This article describes how two inquiry games promoted student science skills in a museum setting while minimizing demands on teachers, fostering collaboration, and incorporating chaperones. Students who played these games engaged in more scientific inquiry behaviors than did students in control groups.
In this study, researchers investigated levels of awareness of and responsibility for global climate change in two groups of children. The researchers argue that understanding the nature of beliefs, and how they may be modified by particular influences, is important if educators are to challenge the status quo, in which “the majority of individuals do not believe that they are responsible for or can engage in any actions which will be environmentally efficacious” (Uzzell, 2000, p. 314).
Despite increasing interest in the educational potential of outdoor learning experiences, limited research has focused on assessing and identifying “good” outdoor education practice. In this paper, the authors propose a theoretically based practical framework for assessing field trips in nature parks and other outdoor settings. The framework was developed and refined during the course of observations of 22 field trips and interviews with 41 students.
Argumentation in science involves the development, justification, and defence of evidence-based claims, together with the reasoned dispute of counterclaims. This process is the foundation for all scientific endeavours. Supporting the development of argumentation skills, therefore, is a key part of science education. Laboratory work is also as an essential part of science. Combining these two activities, therefore, would seem to be worthwhile. In this study, researchers explored the impact of three different lab-based tasks on the nature and quality of any subsequent argumentation.
This article describes the development of the first tool for measuring scientists' written skills in public communication of science. It includes the rationale for establishing learning goals in seven areas: clarity and language, content, knowledge organization, style, analogy, narrative, and dialogue, as well as the questions designed to assess these goals. The skills testing is primarily designed for assessing written communication skills and can be used in many science communication training contexts. It can serve as a baseline survey, a formative assessment, or in summative pretest
Many libraries are now providing innovative science, technology, engineering, and math (STEM) activities in their youth programs, including interactive exhibitions and hands-on workshops. What started some years ago as independent experiments has become a national movement. More and more libraries are responding to the need to increase science literacy and support 21st Century skills, such as critical thinking, by adding to STEM programs for patrons of all ages, from pre-school to adults. With the introduction of STEM into the library’s traditional programming, librarians need to evaluate the
As we turn more and more to high-end computing to understand the Universe at cosmological scales, dynamic visualizations of simulations will take on a vital role as perceptual and cognitive tools. In collaboration with the Adler Planetarium and University of California High-Performance AstroComputing Center (UC-HiPACC), I am interested in better understanding the use of visualizations to mediate astronomy learning across formal and informal settings. In this research, I use quantitative methods to investigate how 122 post-secondary learners are relying on color to interpret dark matter in a
Digital media and technology are revolutionizing how, where and when children learn, compelling many educators to completely re-imagine what a learning experience looks like. At the core of effective digital media and learning is the principle that instructional strategies should be personalized and that technology is a tool that supports effective teaching and learning practices. Afterschool programs are an ideal setting for digital learning--excelling at providing interest-driven learning opportunities can learn at their own pace, participate in hands-on learning experiences, and engage in
Afterschool programs have long partnered with other youth-serving and community organizations to better meet the needs of their students. As interest and momentum grows around STEM programming in afterschool , partnerships become increasingly important in offering high-quality, hands-on STEM experiences for youth. This issue brief demonstrates several models of how afterschool programs are partnering with STEM-rich institutions like science centers and museums, universities and colleges, business and industry, and government agencies. The brief highlights the strengths of each type of STEM
The number of jobs requiring proficiency in the science, technology, engineering and math (STEM) fields is projected to grow by 17 percent between 2008 and 2018, which is almost double the growth of non-STEM occupations. Computing and engineering represent a majority of these STEM jobs, and it is important that students are prepared to take advantage of these opportunities. Afterschool programs represent an avenue to provide robust learning experiences in computing and engineering, especially as schools are under many constraints and pressures that might prevent them from offering these topics
Children's museums represent one of the fastest growing segments of the museum community; however, the evidence base to demonstrate the learning value of these institutions has not kept pace. With funding from the Institute of Museums and Library Services (IMLS), the Association of Children’s Museums (ACM) and the University of Washington’s Museology Graduate Program (UW Museology) are partnering to generate a field-wide research agenda for children’s museums, an agenda that will identify and prioritize the most pressing evidence needed by the field to articulate and demonstrate the distinct
This article seeks to sharpen current conceptualizations of interests and engaged participation, and to derive lessons for the design of interest-driven science learning environments (formal and informal). The empirical basis of the research is a set of ethnographic records of two communities of amateur astronomers, as well as the details of astronomers' instantiations of the hobby. Hobbies are paradigmatic examples of interest-driven practices and thus they offer an excellent window into truly interest-related phenomena and processes. The analysis and data collection followed a grounded