This case study of the development of a cross-cultural museum exhibition illustrates value and difficulties of cross-cultural collaboration. University researchers worked with a class of postgraduate science communication students and designers from the Otago Museum to produce a museum exhibition. ‘Wai ora, Mauri ora’ (‘Healthy environments, Healthy people’) provided visibility and public access to information about Māori work. The exhibition assignment provided an authentic assessment of student work, with a professional output. Working on the exhibition involved cross-cultural communication
We propose a thoughtful process for scientists to develop their “impact identity”, a concept that integrates scholarship in a scientific discipline with societal needs, personal preferences, capacities and skills, and one’s institutional context. Approaching broader impacts from a place of integrated identity can support cascading impacts that develop over the course of a career. We argue identity is a productive driver that can improve outcomes for scientists and for society. Widespread adoption of the concept of impact identity may also have implications for the recruitment and retention of
Charles Darwin is largely unknown and poorly understood as a historical figure. Similarly, the fundamental principles of evolution are often miss-stated, misunderstood, or entirely rejected by large numbers of Americans. Simply trying to communicate more facts about Darwin, or facts supporting the principles of evolution is inadequate; neither students nor members of the public will care or retain the information. On the contrary, building facts into a one-on-one conversational narrative creates an memorable opportunity to learn. Here, we create a digital-media, self-guided question and answer
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TEAM MEMBERS:
David J. LampeBrinley KantorskiJohn Pollock
Utah Valley University (UVU) with partners Weber State University (WSU) and American Indian Services (AIS) are implementing UTAH PREP (PREParation for STEM Careers) to address the need for early preparation in mathematics to strengthen and invigorate the secondary-to-postsecondary-to-career STEM pipeline. As the preliminary groundwork for UTAH PREP, each partner currently hosts a PREP program (UVU PREP, WSU PREP, and AIS PREP) that identifies low-income, under-represented minority, first-generation, and female students entering seventh grade who have interest and aptitude in math and science, and involves them in a seven-week, three-year summer intensive program integrating STEM courses and activities. The course content blends skill-building academics with engaging experiences that promote a clear understanding of how mathematical concepts and procedures are applied in various fields of science and engineering. Courses are enhanced through special projects, field trips, college campus visits, and the annual Sci-Tech EXPO. The purpose of the program is to motivate and prepare participants from diverse backgrounds to complete a rigorous program of mathematics in high school so that they can successfully pursue STEM studies and careers, which are vital to advancing the regional and national welfare.
UTAH PREP is based on the TexPREP program that originated at the University of Texas at San Antonio and which was named as one of the Bright Spots in Hispanic Education by the White House Initiative on Educational Excellence for Hispanics in 2015. TexPREP was adapted by UVU for use in Utah for non-minority serving institutions and in regions with lower minority populations, but with great academic and college participation disparity. With NSF funding for a two-year pilot program, the project partners are building UTAH PREP through a networked improvement community, collective impact approach that, if demonstrably successful, has the ability to scale to a national level. This pilot program's objectives include: 1) creating a UTAH PREP collaboration with commitments to a common set of objectives and common set of plans to achieve them; 2) strengthening existing PREP programs and initiating UTAH PREP at two or three other institutions of higher education in Utah, each building a sustainable local support network; 3) developing a shared measurement system to assess the impact of UTAH PREP programs, adaptations, and mutually reinforcing activities on students, including those from groups that are underrepresented in STEM disciplines; and 4) initiating a backbone organization that will support future scaling of the program's impact.
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TEAM MEMBERS:
Daniel HornsAndrew StoneVioleta Vasilevska
Flying Higher will develop a permanent hands-on exhibit that conveys the fundamentals of flight, technology, materials science, and NASA’s role in aeronautics for learners ages 3-12 years and their parents/caregivers and teachers. The exhibit, public programs, school and teacher programs, and teacher professional development will develop a pipeline of skilled workers to support community workforce needs and communicate NASA’s contributions to the nation and world. An innovative partnership with Claflin University (an historically black college) and Columbia College (a women’s liberal arts college) will provide undergraduate coursework in informal science education to support pre-service learning opportunities and paid employment for students seeking careers in education and/or STEM fields. The projects goals are:
1) To educate multi-generational family audiences about the principles and the future of aeronautics; provide hands-on, accessible, and immersive opportunities to explore state-of-the-art NASA technology; and demonstrate the cultural impact of flight in our global community.
