This paper attempts to reframe popular notions of “failure” as recently celebrated in the Maker Movement, Silicon Valley, and beyond. Building on Vossoughi et al.’s 2013 FabLearn publication describing how a focus on iterations/drafts can serve as an equity-oriented pedagogical move in afterschool tinkering contexts, we explore what it means for afterschool youth and educators to persist through unexpected challenges when using an iterative design process in their tinkering projects. More specifically, this paper describes: 1) how young women in a program geared toward increasing equitable
Techbridge Girls’ mission is to help girls discover a passion for science, engineering, and technology (SET). In August 2013, Techbridge Girls was awarded a five-year National Science Foundation grant to scale up its after-school program from the San Francisco Bay Area to multiple new locations around the United States. In the fall of 2014, Techbridge Girls began offering after-school programming at five elementary and two middle schools in the Highline Public School district, located near Seattle, WA.
Education Development Center is conducting the formative and summative evaluation of the
This paper investigates how intentionally designed features of an out-of-school time program, Studio STEM, influenced middle school youths’ engagement in their learning. The authors took a connected learning approach, using new media to support peer interaction and engagement with an engineering design challenge in an open and flexible learning environment.
Afterschool continues to be promoted as a complementary setting to school for strengthening science, technology, engineering, and math (STEM) education (for example, Krishnamurthi, Bevan, Rinehart, & Coulon, 2013). This is a reasonable idea: 10.2 million children and youth in the U.S. participate in structured afterschool programs (Afterschool Alliance, 2014), and the flexibility of afterschool settings allows for innovative approaches to STEM exploration and engagement.
This evaluation reports on the Mission: Solar System project, a 2-year project funded by NASA. The goal of the Mission: Solar System was to create a collection of resources that integrates digital media with hands-on science and engineering activities to support kids’ exploration in formal and informal education settings. Our goal in creating the resources were: For youth: (1) Provide opportunities to use science, technology, engineering, and math to solve challenges related to exploring our solar system, (2) Build and hone critical thinking, problem-solving, and design process skills, (3)
This is a Science Learning+ planning project that will develop a plan for how to conduct a longitudinal study using existing data sources that can link participation in science-focused programming in out-of-school settings with long-range outcomes. The data for this project will ultimately come from "mining" existing data sets routinely collected by out-of-school programs in both the US and UK. 4H is the initial out-of-school provider that will participate in the project, but the project will ideally expand to include other youth-based programs, such as Girls Inc. and YMCA. During the planning grant period, the project will develop a plan for a longitudinal research study by examining informal science-related factors and outcomes including: (a) range of educational outcomes, (b) diversity and structure of learning activities, (c) links to formal education experiences and achievement measures, and (d) structure of existing informal science program data collection infrastructure. The planning period will not involve actual mining of existing data sets, but will explore the logistics regarding data collection across different informal science program, including potential metadata sets and instruments that will: (a) identify and examine data collection challenges, (b) explore the implementation of a common data management system, (c) identify informal science programs that are potential candidates for this study, (d) compare and contrast data available from the different programs and groups, and (e) optimize database management.
This Science Learning+ project will develop research-and-practice activities to explore how an integrated art, STEM, and society (what we refer to as STEAM) approach can expand science engagement and learning of youth aged 15-19, from low-income and non-dominant cultural communities. The project will review current knowledge, practice, and trends related to underrepresented youth, STEAM, and science engagement. The review will be used to develop: (1) A cross-setting research framework for investigating the relationship between informal STEAM learning experiences and young people's developing engagement with science. (2) Design principles for out-of-school STEAM programs that have proven effective in cultivating youth engagement with science and making relevant cross-setting connections. (3) Practitioner-friendly program evaluation tools that integrate findings from current research and practice related to cross-setting science learning of young adults especially non-dominant youth as it relates to STEAM learning experiences.
Northeastern University will design, test, and study GrACE, a procedurally generated puzzle game for teaching computer science to middle school students, in partnership with the Northeastern Center for STEM Education and the South End Technology Center. The Principal Investigators will study the effect of computer generated games on students' development of algorithmic and computational thinking skills and their change of perception about computer science through the game's gender-inclusive, minds-on, and collaborative learning environment. The teaching method has potential to significantly advance the state of the art in both game-based learning design and yield insights for gender-inclusive teaching and learning that could have broad impact on advancing the field of computer science education. Development and evaluation of GrACE will consist of two, year-long research phases, each with its own research question. The first, design and development, phase will focus on how to design a gender-inclusive, educational puzzle game that fosters algorithmic thinking and positive attitude change towards computer science. The content generator will be created using Answer Set Programming, a powerful approach that involves the declarative specification of the design space of the puzzles. The second phase will be an evaluation that studies, by means of a mixed-methods experimental design, the effectiveness of incorporating procedural content generation into an educational game, and specifically whether such a game strategy stimulates and improves minds-on, collaborative learning. Additionally, the project will explore two core issues in developing multiplayer, collaborative educational games targeted at middle school students: what typical face-to-face interactions foster collaborative learning, and what gender differences exist in how students play and learn from the game. The project will reach approximately 100 students in the Boston area, with long-term goals of reaching students worldwide, once the game has been tested with a local audience. Results of the project will yield a new educational puzzle game that can teach algorithmic thinking and effect attitude change regarding computer science. Through the process of creating a gender-inclusive game to teach computer science, it will provide guidelines for future educational game projects. Beyond these individual project deliverables, it will improve our understanding of the potential for procedural content generation to transform education, through its development of a new technique for generating game content based on supplying educational objectives.
