EvaluATE is a national resource center dedicated to supporting and improving the evaluation practices of approximately 250 ATE grantees across the country. EvaluATE conducts webinars and workshops, publishes a quarterly newsletter, maintains a website with a digital resource library, develops materials to guide evaluation work, and conducts an annual survey of ATE grantees. EvaluATE's mission is to promote the goals of the ATE program by partnering with projects and centers to strengthen the program's evaluation knowledge base, expand the use of exemplary evaluation practices, and support the continuous improvement of technician education throughout the nation. EvaluATE's goals associated with this proposal are to: (1) Ensure that all ATE Principal Investigators and evaluators know the essential elements of a credible and useful evaluation; (2) Maintain a comprehensive collection of online resources for ATE evaluation; (3) Strengthen and expand the network of ATE evaluation stakeholders; and (4) Gather, synthesize, and disseminate data about the ATE program activities to advance knowledge about ATE/technician education. The Center plans to produce a comprehensive set of evaluation resources to complement other services, engaging several community college-based Principal Investigators and evaluators in that process.
EvaluATE's products are informed by current research on evaluation, the National Science Foundation's priorities for the evaluation of ATE grants, and the needs of ATE PIs and evaluators for sound guidance that is immediately relevant and usable in their contexts. The fundamental nature of EvaluATE's work is geared toward supporting ATE grantees to use evaluation regularly to improve their work and demonstrate their impacts. All of EvaluATE's products are available to the public. EvaluATE's findings from the annual survey of ATE grantees aid in advancing understanding of the status of technician education and illuminate areas for additional research. The new survey investigates ATE grantees' work to serve underrepresented and special populations, including women, people of color, and veterans. Survey data are available upon request for research and evaluation purposes.
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TEAM MEMBERS:
Lori WingateArlen GullicksonEmma PerkKelly RobertsonLyssa Becho
This project takes an ethnographic and design-based approach to understanding how and what people learn from participation in makerspaces and explores the features of those environments that can be leveraged to better promote learning. Makerspaces are physical locations where people (often families) get together to make things. Some participants learn substantial amounts of STEM content and practices as they design, build, and iteratively refine working devices. Others, however, simply take a trial and error approach. Research explores the affordances are of these spaces for promoting learning and how to integrate technology into these spaces so that they are transformed from being makerspaces where learning happens, but inconsistently, into environments where learning is a consistent outcome of participation. One aim is to learn how to effectively design such spaces so that participants are encouraged and helped to become intentional, reflective makers rather than simply tinkerers. Research will also advance what is known about effective studio teaching and learning and advance understanding of how to support youth to help them become competent, creative, and reflective producers with technology(s). The project builds on the Studio Thinking Framework and what is known about development of meta-representational competence. The foundations of these frameworks are in Lave and Wengers communities of practice and Rogoff's, Stevens et al.'s, and Jenkins et al.'s further work on participatory cultures for social networks that revolve around production. A sociocultural approach is taken that seeks to understand the relationships between space, participants, and technologies as participants set and work toward achieving goals. Engaging more of our young population in scientific and technological thinking and learning and broadening participation in the STEM workplace are national imperatives. One way to address these imperatives is to engage the passions of young people, helping them recognize the roles STEM content and practices play in achieving their own personal goals. Maker spaces are neighborhood spaces that are arising in many urban areas that allow and promote tinkering, designing, and construction using real materials, sometimes quite sophisticated ones. Participating in designing and successfully building working devices in such spaces can promote STEM learning, confidence and competence in one's ability to solve problems, and positive attitudes towards engineering, science, and math (among other things). The goal in this project is to learn how to design these spaces and integrate learning technologies so that learning happens more consistently (along with tinkering and making) and especially so that they are accessible and inviting to those who might not normally participate in these spaces. The work of this project is happening in an urban setting and with at-risk children, and a special effort is being made to accommodate making and learning with peers. As with Computer Clubhouses, maker spaces hold potential for their participants to identify what is interesting to them at the same time their participation gives them the opportunity to express themselves, learn STEM content, and put it to use.
