K-12 informal engineering education can support student confidence, interest, and awareness of the field of engineering. Studies have suggested that K-12 informal learning can influence students’ awareness of the fields of engineering as potential career opportunities. Researchers have also found that engineering activities outside of school can engage youth in disciplines of which they are unfamiliar because of a lack of engineering opportunity in K12 formal education. In this paper, we provide a rich case study of one lesson’s implementation in a 5th-6th grade girls afterschool program. Our
This project will advance efforts of the Innovative Technology Experiences for Students and Teachers (ITEST) program to better understand and promote practices that increase student motivations and capacities to pursue careers in fields of science, technology, engineering, or mathematics (STEM) by designing, implementing, and testing an afterschool internship program that will engage older youth in work-based learning experiences in in STEM fields. The new model program will link the resources and learning approaches of the Global Learning and Observations to Benefit the Environment (GLOBE) program to career academies where youth from populations underrepresented in STEM fields will gain direct experiences in data collection and analysis through student-led investigations in the geosciences and environmental studies. Two key outcomes of this project will be: (a) Development of a replicable model of an afterschool STEM internship program for informal STEM learning environments and schools across the nation, and (b) Development of a set of measurement tools and approaches that can assess and promote understanding regarding how youth think and feel about science and their possible future roles in science careers. Participating youth will master scientific practices and become immersed in science culture through opportunities to develop research projects, interact with scientists, and collaborate with fellow student-researchers. In the process, they will develop collaboration and communication skills, and gain an increased sense of identity and agency in science fields. They will also learn new strategies to attain their career goals.
In developing and testing the new model of an afterschool program focusing on STEM careers, the project will draw on both existing and emerging knowledge from three areas of inquiry: informal STEM learning, youth development, and work-based learning. The project will bring together theory related to work-based learning and apprenticeship to knowledge about informal STEM learning and youth development, addressing the needs of older youth as they transition to adulthood. The program will also explore the use of measurement tools that address workforce-related student learning goals in addition to social-emotional learning and STEM learning goals, adapting existing tools and developing new tools as needed. The result will be a replicable model for an afterschool, career-focused internship that facilitates STEM learning and identity, employing youth development principles, such as experiential learning, peer collaboration, adult mentoring, and meaningful contributions to the world beyond school. The project will use a mixed-methods approach to investigate four research questions: (1) What aspects of the program are most important for promoting the development of scientific practices, socio-emotional learning, and career skills? (2) How can afterschool informal science learning be designed to address the perceptions and needs of diverse groups, especially those from populations underrepresented in STEM? (3) How do youth make gains in developing facility with STEM practices, key social-emotional outcomes needed in work and civic life, and career development knowledge? And (4) How do we accurately measure development of scientific practices, socio-emotional learning and career skills? The project will develop pretest and posttest self-report measures to gauge program influence on social-emotional outcomes and career-related outcomes, and performance-based assessments and rubrics will be used to assess culminating science projects. Other factors contributing to the success of the new model will be examined through analysis of coach instructional logs, surveys, and questions, as well as participant observations, interviews, and focus groups. Project participants will be youth of ages 14-18 recruited from ten inner-city schools having large populations of students from groups underrepresented in STEM fields. Participants will meet in teams of approximately 14 interns for a total of 2.5 hours per week for 32 weeks. Each team will also meet an additional 4-6 times for weekend or overnight outings associated with their study sites.