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Northeastern UniversityGillian SmithCasper Harteveld
Pipeline for Remote Sensing Education and Application (PRSEA), will increase awareness, knowledge and understanding of remote sensing technologies and associated disciplines, and their relevance to NASA, through a combination of activities that build a “pipeline” to STEM and remote sensing careers, for a continuum of audiences from third grade through adulthood. This program will be led by Pacific Science Center. The first objective is to engage 50 teens from groups underrepresented in STEM fields in a four-year career ladder program; participants will increase knowledge and understanding of remote sensing as well as educational pathways that lead to careers in remote sensing fields at NASA and other relevant organizations. The second objective is to serve 2,000 children in grades 3-5, in a remote sensing-based out-of school time outreach program that will increase the participant’s content knowledge of remote sensing concepts and applications and awareness and interest in remote sensing disciplines. PRSEA’s third objective is to engage 180 youth, grades 6-8, in remote sensing-themed summer intensive programs through which youth will increase knowledge of remote sensing concepts and applications and increase awareness and interest in educational and career pathways associated with remote sensing and NASA’s role in this field. The final objective is to engage 10,000 visitors of all ages with a remote sensing-themed Discovery Cart on Pacific Science Center’s exhibit floor. By engaging in cart activities, we anticipate visitors will increase their level of awareness and interest in the topic of remote sensing and NASA’s role in contributing to this field.
The Expanding Children’s Interest through Experiential Learning (EXCITE) Project will target K-8th students in expanded learning programs to increase ongoing NASA STEM informal education opportunities for organizations that serve primarily underrepresented and underserved student populations. The AERO Institute will leverage existing collaborations to build capacity of participating organizations in NASA inspired STEM activities. Major partners include Navajo Nation in Arizona, the Beyond the Bell branch of the Los Angeles Unified School District, and the Region 8 of the California After School Program housed in the Ventura County of Education. In addition, the EXCITE Learning Project plans to work with libraries to broaden the scope and impact of NASA’s Education materials and opportunities within underrepresented and underserved local communities. AERO Education specialists will train educators and librarians using the Train-the-Trainer approach. The training sessions will be filmed and made available online via the AERO website and its network on YouTube so that educators and librarians can refresh their understanding as needed.
Exoplanets Exploration is an interactive exhibition to explore exoplanets for the primary audience of students grades 5th through 12th with a secondary audience of younger children and adults. The exhibition is located in the astronomy wing of the Boonshoft Museum of Discovery (Dayton, Ohio). The project goals are to provide a STEM base for visitors from which to explore exoplanet discoveries; for them to have a basic understanding of exoplanet missions, instruments used in the discoveries, and the science knowledge necessary to understand the discoveries; to learn about the exoplanet discoveries through hands-on tactile, auditory, visual, and kinesthetic interactive exhibition components; and to challenge visitors to contemplate the possibility of life elsewhere in the universe. Aspects of the exhibition are integrated into space-related programming by linking to school visits, Distance Learning programs, summer Discovery Camps, FIRST LEGO league, and homeschool programming. Components of the exhibition addresse relevant Ohio Academic Content Standards for Earth and Space Science and will evolve to incorporate new Next Generation Science Standards. With the STEM career information presented along with scientific learning, students will be able to visualize the possibilities that NASA and space science represents.
The C2C award addresses the lack of validated instruments to measure teamwork and collaboration in middle and high school students in out of school time (OST) settings by implementing a rigorous four-phase process to develop new assessments. Phase 1 focuses on defining the construct of teamwork and collaboration skills so it aligns with the research literature and is relevant to outcomes in a variety of STEM OST programs. Construct maps are developed during Phase 2 to guide item development. The instruments are piloted in Phase 3 through think-aloud interviews and survey administration with a diverse set of youth and programs. Through an iterative process, items are revised or removed based on their psychometric properties. The final phase is a national field test with a cross-section of STEM OST programs. C2C's intellectual merit is its potential to advance understanding of how to measure teamwork and collaboration skills in STEM OST programs. There is a national call for more measures to evaluate 21st century skills. C2C's creation of instruments to measure teamwork and collaboration skills in STEM OST programs helps to address this gap. The work of C2C addresses broader impacts and benefit society by creating tools to understand the role STEM OST programs play in readying our nation's youth for the STEM workforce. C2C will create instruments validated specifically for this diverse population, allowing programs to understand the role they play in important societal STEM workforce readiness outcomes. C2C also benefits the informal science education field by conceptualizing the construct of teamwork and collaboration within STEM OST programs and developing validated instruments to understand the impact of these programs on youth.