The article discusses citizen science projects focused on entomology, and examines their usefulness for engaging students in science education and providing meaningful hands-on educational experiences. Advice for incorporating citizen science into lessons and curricula are offered, and the applicability of entomology to science education standards is touched on.
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TEAM MEMBERS:
Renee ClarJames WandersheeJohn GuytonMichael Williams
The article presents advice by the authors for helping middle school science teachers in the U.S. to plan field trips related to science education. The authors say that the teachers should try to make the field trips a significant learning experience. They should communicate the goals of the trips to the students. According to them, many science museums offer pretrip planning meetings to allow teachers to know the resources available for students. They also offer excellent web sites for planning the trips.
The article discusses how a visit to a science museum illustrates the concept of informal learning in science education. The author describes a visit to a museum with science educator Jim Kisiel, who comments on how the behavior of museum guests is used to design exhibits. Kisiel discusses the importance of visually interesting displays and the role of signage in educating museum guests. The author suggests that similar concepts apply to science education in the classroom.
It seems uncontroversial to claim that museums are unique places of interest with the potential to inspire learners, yet what this means and how it is managed are complex questions. Museum educators’ work is currently shaped by accountability requirements typically expressed as visitor targets. Centralised teaching and learning initiatives are presented as ‘good practice’. In opposition to these factors, the action research inquiry discussed here set out to enable the participants to research and reflect upon the challenges of their individual contexts, and to develop ideas for practice that
This study explored the nature of the relationship between a fifth-grade teacher and an informal science educator as they planned and implemented a life science unit in the classroom, and sought to define this relationship in order to gain insight into the roles of each educator. In addition, student learning as a result of instruction was assessed. Prior research has predominately examined relationships and roles of groups of teachers and informal educators in the museum setting (Tal et al. in Sci Educ 89:920–935, 2005 ; Tal and Steiner in Can J Sci Math Technol Educ 6:25–46, 2006 ; Tran 2007
This article describes a partnership between Seton Hall University and the Liberty Science Center to engage preservice teachers in teaching and learning science. The partnership program offered preservice teachers the opportunity to interact with displays and demonstrations, teach and interact with the public, participate in professional development activities, and communicate with diverse groups.
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TEAM MEMBERS:
Debra ZinicolaRoberta Devlin-Scherer
Many of the biggest problems facing the United States and the world require engineering expertise to solve: climate change, feeding a growing population, energy independence, access to clean water, crumbling infrastructure, and others. And with global economic competitiveness inextricably linked to innovation, employers across a wide range of engineering and non-engineering fields such as health care, management, and marketing are seeking employees with engineering knowledge and related skills. These skills include the ability to creatively and systematically solve ill-defined problems
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TEAM MEMBERS:
Community for Advancing Discovery Research in Education (CADRE)
When it comes to STEM education, the nation’s K–12 public schools cannot do it all. The nature of 21st century proficiency in science, technology, engineering, and mathematics is too complex for any single institution. The good news is that schools do not have to do it alone. Museums, zoos, nature centers, aquariums, and planetariums are among the several thousand informal science institutions in the United States that regularly engage young people in observing, learning, and using STEM knowledge and skills. Providing a richness of resources unavailable in any classroom, informal science
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TEAM MEMBERS:
Community for Advancing Discovery Research in Education (CADRE)
Public funding agencies are increasingly requiring “broader impact” components in research grants. Concurrently, national educational leaders are calling for scientists to partner with educators to reform science education. Through the use of survey and interview data, our study examined the participation of researchers, faculty members, and graduate students from federal research laboratories and a Research I university, who were involved in K-12 and public outreach activities. We found that scientists were often recruited into K-12 outreach activities by local departmental liaisons
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TEAM MEMBERS:
Elisabeth AndrewsAlex WeaverDaniel HaneyJeffrey Hovermill ShamathaGinger Melton
Bang, Warren, Rosebery, and Medin explore empirical work with students from non-dominant communities to support teaching science as a practice of inquiry and understanding, not as a “settled” set of ideas and skills to learn.
The adoption of the Next Generation Science Standards means that many educators who adhere to model-based reasoning styles of science will have to adapt their programs and curricula. In addition, all practitioners will have to teach modeling, and model-based reasoning is a useful way to do so. This brief offers perspectives drawn from Lehrer and Schauble, two early theorists in model-based reasoning.
This article from "The Atlantic" describes ways that teachers are integrating hands-on and experiential STEM learning into the classroom, which include collaboration with informal learning environments through creative field trips.