In late 2012, Providence Children’s Museum began a major three-year research project in collaboration with The Causality and Mind Lab at Brown University, funded by a grant from the National Science Foundation (1223777). Researchers at Brown examined how children develop scientific thinking skills and understand their own learning processes. The Museum examined what caregivers and informal educators understand about learning through play in its exhibits and how to support children’s metacognition – the ability to notice and reflect on their own thinking – and adults’ awareness and appreciation of kids’ thinking and learning through play. Drawing from fields like developmental psychology, informal education and museum visitor studies, the Museum’s exhibits team looked for indicators of children’s learning through play and interviewed parents and caregivers about what they noticed children doing in the exhibits, asking them to reflect on their children’s thinking. Based on the findings, the research team developed and tested new tools and activities to encourage caregivers to notice and appreciate the learning that takes place through play.
This is an efficacy study through which the Denver Museum of Nature and Science, the Denver Zoo, the Denver Botanic Gardens, and three of Denver's urban school districts join efforts to determine if partnerships among formal and informal organizations demonstrate an appropriate infrastructure for improving science literacy among urban middle school science students. The Metropolitan Denver Urban Advantage (UA Denver) program is used for this purpose. This program consists of three design elements: (a) student-driven investigations, (b) STEM-related content, and (c) alignment of schools and informal science education institutions; and six major components: (a) professional development for teachers, (b) classroom materials and resources, (c) access to science-rich organizations, (d) outreach to families, (e) capacity building and sustainability, and (e) program assessment and student learning. Three research questions guide the study: (1) How does the participation in the program affect students' science knowledge, skills, and attitudes toward science relative to comparison groups of students? (2) How does the participation in the program affect teachers' science knowledge, skills, and abilities relative to comparison groups of teachers? and (3) How do families' participation in the program affect their engagement in and support for their children's science learning and aspirations relative to comparison families?
The study's guiding hypothesis is that the UA Denver program should improve science literacy in urban middle school students measured by (a) students' increased understanding of science, as reflected in their science investigations or "exit projects"; (b) teachers' increased understanding of science and their ability to support students in their exit projects, as documented by classroom observations, observations of professional development activities, and surveys; and (c) school groups' and families' increased visits to participating science-based institutions, through surveys. The study employs an experimental research design. Schools are randomly assigned to either intervention or comparison groups and classrooms will be the units of analysis. Power analysis recommended a sample of 18 intervention and 18 comparison middle schools, with approximately 72 seventh grade science teachers, over 5,000 students, and 12,000 individual parents in order to detect differences among intervention and comparison groups. To answer the three research questions, data gathering strategies include: (a) students' standardized test scores from the Colorado Student Assessment Program, (b) students' pre-post science learning assessment using the Northwest Evaluation Association's Measures for Academic Progress (science), (c) students' pre-post science aspirations and goals using the Modified Attitude Toward Science Inventory, (d) teachers' fidelity of implementation using the Teaching Science as Inquiry instrument, and (e) classroom interactions using the Science Teacher Inquiry Rubric, and the Reformed Teaching Observation protocol. To interpret the main three levels of data (students, nested in teachers, nested within schools), hierarchical linear modeling (HLM), including HLM6 application, are utilized. An advisory board, including experts in research methodologies, science, informal science education, assessment, and measurement oversees the progress of the study and provides guidance to the research team. An external evaluator assesses both formative and summative aspects of the evaluation component of the scope of work.
The key outcome of the study is a research-informed and field-tested intervention implemented under specific conditions for enhancing middle school science learning and teaching, and supported by partnerships between formal and informal organizations.
Through this review of research on public engagement with science, Feinstein, Allen, and Jenkins advocate supporting students as “competent outsiders”—untrained in formal sciences, yet using science in ways relevant to their lives. Both formal and informal settings can be well suited for work in which students translate scientific content and practices into meaningful actions.
