This summative evaluation report details the Broad Implementation of the Living Laboratory model--an initiative to promote partnership between museums and cognitive science researchers in order to promote professional learning and involve the public in scientific research. The evaluation investigated the extent of the dissemination effort’s depth, spread, sustainability, and shift in ownership, based on Coburn’s criteria for scale-up (2003). Evaluators collected data from surveys, interviews, focus groups, document review, and observations. Findings about depth suggest that adopters fully
This project formed a partnership between a research team with experience in computer science (CS) education and learning sciences research and a newly fashioned practitioner team focused on building a grassroots, informal, volunteer group created to help women help themselves and others learn to write computer code. This research-practitioner partnership had a two-pronged focus, first on improving the program offered to learners through making adjustments based on research findings, and second on investigating the phenomenon of how women in the workforce informally learn CS skills that enable them to rewrite their career paths to contribute to what we know from research. The context of the study was situated in the virtual community that has formed around the phenomenally successful Salesforce Customer Relationship Management software platform.
This Exploratory Pathways project aimed to fill a gap in the research; we know little about the phenomenon of adult women in the workforce who are patching together resources to learn CS skills with a goal of job enhancement or job change. This project took an ethnographic approach to studying the informal learning (both through online, written resources and through sharing of knowledge with others) of the women involved in a 10-week, virtual Women’s Coaching and Learning group. The organization of this group consisted of learners—novice coders in the Apex language that is used on the Salesforce software platform, of coaches—more knowledgeable coders, and of a steering committee that ran the group and created the informal curriculum followed in the 10-week course.
Our overarching research question in this study was: In what ways are informal CS learning opportunities being used and created by adult women, what are their experiences with those opportunities, and how does this suggest ways to enhance those opportunities in the future to increase effectiveness in broadening access to and engagement in informal CS learning experiences for women?
We broke the question down into a number of sub questions, including:
Sociocultural context: What past gendered interactions do women report that discouraged (or encouraged) them from learning to code? What do interactions look like in female-only coaching and learning groups? In what ways does a coaching and learning group support persistence? What social barriers and supports outside the group affect persistence?
Personal context: What are the characteristics and backgrounds of female administrators who seek out resources to teach themselves to code? What are the motivations for these women to teach themselves to code? What motivates them to seek out and join all-women coding groups?
Physical context: How are women learning to code both through written resources and in virtual, informal coaching and learning classes? What are the conceptual barriers and supports that they encounter, and what works for women in these classes to overcome barriers? What conceptual barriers and supports affect persistence?
Persistence and identity: In what ways does participating in a learning group with female coaching motivate (or not) women to persist in learning to code? How do their goals or reasons for learning to code change through their participation? How does their identity as a “coder” change or shift as they participate?
Our findings for these subquestions are summarized in the “project products” linked to below.
This guide is intended to provide a starting point for those developing proposals and projects designed to broaden participation in science, technology, engineering and mathematics (STEM) through informal learning experiences. It is an outcome of an Association of Science-Technology Centers (ASTC)/Center for Advancement of Informal Science Education (CAISE) digital resource curation workshop (August 5, 2016) where participants identified relevant projects from the InformalScience.org database. This digital resource complements the synthesis report of the Leadership Workshop for Achieving Scale
Children are already learning at birth, and they develop and learn at a rapid pace in their early years. This provides a critical foundation for lifelong progress, and the adults who provide for the care and the education of young children bear a great responsibility for their health, development, and learning. Despite the fact that they share the same objective - to nurture young children and secure their future success - the various practitioners who contribute to the care and the education of children from birth through age 8 are not acknowledged as a workforce unified by the common
The achievement gap begins well before children enter kindergarten. Research has shown that children who start school having missed critical early learning opportunities are already at risk for academic failure. This project seeks to narrow this gap by finding new avenues for bringing early science experiences to preschool children (ages 3-5), particularly those living in communities with few resources. Bringing together media specialists, learning researchers, and two proven home visiting organizations to collaboratively develop and investigate a new model that engages families in science exploration through joint media engagement and home visiting programs. The project will leverage the popularity and success of the NSF-funded PEEP and the Big Wide World/El Mundo Divertido de PEEP to engage both parents and preschool children with science.