DATE:
-
TEAM MEMBERS:
Manuel AlonsoCathy RingstaffSvetlana Darche
STEM out-of-school time (OST) programs play an important role in helping youth develop the 21st century skills they need to prepare them for the workforce, particularly the teamwork skills necessary for the growing collaborative nature of work in STEM (National Research Council, 2015). However, there is a lack of appropriate tools to evaluate this key programmatic outcome in STEM OST settings. Through funding from the National Science Foundation, we carried out the Collaboration in the 21st Century (C2C) project to help address this need by developing and validating a survey, the Youth
This pilot study will examine the effectiveness of an innovative applied social change, community and technology based program on marginalized youths' access, interest, efficacy and motivation to learn and engage in digital technology applications. Using stratified near-peer and peer-to-peer mentoring approaches, the pilot builds on extant literature that indicates that peer-supported hands-on mentoring and experiences can alleviate some barriers to youth engagement in digital technologies, particularly among underrepresented groups. In this project, undergraduate students will mentor and work collaboratively with high school youth primarily of Hispanic descent and community-based organizations to develop creative technology-based solutions to address social issues and challenges within their local communities, culminating in events called Impactathons. These community-hosted local and state-wide events set this pilot project apart from similar work in the field. The Impactathons not only provide a space for intellectual discourse and problem-solving among the undergraduate-youth-community partners but the Impactathons will also codify expertise from scientists, social scientists, technologists, community leaders, and other stakeholders to develop technology-based solutions with real world application. If successful, a distal outcome will be increased youth interest in digital technologies and related fields. In the short term, favorable findings will provide preliminary evidence of success and lay the foundation for a more extensive study in the future.
This pilot project is a collaboration between the Everett Program, a student-led program for Technology and Social Change at the University of California Santa Cruz - a Hispanic Serving Institution - and the Digital NEST, a non-profit, high-tech youth career development and collaboration space for young people ages 14-24. Through this partnership and other recruitment efforts, an estimated 70-90 individuals will participate in the Impactathon pilot program over two years. Nearly two-thirds of the participants are expected to be undergraduate students. They will receive extensive training in near-peer and peer-to-peer mentoring and serve as mentors for and co-innovation developers with the high school youth participants. The undergraduates and youth will partner with local community organizations to identify a local social challenge that can be addressed through a technology-based solution. The emergent challenges will vary and could span the spectrum of STEM and applied social science topics of interest. Working in informal contexts (i.e., afterschool. weekend), the undergraduate-youth-community partner teams will work collaboratively to develop practical technology-based solutions to real world challenges. The teams will convene three times per year, locally and statewide, at student and community led Impactathons to share their work and glean insights from other teams to refine their innovations. In parallel, the research team will examine the effectiveness of the Impactathon model in increasing the undergraduate and youths' interest, motivation, excitement, engagement and learning of digital technologies. In addition to the research, the formative and summative evaluations should provide valuable insights on the effectiveness of the model and its potential for expansion and replication.
The project is co-funded by the Advancing Informal STEM Learning (AISL) Program and STEM +C. The AISL program seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. STEM + C focuses on research and development of interdisciplinary and transdisciplinary approaches to the integration of computing within STEM teaching and learning for preK-12 students in both formal and informal settings.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Over the last decade there has been significant growth in the number of afterschool programs that offer science activities to youth. Measuring the quality and contributions of these programs to youth learning is important to both the afterschool organizations and the communities that support them, including participating youth and their families. To address the range and evolving interests and capacities of all young people within a community, there are, by necessity, a wide range of types of afterschool science programming. Such programming may vary by focus (e.g., botany, astronomy, computer science, engineering, or zoology), structure (e.g., hands-on, place-based, on-line, or in partnership with local industry) and other factors. Across the range of programming, there are different intended learning goals and opportunities for students. For these reasons, a range of measurement tools are needed to monitor the quality and outcomes of wide range of afterschool science programs. To explore the current state of evaluation and measurement tools for use in afterschool science programs, the University of Washington, in partnership with the Afterschool Alliance and the National Girls Collaborative, will design and host a conference for afterschool STEM leaders, researchers, and evaluators. 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. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants.
