implicit theories that students may hold regarding the malleability of their STEM ability and students' intentions to pursue a STEM career. Each pathway outlines a specific mediating factor influencing this relation: (a) self-efficacy beliefs, (b) stereotypical thinking, and (c) motivational beliefs. These pathways provide more insight into the underlying mechanisms that may affect STEM choice behavior. In our view, such a theoretical underpinning is a necessary prerequisite for further scientific investigation into the potential relations between students' implicit beliefs about their potential development, relevant psychological variables, and STEM choice behavior. Furthermore, we believe it provides a theoretical foundation for practical interventions that aim to stimulate STEM choice behavior.
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