To address the key goal of engaging families in science exploration through joint media engagement and home visiting programs, the team will use a Design Based Implementation Research (DBIR) approach to address the research questions by iteratively studying the intervention model (the materials and implementation process) and assessing the impact of the intervention model on parents/caregivers. The intervention model will include the PEEP Family Engagement Toolkit that will support 20 weeks of family science investigations using new digital and hands-on science learning resources. It will also include new professional development resources for home educators as well as and the implementation process and strategies for developing and implementing the Toolkit with families.
The proposed research focuses first on refining and improving program design and implementation, and second, on investigating whether the intervention improves the capacity of parent/caregivers to support young children's learning in science. Ultimately this research will accomplish two important aims: it will inform the design of the PEEP family engagement intervention model, and, more broadly, it will build practical and theoretical understanding of: 1) effective family engagement models in science learning; 2) the types of supports that families and home educators need to implement these models; and 3) how to implement these models across different home visiting programs. Given the reach of the home visiting programs and the increasing interest in supporting early science learning the potential for broad impact is significant. This project is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments.
The Art of Science Learning Project (AoSL) is a National Science Foundation (NSF)-funded initiative, founded and directed by Harvey Seifter, that uses the arts to spark creativity in science education and the development of an innovative 21st century STEM workforce. This research was guided by three main hypotheses: (1) Arts-based innovation training, compared to traditional innovation training, improves an individuals creative thinking skills including critical thinking, divergent thinking, problem identification, convergent thinking and problem solving; (2) Arts-based innovation training
With support from the National Science Foundation’s Science Learning+ initiative, Twin Cities Public Television (TPT), in St. Paul, MN, in collaboration with a team of researchers in the US and the UK organized a workshop with the title Affinity Spaces for Informal Science Learning: Developing a Research Agenda. Our goal was to develop and refine a set of concepts and issues that will guide future investigations into how participation in online affinity spaces can promote and enable informal science learning. The workshop took place on July 6th and 7th, 2015, ahead of the Games+Learning
Improving STEM education in and out of schools depends on the collaborative efforts of educators, policy makers, education researchers, and community leaders. One promising strategy for structuring such collaborations is research-practice partnerships (RPPs) that bring researchers and educators together for sustained joint work around a key problem of practice of mutual concern. In June 2014, the Research + Practice (R+P) Collaboratory held two workshops focused on building capacity for research-practice partnerships in conjunction with the 11th International Conference of the Learning
In this paper, the authors synthesize three types of research-practice partnerships (RPPs) for informal learning. The article includes descriptions of example partnerships between local researchers and informal educators from the Hive NYC Learning Network, Community Practice Research Collaboration, and California Tinkering Afterschool Network. The synthesis paper concludes with a review of characteristics commonly found in partnerships in informal science education.
Scientific literacy is an important educational and societal goal. Measuring scientific literacy, however, has been problematic because there is no consensus regarding the meaning of scientific literacy. Most definitions focus on the content and processes of major science disciplines, ignoring social factors and citizens’ needs. The authors developed a definition of scientific literacy for the California 4-H Program from the citizen’s perspective, concentrating on real-world science-related situations. The definition includes four anchor points: science content; scientific reasoning skills
This brochure provides overview of work accomplished during the one-year planning grant period, and includes a proposed research agenda related to whole body interaction. The Move2Learn planning effort was a collaboration between museum practitioners and researchers in the United States and the United Kingdom, who represented the spectrum of science education, embodied learning, interactive exhibit designers and technology specialists. The overall goal was to begin the process of identifying relevant research questions related to the design of physical and digital exhibits for young children
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. Native Universe (NU) was designed to build institutional capacity in leadership and practice among scientific museums, in order to increase public understanding of environmental change and the human relationship to nature from Indigenous perspectives, while also providing access to science as practiced in the established scientific community.