The Center for Advancement of Informal Science Education (CAISE), a cooperative agreement with the National Science Foundation Advancing Informal STEM Learning (AISL) program, is a partnership of the Association of Science-Technology Centers with faculty and professionals from the University of Pittsburgh Center for Learning in Out-of-School Environments (UPCLOSE), Oregon State University (OSU), the Great Lakes Science Center, KQED Public Media, advisors and other collaborators. CAISE works to support and resource ongoing improvement of, and NSF investments in, the national infrastructure for informal Science Technology Engineering and Mathematics (STEM) education. CAISE's roles are to build capacity and support continued professionalization for the field by fostering a community that bridges the many varied forms in which informal STEM learning experiences are developed and delivered for learners of all ages. To that end, CAISE activities also include: creating field-driven evidence databases about the impacts of informal STEM education; facilitating federated searches of those databases; furthering dialogue and knowledge transfer between learning research and practice; working to enhance the quality and diversity of evaluation knowledge and processes; and helping STEM researchers improve their efforts in informal STEM education, outreach and communication. For Principal Investigators (PIs) and potential PIs, CAISE provides resources that can assist in the development of evidence-based proposals. It also facilitates and strengthens networks through PI meetings, communications, and other methods that encourage sharing of deliverables, practices, outcomes and findings across projects. For the AISL Program at NSF, CAISE is assisting program officers in understanding the portfolio of awards, identifying the portfolio's impacts in key areas, and integrating the program's investments in education infrastructure.
The National Writing Project (NWP) is collaborating with the Association of Science-Technology Centers (ASTC) on a four-year, full-scale development project that is designed to integrate science and literacy. Partnerships will be formed between NWP sites and ASTC member science centers and museums to develop, test, and refine innovative programs for educators and youth, resulting in the creation of a unique learning network. The project highlights the critical need for the integration of science and literacy and builds on recommendations in the Common Core State Standards and the National Research Council's publication, "A Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas." The content focus includes current topics in science and technology such as environmental science, sustainability, synthetic biology, geoengineering, and other subjects which align with science center research and exhibits. The project design is supported by a framework that incorporates a constructivist/inquiry-based approach that capitalizes on the synergy between rigorous science learning and robust literacy practices. Project deliverables include a set of 10 local partnership sites, professional development for network members, a project website, and an evaluation report highlighting lessons learned. Partnership sites will be selected based on interest, proximity, history, and expertise. Two geographically and demographically diverse cohorts, consisting of five partnerships each will be identified in Years 2 and 3. Each set of partners will be charged with creating a comprehensive two-year plan for science literacy activities and products to be implemented at local sites. It is anticipated that the pilot programs may result in the creation of new programs that merge science and writing, integrate writing into existing museum science programs, or integrate science activities into existing NWP programs. Interest-driven youth projects such as citizen science and science journalism activities are examples of programmatic approaches that may be adopted. The partners will convene periodically for planning and professional development focused on the integration of science and literacy for public and professional audiences, provided in part by national practitioners and research experts. A network Design Team that includes leadership representatives from NWP, ASTC, and the project evaluator, Inverness Research, Inc., will oversee project efforts in conjunction with a national advisory board, while a Partnership Coordinator will provide support for the local sites. Inverness Research will conduct a multi-level evaluation to address the following questions: -What is the nature and quality of the local partner arrangements, and the larger network as a whole? -What is the nature and quality of the local science literacy programs that local partners initiate, and how do they engage local participants, and develop their sense of inquiry and communication skills? First, a Designed-Based Implementation Research approach will be used for the developmental evaluation to assess the implementation process. Next, the documentation and portrayal phase will assess the benefits to youth, educators, institutions, and the field using surveys, interviews, observations of educators, and reviews of science communication efforts created by youth. Finally, the summative evaluation includes a comprehensive portfolio of evidence to document the audience impacts and an independent assessment of the project model by an Evaluation Review Board. This project will result in the creation of a robust learning community while contributing knowledge and lessons learned to the field about networks and innovative partnerships. It is anticipated that formal and informal educators will gain increased knowledge about science and literacy programs and develop skills to provide effective programs, while youth will demonstrate increased understanding of key science concepts and the ability to communicate science. Programs created by the local partnerships will serve approximately 650 educators (450 informal educators and 200 K-12 teachers) and 500 youth ages 9-18. Plans for dissemination, expansion, and sustainability will be undertaken by the sub-networks of the collaborating national organizations drawing on the 350 ASTC member institutions and nearly 200 NWP sites at colleges and universities.