This conference is grounded in the programmatic priorities and strategies of afterschool organizations. The goals of the conference are to (a) articulate and map the range of intended outcomes of afterschool STEM programs; (b) identify how existing measurement and evaluation tools map on to intended outcomes; and (c) identify overlaps, complementarities, and gaps in the available tools in order to provide guidance to (i) practitioners on how and why to select current evaluation tools and (ii) researchers on directions for future tool development. Tangible convening products include:
*A detailed, visual representation ("intended outcomes map") of the range of outcomes afterschool programs are seeking to achieve, related to student learning, educator capacity, program quality, family impacts, learning ecosystems connectivity;
*A taxonomy of current evaluation instruments aligned to these outcomes, with an explanation of how they overlap or differentiate both methodologically and theoretically;
*The identification of the areas where further work is needed, including further specification of learning outcomes and future development of evaluation tools.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
This award was provided as part of NSF's Social, Behavioral and Economic Sciences Postdoctoral Research Fellowships (SPRF) program and is supported by SBE's Developmental Sciences program and the Directorate for Education and Human Resources' (EHR) Advancing Informal STEM Learning program. The goal of the SPRF program is to prepare promising, early career doctoral-level scientists for scientific careers in academia, industry or private sector, and government. SPRF awards involve two years of training under the sponsorship of established scientists and encourage Postdoctoral Fellows to perform independent research. NSF seeks to promote the participation of scientists from all segments of the scientific community, including those from underrepresented groups, in its research programs and activities; the postdoctoral period is considered to be an important level of professional development in attaining this goal. Each Postdoctoral Fellow must address important scientific questions that advance their respective disciplinary fields. Under the sponsorship of Dr. Sandra D. Simpkins at the University of California, Irvine, this postdoctoral fellowship award supports an early career scientist exploring high-quality and culturally responsive, math afterschool program (ASP) practices for under-represented minority (URM) youth. Mathematical proficiency is the foundation of youth's STEM pursuits. Yet today, far too many youth do not pursue STEM based on a perception that they are "not good at math". Students need to engage in contexts that spark their interest and their continued mastery and growth. ASPs are settings for such dynamic opportunities, particularly for URM students such as Latinos who attend lower quality schools and do not feel supported. In college, URM students often struggle with uninspiring and culturally incongruent STEM learning environments. The intergenerational nature of university-based STEM ASPs, whereby younger students are paired with undergraduate (UG) mentors, are opportunities to support both K-12 and UG students' motivational beliefs in math and STEM more broadly. This project will examine these intergenerational developmental processes in the context of a math enrichment ASP located at a Hispanic-Serving Institution. By studying how ASPs can serve as an important lever for promoting URM students' access and success in STEM, this project seeks to meaningfully inform efforts to broaden the participation of underrepresented groups in these fields.
This project seeks to understand how participating in a math enrichment ASP supports both youth participants' and UG mentors' motivational beliefs in math; to describe high-quality and culturally responsive practices; and to understand how to support the effectiveness of youth-staff relationships. To accomplish these research objectives, data will be collected from both youth participants and UG mentors through multiple methods including surveys, in-depth interviews, participant-observations, and video observations of youth-staff interactions. This project will add to our understanding of university-ASP partnerships. Further, the knowledge gained from this study will impact the larger landscape of practice and research on STEM ASPs by 1) addressing critical gaps in the current literature on high-quality and culturally responsive STEM ASP practices and 2) informing ASP staff development training. Overall, this mixed methods project will provide critical and rich information on the ways that ASPs can effectively deliver on its promise of promoting positive development for all youth, especially URM youth who may need and benefit from these spaces the most. The invaluable insight garnered from this study will be disseminated to traditional academic audiences to advance knowledge, as well as to local, state, and national organizations to inform the larger landscape of practice in STEM ASPs.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Informal STEM education needs high quality program evaluation. Research is particularly needed on the relationship between STEM outcomes and positive youth development (PYD) / socio-emotional learning (SEL). This pilot and feasibility project involves a collaboration between experts in STEM education, out-of-school time programs (OST), PYD, SEL, evaluation, and program development. STEM Scouts helps youth grow in character and develop skills using experiential activities and interaction with STEM professionals. This project expands the implementation of the Systems Evaluation Protocol (SEP), an evidence-based approach to evaluation planning.
The goals are to: 1) develop a theory of change for STEM Scouts highlighting the relationship between STEM outcomes and PYD/SEL outcomes; 2) pilot enhancements to the SEP (System Mapping, Ecosystem Modeling, and Model Validation); and, 3) determine the feasibility of conducting a national STEM Scouts study. STEM Scouts leadership and project researchers will work through the SEP to generate a stakeholder map, logic model, and pathway model (PM). Five STEM Scouts Labs across the country will participate in focus groups where they will complete SM to identify the system in which the Lab exists (e.g., stakeholders and decision-makers), review and revise their system maps, identify key outcomes and connections in the PM, and discuss how the PM reflects their STEM Scouts experiences. It is hypothesized the enhanced SEP will enable the working group to better understand factors hindering or enabling program and evaluation feasibility and success. Findings will be disseminated to the evaluation/research community, OST program providers/developers and the public.
