Pacific Science Center will expand its Science, Technology, Engineering and Math—Out-of-School Time (STEM-OST) model to new venues in the Puget Sound region to improve science literacy and increase interest in STEM careers for youth. STEM-OST brings hands-on lessons and activities in physics, engineering, astronomy, mathematics, geology, and health to elementary and middle school children in underserved communities throughout the summer months. The center will modify lessons and activities to serve students in grades K-2, align the curriculum with the Next Generation Science Standards, and increase the number of Family Science Days and Family Science Workshops offered to enhance parent involvement in STEM learning. The program will employ a tiered mentoring approach with outreach educators, teens, and education volunteers to increase interest in STEM content and provide direct links between STEM and workforce preparedness.
Math off the Shelf (MotS) was designed to help those who work in public libraries put math into what they do with grades K-6 children and their families. Public libraries exist in virtually every community in the nation, and increasingly, families rely on them as a free, safe place for children to spend time in the absence of other care. As such, they are an ideal venue for reaching a large and diverse population with math. MotS has: (1) developed research-based English/Spanish materials for informal educators working in public libraries, available for free online (2) supported implementation and institutionalization at libraries across the nation (3) engaged informal educators working in libraries in conducting outreach via state and national library association meetings, webinars, and community and youth agencies (4) conducted evaluation on project impact, as described in the summative evaluation report attached. Dissemination to professional communities will constitute the remaining project work. External evaluation, conducted by Char Associates, identified dramatic changes in attitudes about math and its role in the library, in the amount of math that librarians offer to children and families, and in librarians' communication about math with patrons and peers. Development partners include the library systems of Queens NY, San Jose CA, St Louis MO, Westchester County NY, and dozens of libraries in AZ, CT, FL, and MA.
Based on the number of visitors annually, zoos and aquariums are among the most popular venues for informal STEM learning in the United States and the United Kingdom. Most research into the impacts of informal STEM learning experiences at zoos and aquariums has focused on short-term changes in knowledge, attitudes and behaviors. This Science Learning+ project will identify the opportunities for and barriers to researching the long-term impacts of informal STEM learning experiences at zoos and aquariums. The project will address the following overarching research question: What are and how do we measure the long-term impacts of an informal STEM learning experience at a zoo and aquarium? While previous research has documented notable results, understanding the long-term impacts of zoo and aquarium learning experiences will provide a deeper and more nuanced understanding of the impact of these programs on STEM knowledge, skills and application. This study will use a participatory process to identify: (1) the range of potential long-term impacts of informal science learning experiences at zoos and aquariums; (2) particular activities that foster these impacts; and (3) opportunities for and barriers to measuring those impacts. First, an in-depth literature review will document previous research efforts to date within the zoo and aquarium community. Second, a series of consultative workshops (both in-person and online) will gather ideas and input from practitioners, researchers, and other stakeholders in zoo and aquarium education. The consultative workshops will focus on two questions in particular: (1) What are the different types and characteristics of informal science learning experiences that take place at zoos and aquariums? and (2) What are the long-term impacts zoos and aquariums are aiming to have on visitors in relation to knowledge, attitudes, skills and behaviors/actions? Finally, visitor surveys at zoos and aquariums in the US and UK will be conducted to gather input on what visitors believe are the long-term impacts of an informal STEM learning opportunity at a zoo or aquarium. The data gathered through all of these activities will inform the design of a five-year, mixed-methods study to investigate long-term impacts and associated indicators of an informal STEM learning experience at a zoo or aquarium. One of the aims of the five-year study will be to test instruments that could eventually be used by the global zoo and aquarium community to measure the long-term impacts of informal STEM learning programs. Designing tools to better understand the long-term impacts of informal STEM learning at zoos and aquariums will contribute to our ability to measure STEM learning outcomes. Additional benefits include improved science literacy and STEM skills amongst visitors over time and an understanding of how education programs contribute to wildlife conservation worldwide.
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TEAM MEMBERS:
Brian JohnsonStanford UniversityLancaster UniversitySarah ThomasNicole ArdoinMurray Saunders
In this article, I review recent findings in cognitive neuroscience in learning, particularly in the learning of mathematics and of reading. I argue that while cognitive neuroscience is in its infancy as a field, theories of learning will need to incorporate and account for this growing body of empirical data.
Many communities across the country are developing "maker spaces," environments that combine physical fabrication equipment, social communities of people working together, and educational activities for learning how to design and create works. Increasingly, maker spaces and maker technologies provide extended learning opportunities for school-aged young people. In such environments participants engage in many forms of communication where individuals and groups of people are focused on different projects simultaneously. The research conducted in this project will address an important need of those engaged in the making movement: evidence leading to a better understanding of how participants in maker spaces engage with science, technology, engineering and mathematics (STEM) as they create and produce physical products of personal and social value. Specifically, this research will generate new knowledge regarding how participants: pose and solve problems; identify, organize and integrate information from different sources; integrate information of different kinds (visual, quantitative, and verbal); and share ideas, knowledge and work with others. To understand and support STEM literacies involved in making, the investigators will study a number of different informal learning sites that self-identify as maker spaces and serve different-aged participants. The project will use ethnographic and design research techniques in three cycles of qualitative research. In Cycle One, the researchers will investigate two adult-oriented maker spaces in order to generate case studies and develop theories about how more experienced adult makers use the spaces and to create case studies of adult maker spaces, and to develop methodological techniques for understanding literacy in maker spaces. In Cycle Two, the study will expand into two out-of-school time youth-oriented maker spaces, building two new case studies and initiating design-based research activities. In Cycle Three, the team will further apply their developing theories and findings, through rapid iterative design-based research, to interventions that support participants' science literacy and making practices in two maker spaces that exist in schools. Through peer-reviewed publications, briefs, conference presentations, presence on websites of local and national maker organizations, project findings will be widely shared with organizations and individuals that are engaged in broadening the base of U.S. science and mathematics professionals for an innovation economy.
