This report summarizes findings from an evaluation of the NSF-funded project: Two Eyes, 3D. Through collaborations with two museums, the project sought to develop and test learning outcomes for stereoscopic (3D) resources. More specifically, the external evaluation—conducted by Rockman Et Al—sought to determine the perceived value of using stereoscopic technology within museums and planetariums, uncover best practices for implementation of stereoscopic resources, and further explore best practices for research partnerships within museum settings.
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TEAM MEMBERS:
American Association of Variable Star ObservrsJennifer Borland
Virtual communities have been extensively examined -- including their history, how to define them, how to design tools to support them, and how to analyze them. However, most of this research has focused on adult virtual communities, ignoring the unique considerations of virtual communities for children and youth. Young people have personal, social, and cognitive differences from adults. Thus, while some of the existing research into adult virtual communities may be applicable, it lacks a developmental lens. Based on our work of designing and researching virtual worlds for youth, we describe
What if every kid had access to a real workshop? Like the ones in the corners of garages across the country: a basic array of tools, bits and pieces of hardware, piles of scrap materials and fasteners, plus stacks of unsorted boxes containing the remnants of projects gone by. Visualize also that the workshop held a few musical instruments-guitars, a keyboard, some percussion-as well as art supplies: markers, paints, clay, and the tools to shape it, ribbons glitter, beads, fabric, etc. n top of this, picture the workshop having a few hands-on exhibits to explore and manipulate-a vacuum chamber
In recent years, novel paradigms of computing have emerged, which enable computational power to be embedded in artefacts and environments in novel ways. These developments may create new possibilities for using computing to enhance learning. This paper presents the results of a design process that set out to explore interactive techniques, which utilized ubiquitous computer technology, to stimulate active participation, involvement and learning by children visiting a museum. Key stakeholders, such as museum curators and docents, were involved throughout the process of creating the exhibition
In this article, we describe a preliminary study that integrates research on engineering design activities for K-12 students with work on microworlds as learning tools. Here, we extend these bodies of research by exploring whether - and how - authentic recreations of engineering practices can help students develop conceptual understanding of physics. We focus on the design-build-test (DBT) cycle used by professional engineers in simulation-based rapid modeling. In this experiment, middle-school students worked for 10 hr during a single weekend to solve engineering design challenges using
This paper illustrates the intensified engagement that youth are having with digital technologies and introduces a framework for examining digital fluency – the competencies, new representational practices, design sensibilities, ownership, and strategic expertise that a learner gains or demonstrates by using digital tools to gather, design, evaluate, critique, synthesize, and develop digital media artifacts, communication messages, or other electronic expressions. A primary goal of this paper is to identify promising perspectives through which learning is conceptualized, and to share the
This poster was presented at the 2014 AISL PI Meeting held in Washington, DC. It discusses the second season of SciGirls, a multimedia project designed to encourage and empower more girls to pursue careers in STEM.
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Twin Cities Public TelevisionRita Karl
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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TEAM MEMBERS:
Northeastern UniversityGillian SmithCasper Harteveld
This poster was presented at the 2014 AISL PI Meeting in Washington, DC. It discusses a project that connects rural, underserved youth and families in Eastern Washington and Northern Idaho to STEM concepts important in sustainable building design.
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TEAM MEMBERS:
Palouse Discovery Science CenterKathleen RyanChristine BervanKathy DawesPatty McNamara
resourceresearchProfessional Development, Conferences, and Networks
This poster was presented at the 2014 AISL PI Meeting in Washington, DC. It describes a project designed to increase informal learning opportunities for blind youth in STEM.
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TEAM MEMBERS:
National Federation of the BlindMark Riccobono
Informal Community Science Investigators (iCSI) creates a network of four geographically diverse informal science institutions working together on strategies to engage youth ages 10-13 through location based augmented reality (AR) games played on smartphones. These high-interest, kid-friendly games will be used by families visiting the institutions and by youth who enroll in more intensive summer camp programs. Using AR games, participants will engage in playful but scientifically-grounded investigations drawing on each institution's research, exhibits, and natural spaces. For example, a botanical garden might engage young visitors through AR games with themes related to native and invasive species, while a zoo might create a game experience focusing on illegal wildlife trade. Participants in the iCSI summer camp program will have more intensive experiences, including work with the host institution's scientists, opportunities to develop original augmented reality games, and experiences with game-related service learning and citizen science programs. For both target groups (families and campers), the location specific games build understanding of both the institution's mission and the broader realm of scientific research and application. The project will test the notion of participants as "learner hero," the link between game play and the individual's development of competency, autonomy and the relationship to real world experience, in this case through community action on the subject of the game developed. To that end, participants will be encouraged to extend their involvement through related investigations on site and participation in community activities and projects that can be done at home. Social media tools such as Facebook and web sites managed by the host institutions will provide recognition for this extended engagement, helping participants maintain ties to the program. Additionally, program resources provide assistance to adult family members in nurturing and sustaining youth interest in STEM activities and careers. A major effort of the project will be development of a new software infrastructure called TaleBlazer for the augmented reality game that will enable teachers and students to develop their own game that incorporates real data collection and scientific model building. The new platform will enhance the game play platform MITAR developed with NSF funding.
This poster was presented at the 2014 AISL PI Meeting in Washington, DC. STAR Library Education Network (STAR_Net) is a national program led by the Space Science Institute’s National Center for Interactive Learning (NCIL). STAR stands for Science-Technology Activities and Resources (www.starnetlibraries.org). Core partners include the American Library Association, Lunar and Planetary Institute, and the National Girls Collaborative Project. Other partners include the National Academy of Engineering, Engineers Without Borders-USA, IEEE-USA, the National Renewable Energy Lab, American Geophysical
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SPACE SCIENCE INSTITUTE/National Center for Interactive LearningPaul Dusenbery