This project is funded by the National Science Foundation's 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.
This Research in Service to Practice 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. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants.
The project will research the educational impact of social robots in informal learning environments, with applications to how social robots can improve participation and engagement of middle-school girls in out-of-school computer science programs in under-resourced rural and urban areas. The use of robots to improve STEM outcomes has focused on having learners program robots as tools to accomplish tasks (e.g., play soccer). An alternate approach views robots as social actors that can respond intelligently to users. By designing a programmable robot with social characteristics, the project aims to create a culturally-responsive curriculum for Latina, African American, and Native American girls who have been excluded by approaches that separate technical skill and social interaction. The knowledge produced by this project related to the use and benefits of social programmable robots has the potential to impact the many after-school and weekend programs that attempt to engage learners in STEM ideas using programmable robot curricula.
The project robot, named Cozmo, will be programmed using a visual programming language and will convey emotion with facial expressions, sounds, and movements. Middle school girls will engage in programming activities, collaborative reflection, and interact with college women mentors trained to facilitate the course. The project will investigate whether the socially expressive Cozmo improves computer science outcomes such as attitudes, self-efficacy, and knowledge among the middle school female participants differently than the non-social version. The project will also investigate whether adding rapport-building dialogue to Cozmo enhances these outcomes (e.g., when a learner succeeds in getting Cozmo to move, Cozmo can celebrate, saying "I can move! You're amazing!"). These questions will be examined research conducted with participants in multi-session after-school courses facilitated by Girl Scout troops in Arizona. The project will disseminate project research and resources widely by sharing research findings in educational and learning science journals; creating a website with open source code for programming social robots; and making project curriculum and related guidelines available to Girl Scouts and other educational programs.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
As part of ongoing efforts to support a diverse and robust engineering workforce and ensure that children and adults from all communities have the engineering and design thinking skills to succeed in a science, technology, engineering, and mathematics (STEM)-rich world, identity has become a growing focus of research and education efforts. In order to advance our understanding of engineering-related identity negotiation within informal STEM education contexts, we conducted an in-depth, qualitative investigation of six adolescent girls participating in an afterschool engineering education
“Tinkering EU: Building Science Capital for All” aims to develop activities and resources that support a learner-centred culture, improve science education and develop 21st century skills - all of which are fundamental for active citizenship, employability, and social inclusion. To do this, it adopts ‘Tinkering’, an innovative pedagogy developed in the USA, which is used by museums, and has proven able to create a lifelong engagement with science for everyone. Tinkering works particularly well for people who argue that “they are not good at science” or are disaffected from any formal teaching and learning process. It can be a powerful tool to tackle disadvantage. The project integrates Tinkering into the school curriculum to develop the science capital of disadvantaged youth through the use of museums. It addresses students from 8 to 14 years old (primary and junior high schools).
Coordinator: National Museum of Science and Technology Leonardo da Vinci
Partners:
University of Cambridge – UK
NEMO Science Museum – The Netherlands
Science Gallery Dublin – Ireland
CosmoCaixa – Spain
Science Center Network – Austria
NOESIS – Greece
The purpose of this study is to thoroughly describe a program designed to strengthen the pipeline of Latino students into post-secondary science, technology, engineering, and mathematics (STEM) education, and present evaluation data to assess multiyear effectiveness. The program includes a suite of interventions aimed at students and families, and was implemented in a low-income school cluster with a high Latino population in metro Atlanta. Our intervention includes a high school and middle school mentoring program, STEM-focused extracurricular activities (summer camps, research and community
DATE:
TEAM MEMBERS:
Diley HernandezMarion UsselmanShaheen RanaMeltem AlemdarAnalia Rao
This poster was presented at the annual meeting of the National Association for Research in Science Teaching (NARST) in Atlanta, GA. It discusses how cogenerative dialogues (cogens) might serve as a tool to dissolve emotional breakdowns in a project-based learning (PBL) science internship.