Discover NASA is the Discovery Museum’s endeavor to engage students in grades K through 12 as well as members of the general public in innovative space science and STEM-focused learning through the implementation of two modules: upgrades to the Challenger Learning Center, and the creation of K through 12 amateur rocketry and spacecraft design programming. The programming will be piloted at the Discovery Museum and Planetarium, and at the Inter-district Discovery Magnet School and the Fairchild-Wheeler Multi-Magnet High School, with an additional strategic partnership with the University of Bridgeport, which will provide faculty mentors to high school seniors participating in the rocketry program. Through these two modules, the Discovery Museum and Planetarium aims to foster an early interest in STEM, increase public awareness about NASA, promote workforce development, and stimulate an interest in the future of human space exploration. Both modules emphasize design methodologies and integration of more advanced space science into the STEM curriculum currently offered by Discovery Museum to visitors and public schools. The Challenger Learning Center upgrades will enable the Museum to deliver simulated human exploration experiences related to exploration of the space environment in Low Earth Orbit and simulated human exploration of Moon, Mars, and beyond, which will increase public and student awareness about NASA and the future of human space exploration. The development of an amateur rocketry and spacecraft development incubator for education, the general public, and commercial space will stimulate the development of key STEM concepts.
The Long Island Children's Museum, in partnership with the Westbury School District, will expand its Westbury STEM Partnership program to provide additional professional development and ongoing support for teachers, and experiential STEM (science, technology, engineering, and math) learning opportunities for both first- and second-grade students in their classrooms and at the museum. The program will support inquiry-based, hands-on STEM learning in a high-need school district neighboring the museum, provide professional development to teachers, bring students to the museum to experience exhibits and programs, and make the museum's education staff available to educators for mentoring and content support as they integrate new teaching strategies into their classrooms. The project will promote improved STEM teaching and student learning by supporting teachers in integrating inquiry-based teaching strategies, enriching experiential learning for students both in and out of the classroom, and strengthening local school and community partnerships.
These resources are designed to identify opportunities to improve training for educators and researchers during implementation of the Living Laboratory model. The Data Collection Guidelines provide general instructions and tips for conducting evaluation through observations of (and/or interviews with) visitors. Two versions of each instrument (Researcher-Caregiver Conversations Instrument and Research Toy Interactions Instrument) are included: one can be modified and printed for data collection; the second is an annotated version, which includes more detailed instructions for each item in the
Science Museum of Minnesota will create three live theater productions highlighting current laboratory and field research studies of science issues with strong topical relevance to families with school-age children, school groups, and adult lifelong learners. Shows will align with the appropriate grade levels of the Minnesota Science Education Standards in three age levels: early elementary (grades 1–3), upper elementary and middle school (grades 4–8), and high school students and adult learners. The shows will be performed in daily rotation at the museum to entertain, inform, and challenge visitors to reflect on current science issues. Theater staff will disseminate the shows through various national conferences, websites, and professional associations, enabling colleagues nationwide to download the scripts free of charge and present topical science issues at their own museums.
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.
This is a handout from the session "Making Space for Innovation: Sampling of Making and Tinkering" at the 2014 ASTC Conference held in Raleigh, NC. The session provided an overview of different makerspaces and tinkering programs, including the goals, opportunities, and challenges of the making movement.
This is a handout from the session "Introducing your preschool audiences to science and astronomy" at the 2014 ASTC Conference held in Raleigh, NC. The session discussed how the My Sky Tonight project supports informal science educators in engaging young children in the practices of science through astronomy.
This report summarizes the evaluation results from the NSF funded Eight-Legged Encounters family event that uses arachnids as a hook to draw public interests towards science. The event involves informative and hands-on activities that bridge the gap between academia and the public, extending knowledge about arachnids to children and their parents. The Bureau of Sociological Research (BOSR) at UNL was contracted to evaluate Eight-Legged Encounters. The data collection for this report involves five events and three audiences: adults, children, and the volunteers of the event. Two events were
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University of Nebraska LincolnEileen Hebets
This poster was presented at the 2014 AISL PI Meeting in Washington, DC. It describes a project that uses the living laboratory model of informal cognitive science education to establish additional museum hubs.