The University of Chicago's Yerkes Observatory, the National Radio Astronomy Observatory, the University of North Carolina, the Astronomical Society of the Pacific, and 4-H are collaborating to provide professional development to 180 4-H leaders and other informal science educators, and engage 1,400 middle school youth in using research-grade robotic telescopes and data analysis tools to explore the Universe. Youth participating in 4H-based out-of-school programs in Wisconsin, West Virginia and North Carolina are learning about the universe and preparing for STEM careers by conducting authentic astronomy research, completing astronomy-related hands-on modeling activities, interacting with astronomers and other professionals who are part of the Skynet Robotic Telescope Network, and interacting with other youth who part of the Skynet Junior Scholars virtual community. The project is innovative because it is providing a diverse community of 4-H youth (including sight- and hearing-challenged youth and those from underrepresented groups) with opportunities to use high-quality, remotely located, Internet-controlled telescopes to explore the heavens by surveying galaxies, tracking asteroids, monitoring variable stars, and learn about the nature and methods of science. Deliverables include (1) online access to optical and radio telescopes, data analysis tools, and professional astronomers, (2) an age-appropriate web-based interface for controlling remote telescopes, (3) inquiry-based standards-aligned instructional modules, (4) face-to-face and online professional development for 4-H leaders and informal science educators, (5) programming for youth in out-of-school clubs and clubs, (6) evaluation findings on the impacts of program activities on participants, and (7) research findings on how web-based interactions between youth and scientists can promote student interest in and preparedness for STEM careers. The evaluation plan is measuring the effectiveness of program activities in (1) increasing youths' knowledge, skills, interest, self-efficacy, and identity in science, including youth who are sight- and hearing-impaired, (2) increasing educators' competency in implementing inquiry-based instruction and their ability to interact with scientists, and (3) increasing the number of Skynet scientists who are involved in education and public outreach.
The Balboa Park Cultural Partnership, in collaboration with several informal science education and other cultural and business organizations in San Diego, Chicago, and Worcester, MA are implementing a research and development project that investigates a range of possible approaches for stimulating the development of 21st Century creativity skills and innovative processes at the interface between informal STEM learning and methods for creative thinking. The goal of the research is to advance understanding of the potential impacts of creative thinking methods on the public's understanding of and engagement with STEM, with a focus on 21st Century workforce skills of teens and adults. The goal of the project's development activities is to experiment with a variety of "innovation incubator" models in cities around the country. Modeled on business "incubators" or "accelerators" that are designed to foster and accelerate innovation and creativity, these STEM incubators generate collaborations of different professionals and the public around STEM education and other STEM-related topics of local interest that can be explored with the help of creative learning methodologies such as innovative methods to generate creative ideas, ideas for transforming one STEM idea to others, drawing on visual and graphical ideas, improvisation, narrative writing, and the process of using innovative visual displays of information for creating visual roadmaps. Hosting the project's incubators are the Balboa Park Cultural Partnership (San Diego), the Museum of Science and Industry (Chicago) and the EcoTarium (Worcester, MA). National partners are the Association of Science-Technology Centers, the American Association for the Advancement of Science, and the Americans for the Arts. Activities will include: the formation and collaborative processes of three incubator sites, a research study, the development of a creative thinking curriculum infused into science education, professional development based on the curriculum, public engagement events and exhibits, a project website and tools for social networking, and project evaluation. A national advisory council includes professionals in education, science, creativity, and business.
Expanding on the encouraging outcomes of an NSF-funded conference, this three-year project led by the National Center for Science and Civic Engagement at Harrisburg University of Science and Technology, in collaboration with the Koshland Science Museum of the National Academy of Sciences, will explore and evaluate ways to support new collaborations between professionals in institutions of higher education and informal STEM education around areas of common interest. The primary goal is to develop the educational infrastructure to grow and efficiently sustain multiple cross-organizational partnership activities at the intersection of learning about science, society and civic engagement around such possible topics as energy, environment, genetics, earth resources, computers and ethics, nanotechnology, etc. The initiative is: 1) creating a joint organizing "secretariat" to provide communications and support through low-cost shared services for at least six partnerships around the country; 2) providing partnership support and technical assistance to seed the six national partnerships, and 3) sharing evaluation and analysis services across all the partnerships. The outcomes of the work pertain to improvements in professional knowledge and practice in higher education and informal science education, as well as the improvement of learning by undergraduates and by the general public.
Portal to the Public: Expanding the National Network (PoP: ENN) is implementing around the county the successful NSF-funded Portal to the Public model in which researchers are trained to communicate and interact with the general public at informal science education (ISE) institutions about the research that they are conducting. The project, which follows on a thorough evaluation of the model at eight sites and current implementation at an additional fifteen sites, will incorporate twenty new ISE sites into the growing network, provide training and mentorship to ISE professionals on the use and adaptation of the PoP implementation manual and toolkits, and develop an enhanced network website that will serve as a communication and innovation hub. The work is responsive to the needs and activities of ISE organizations which continue to expand their missions beyond presenting to the public established science, technology, engineering and math (STEM) and are working to become places where visitors can also experience the process and promise of current research via face-to-face interactions with researchers. The project is expanding both the kind and number of institutions involved around the country and is facilitating their capacity to develop a knowledge base, share experiences and best practices.