2) To provide educational standards-based programming to teachers and students in grades K–8 on NASA-driven research topics, giving the students opportunities to explore these topics and gain exposure to science careers at NASA; and to offer teachers support in presenting STEM topics.
3) To create and implement a professional development program to engage pre-service teachers in presenting museum-based programs focused on aeronautics and engineering. This program will provide undergraduate degree credits, service learning, and paid employment to students that supports STEM instruction in the classroom, explores the benefits of informal science education, and encourages post-graduate opportunities in STEM fields.
The digital revolution has transformed how young people discover and pursue their interests; how they communicate with and learn from other people; and how they encounter and learn about the world around them. How can we identify best practices for incorporating new media technologies into learning environments in a way that resonates with youth, including their interests, goals, and the ways they use technology in their everyday lives? How do we resolve the need to document and recognize informal STEM learning and connect it to formal education contexts? What strategies can be developed for inspiring and tracking student progress towards the learning goals outlined in the Next Generation Science Standards (NGSS)? These questions are the underlying motivation for this CAREER program of research. Digital badges represent a specific kind of networked technology and have been touted as an alternative credentialing system for recognizing and rewarding learning across domains, both inside and outside of formal education contexts. While there is considerable enthusiasm and speculation around the use of digital badges, the extent to which they succeed at empowering learners and connecting their learning across contexts remains largely untested. This project seeks to fill this gap in knowledge. The approach taken for this program of study is a three phased design-based research effort that will be focused on four objectives: (1) identifying design principles and support structures needed to develop and implement a digital badge system that recognizes informal STEM learning; (2) documenting the opportunities and challenges associated with building a digital badge ecosystem that connects informal learning contexts to formal education and employment opportunities; (3) determining whether and how digital badges support learners' STEM identities; and (4) determining whether and how digital badges help learners to connect their informal STEM learning to formal education and employment opportunities. In Phase 1, an existing prototype created in prior work at Seattle's Pacific Science Center will be developed into a fully functional digital badge system. In Phase 2, the PI will also work collaboratively with higher education stakeholders to establish formal mechanisms for recognizing Pacific Science Center badges in higher education contexts. In Phase 3, the badge ecosystem will be expanded and students' use of and engagement with badges will be tracked as they apply to and enter college. The project involves high school students participating in the Discovery Corps program at the Pacific Science Center, undergraduate and graduate students at the University of Washington, and stakeholders in the K-12 and higher education community in Seattle. Educational activities integrated with this program of research will support: (1) mentoring University of Washington students throughout the project to develop their skills as practice-oriented researchers; (2) incorporating the research processes and findings from the project into university courses aimed at developing students' understanding of the opportunities and challenges associated with using new media technologies to support learning; and (3) using the research findings to develop educational outreach initiatives to support other informal STEM learning institutions in their use of digital badges.
LIGO's Science Education Center is in charge of Education and Public Outreach Component for the LIGO Livingston Observatory. The three prime efforts are: (1) Professional development for teachers utilizing lab facilities and cross-institute collaborations. (2) Outreach to students K-16 (targeting 5- 9th grade), with on-site field trips to the LIGO Lab and Science Education Center, as well as off-site visits & presentations. (3) Outreach to the general public and community groups with on-site tours and Science Education Center Experience, as well as off=site visits and presentations. LIGO's Science Education Center is located at the LIGO Observatory, and has an auditorium, a classroom and a 5000 square foot exhibit hall with interactive exhibits at its disposal to complete its mission. In addition LIGO-SEC staff serve to help press and documentary film makers complete their missions in telling the "LIGO story" and encouraging budding scientists.
The integration of research with education and outreach is an essential aspect of our Center's mission. In order to assure the most effective use of our expertise and resources, we have developed a multi-faceted approach with activities that focus on coherent themes that address our three primary audiences: research community, our neighborhood, and the general public. These activities include research internships, enrichment programs for students & teachers, and informal science opportunities.