This Handbook is geared to the experienced researcher who is a novice evaluator. It orients the researcher to evaluation practice, with an emphasis on the use of qualitative techniques to augment quantitative measures.
The March 12-13, 2007 workshop at NSF on informal science education evaluation brought together a distinguished group of experts to discuss how impact categories might be best applied to various types of informal learning projects. This publication is an outcome of that meeting. The authors have strived to make the sections as helpful as possible given the primary focus of this workshop on project impacts. It should be viewed as part of an ongoing process to improve the ways in which evaluation can most benefit ISE projects, NSF, and the field. The publication is intended to help those
Presentation slides on submitting competitive Advancing Informal STEM Learning (AISL) proposals, originally presented at the 2012 Association of Science-Technology Centers (ASTC) Annual Conference
This study examines student choices relating to the selection of STEM courses for high school and university study. The main focus here is on the subjective value of the choice as perceived by the individual, and the individual’s expectation of success in the subject or the study. The argument put forward in this study is supported by a broad and international body of literature, and highlights a number of key factors affecting students’ (and especially girls’) engagement with STEM subjects. This discussion will have particular significance for ISE educators currently working to promote youth
The Australian Museum, Sydney, has been working with students aged 5–18 from a coalition of around 20 schools to gain advice on the development of exhibitions, programs, and the design of learning experiences, particularly regarding the use of digital environment. This paper discusses some of the results of this working relationship.
Parents committed to bringing their children to zoos ascribed the value of the visits to promoting altruism to prepare their children for future social encounters; transferring their own environmental values; encouraging self-esteem; and inculcating cultural norms. This article suggests that ISE educators can attract/engage parents through appealing to moral development for children.
ISE professionals should find this paper useful in understanding how scientists view the nature of science (NOS). Through interviews, the researchers have enabled a view of science as a flexible, creative and continually developing knowledge enterprise, in contrast to the regimented, experiment-driven scientific method that is most often taught in schools. The authors believe that teaching authentic NOS will certainly aid in enthusing students to learn science and take initiatives in scientific problem solving.
This study, conducted in New Zealand, is an analysis of the questions that students in their final year of high school were anticipated asking, and asked, during a visit to a biomedical research institute. The analysis highlights, along with the interview findings, the ways in which students developed an understanding of biomedical research, saw science as a process, and acknowledged a commonality of values between themselves and the scientists. This study will be of interest to ISE educators who facilitate interactions between students and scientists and who organize opportunities for
Informal science programs have potential for engaging audiences from non-dominant communities in unique ways. This article investigates specific elements of programs that African American mothers participating in this study preferred for their elementary-aged girls. For ISE educators, this research points out several elements to address when planning programs for African American audiences, including practical issues and content delivery methods, many of these elements could perhaps be applied more broadly for other non-dominant populations.
This paper reports on comparative study of three ‘good’ public science lectures. Based on the analysis, it presents an explanatory framework composed of four clusters of elements: analogical approach, story, knowledge organisation and judicious selection of content. Of particular interest to ISE practitioners engaging in similar public engagement endeavours is the authors’ suggestion that the highest quality presentations use elements from all four clusters.
This article was written in the context of the science education reforms of the 1990s, such as the AAAS Project 2061, the NSTA science scope and sequence, and the NRC’s national standards for science education. While the researchers note that this reform movement was broad, progressive, and inclusive, they contend that, at the time of writing, it was being implemented in narrow and conventional ways: focusing on conceptual knowledge as the most important outcome, and opportunities to engage in practices of “real sciences” as the means to this end. This approach, they claimed, failed to appeal
Explanation and argument are often confused or blended in science education literature and policy documents, a problem the authors have noticed and attempted to address in this paper. The authors believe that distinguishing between the two is important for educators so that students are taught to accurately construct their own explanations and arguments and identify them in others, as both are abilities necessary for the creation and justification of new science knowledge. The authors describe the features of explanation and argument, the differences between them, and where they overlap.