There is a movement afoot to turn the acronym STEM—which stands for science, technology, engineering, and mathematics—into STEAM by adding the arts. Science educators have finally begun to realize that the skills required by innovative STEM professionals include arts and crafts thinking. Visual thinking; recognizing and forming patterns; modeling; getting a "feel" for systems; and the manipulative skills learned by using tools, pens, and brushes are all demonstrably valuable for developing STEM abilities. And the National Science Foundation and the National Endowment for the Arts have gotten
Students will apply themselves to learning if the context interests them. Focusing on a subject close to middle school students' hearts, such as fashion, rather than on specific academic tasks such as writing or researching, builds intrinsic motivation for learning. This article explores the Fabulous Fashions program, which engages students in mathematics and literacy through the context of their interest in fashion.
The article examines how school library programs are uniquely suited to initiate innovative thinking on how to leverage resources such as science fiction to help young people see the value of science, technology, engineering, and mathematics (STEM) in their daily lives. The authors report on the Sci-Dentity project launched in January 2012 which involves the collaboration between researchers and librarians at the University of Maryland in designing ways to incorporate sci-fi to STEM.
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TEAM MEMBERS:
Mega SubramaniamAmanda WaughJune AhnAllison Druin
Over a period of three weeks in October 2012, Marbles Kids Museum conducted focus groups to support the development of a new school readiness-focused exhibit space and programming. Focus groups included parents of children ages 3-5, preschool and early elementary school educators, and staff from community organizations involved in early childhood education in Wake County, NC. Focus groups addressed the following questions: (1) What does school readiness mean to you? (2) What do you envision or expect in a school readiness exhibit space? (3) What school readiness program possibilities can you
Children feed alphabet letters to a talking baby dragon, drive a New York City fire truck, paint on a six-foot art wall, and crawl through a challenge course in PlayWorks™ at the Children's Museum of Manhattan (CMOM) in New York. Manhattan’s largest public play and learning center for early childhood marries the skills that children need to succeed in kindergarten with fun stuff that kids love. The Institute of Museum and Library Services (IMLS) funded the project through a 2006 Museums for America grant to support the museum as a center of community engagement and lifelong learning. “PlayWorks™ is a joyful place for learning science, math, reading and other things. We incorporate fun and learning into the whole design to create a scaffold of learning. Families come to the museum to supplement preschool experiences,” said Andy S. Ackerman, CMOM’s executive director. The museum also offers parents, sitters, and other care-providers guidance on engaging their children with the exhibit. Based on the concept that children’s learning and personal growth is rooted in play, the 4,000-square-foot space is divided into five learning areas: Language, Math and Physics, Arts and Science, Imagination and Dramatic Play, and Practice Play (for infants and crawlers).
Nebraskans for Public Television is developing the math strand in Reading Rainbow. Under this grant, the project will "re-purpose" 30 existing Reading Rainbow program for use in mathematics learning, produce two new math-focused programs, and institute a comprehensive outreach campaign. Books currently being considered for the new programs are Mama Bear, which looks at money and its uses and examines some simple economics; and Echoes for the Eye which explores patterns in nature. The outreach will solicit and involve families served by the National Urban League; recruit school and community-based children's librarians in the math-based literature effort; and expand the local public broadcasting outreach efforts related to the math focus of the series from the eight model stations in the previous year to all interested public television stations. The target will be to involve at least 75 stations in substantive outreach to families and schools. The project also will develop and disseminate a new print piece modeled after the very successful Math is Everywhere Reading Rainbow Teachers Guide which has been used by over 3,000 teachers. Twila Liggett will continue as Executive Producer and Project Manager and LeVar Burton will remain as host and Co-Executive Producer. Cecily and Larry Truett will be Supervising Producer and Producer/Director respectively. Advisors include Herbert Ginsburg from Teachers College, Columbia University; Lucille Mahon, Math Coordinator, NYC Community School District 2; Solomon Garfunkel, Executive Director, COMAP, Inc.; and Judith Jacobs, Director of the Center for Education and Equity in Mathematics, Science, and Technology at California State Polytechnic University.
Nebraskans for Public Television are producing three programs in the "Reading Rainbow" series that focus on mathematics and developing and implementing a special math outreach effort aimed at parents with a secondary audience of teachers. The programs will take a literature-based approach to mathematics which helps make it possible ". . . for children to have the same authentic experiences with math that they are coming to have with language, social studies, science and the arts." (Read Any good Math Lately? by Whitin and Wilde). The goal of the project is to expand the impact of the "Reading Rainbow" series by: - integrating quality math-oriented books with science and literary selections into the series, and - making quality children's math-oriented books more visible to parents, public librarians, and teachers and to engage children's interest in reading about and exploring math in the real world. The outreach effort will develop a special math effort directed to parents, children, and teachers. A special publication for parents and a teacher guide will be created for the new math-focused programs. The producers will work with the Family Math Project at the Lawrence Hall of Science in training parents and children and will also direct community outreach efforts towards economically and socially disadvantaged families. This effort will engage these families in math related activities through partnerships with community-based organizations and local public television stations involved in PBS's Ready to Learn Project. Partnership organizations include the National Council for Teachers of Math, Girls Inc, The Connecticut Academy for Education in Mathematics, Science and Technology, EQUALS Family Math Project, and the Weekly Reader Corporation. "Reading Rainbow" partnerships also have been established between three SSI's -- Louisiana, Michigan, and Ohio -- and PBS stations in those states.