In the Communities of Learning for Urban Environments and Science (CLUES) project, the four museums of the Philadelphia-Camden Informal Science Education Collaborative worked to build informal science education (ISE) capacity in historically underserved communities. The program offered comprehensive professional development (PD) to Apprentices from 8-11 community-based organizations (CBO), enabling them to develop and deliver hands-on family science workshops. Apprentices, in turn, trained Presenters from the CBOs to assist in delivering the workshops. Families attended CLUES events both at the museums and in their own communities. The events focused on environmental topics that are especially relevant to urban communities, including broad topics such as climate change and the energy cycle to more specific topics such as animals and habitats in urban neighborhoods.
President Obama announced in April 2013 that the Corporation for National and Community Service (CNCS) would launch a STEM AmeriCorps initiative to build student interest in STEM. A RFA is currently being prepared to be released in the late fall of 2013. This project will engage in quick response research to identify an evaluation and research agenda that can begin to inform the program launch. Thus, the timeframe for informing the initial stages of STEM AmeriCorps is relatively short, and the creation of an evaluation and research agenda is very timely. The products from the RAPID proposal are: (1) a review of the evaluation and research literature on the use of volunteers and/or mentors to build students' interest in STEM; (2) to convene a workshop to identify evaluation and research priorities to guide the initiative; and (3) a summary evaluation agenda that identifies promising directions along with the strength of evidence around key issues.
This project supports the development of technological fluency and understanding of STEM concepts through the implementation of design collaboratives that use eCrafting Collabs as the medium within which to work with middle and high school students, parents and the community. The researchers from the University of Pennsylvania and the Franklin Institute combine expertise in learning sciences, digital media design, computer science and informal science education to examine how youth at ages 10-16 and families in schools, clubs, museums and community groups learn together how to create e-textile artifacts that incorporate embedded computers, sensors and actuators. The project investigates the feasibility of implementing these collaboratives using eCrafting via three models of participation, individual, structured group and cross-generational community groups. They are designing a portal through which the collaborative can engage in critique and sharing of their designs as part of their efforts to build a model process by which scientific and engineered product design and analysis can be made available to multiple audiences. The project engages participants through middle and high school elective classes and through the workshops conducted by a number of different organizations including the Franklin Institute, Techgirlz, the Hacktory and schools in Philadelphia. Participants can engage in the eCrafting Collabs through individual, collective and community design challenges that are established by the project. Participants learn about e-textile design and about circuitry and programming using either ModKit or the text-based Arduino. The designs are shared through the eCrafting Collab portal and participants are required to provide feedback and critique. Researchers are collecting data on learner identity in relation to STEM and computing, individual and collective participation in design and student understanding of circuitry and programming. The project is an example of a scalable intervention to engage students, families and communities in developing technological flexibility. This research and development project provides a resource that engages students in middle and high schools in technology rich collaborative environments that are alternatives to other sorts of science fairs and robotic competitions. The resources developed during the project will inform how such an informal/formal blend of student engagement might be scaled to expand the experiences of populations of underserved groups, including girls. The study is conducting an examination of the new types of learning activities that are multiplying across the country with a special focus on cross-generational learning.
This multiplatform media and science center project is designed to engage audiences in humanity's deepest questions like the nature of love, reality, time and death in both scientific and humanistic terms. Project deliverables include 5 hour-long radio programs for broadcast on NPR stations, public events/museum exhibits at the Exploratorium in San Francisco, kiosks in venues throughout the city, and a social media engagement campaign. The audience of the project is large and diverse using mass media and the internet. But the project will specifically target young, online, and minority audiences using various strategies. The project is designed to help a diverse audience understand the impact of new scientific developments as well as the basic science, technology, engineering and math needed to be responsible, informed citizens. Innovative elements of the project include the unique format of the radio programs that explore complex topics in an engaging and compelling way, the visitor engagement strategy at the Exploratorium, and the social media strategy that reaches niche audiences who might never listen to the radio broadcasts, but find the podcasts and blogs engaging. The Exploratorium will be opening a new building in 2013 and will include exhibits and programs that are testing grounds for this project. This is a new model that aligns the radio content with exhibitions, social media, and in person events at the Exploratorium, providing a unique holistic approach. The project is designed to inspire people to think and talk about science and want to find out more. The evaluation will measure the impacts on the targeted audiences reached by each of the key delivery methods. Data will be collected using focus groups; intercept interviews with people in public places, and longitudinal panels. The focus will be on 5 targeted audiences (young adults, families with children, non-NPR listeners, underrepresented minorities, and adults without college experience). This comprehensive evaluation will likely contribute important knowledge to the field based on this multiple-platform collaborative model.