Dr. Lenore Blum and associates at Mills College plan to explore the use of an interactive videodisc environment for elementary education in mathematics using existing materials from SQUARE ONE TV. The project will use a prototype interactive computer learning system that uses icons embedded within an exploratory environment to allow learners to select their own activities. The system allows videodisc materials to be easily combined within an interactive computer environment and includes browsing, lesson selection, open exploration, practice problems, and extended activities keyed to the SQUARE ONE TV material. They will produce a videodisc with source materials provided by Children's Television Workshop, design the interactive environment, and evaluate its effectiveness with trial groups of teachers, students, and others in formal and informal settings. This modest proposal will extend the range of utilization of SQUARE ONE TV and provide valuable information on its potential use in non-broadcast settings.
Red Hills Studios proposes to design and develop BioArcade, a suite of online biology games for youth ages 9 to 13. Unique to the field of educational games is the specialized and innovative modding feature that Red Hills Studio will develop. Modding will allow learners to create their own customized versions of BioArcade games for dissemination to other learners. BioArcade games are intended to encourage extended game play and motivation for learning key biology concepts through exciting interactive game modules developed by a leading group of game developers and science content experts. The underlying educational and scientific framework for BioArcade will be developed collaboratively with Co-PI, Dr. Janis Cannon-Bowers at the University of Central Florida and Roger Bybee at the Biological Sciences Curriculum Study (BSCS), along with the projects Scientific and Design Advisory Boards. The project will rigorously evaluate modding as a potential new approach in game design. The modding innovation will be studied in a three-condition randomized controlled trial to determine its effectiveness in promoting deep exploration of scientific concepts and increased knowledge gain. Results of the study will be disseminated to the informal learning community through peer-reviewed educational journals, papers, and presentations at science education and game conferences. Extensive formative and summative evaluations, conducted by Knight Williams Research Communications, will provide valuable insight and assessment of the game design approach for science content learning in informal venues. BioArcade will be widely disseminated daily to millions of young learners online through PBSKids: www.pbskids.org/
The idea that there are models in existence for electricity and how to improve its generation and utilization is an important quest in light of our resources. This CRPA project will stimulate the target audience\'s thinking by describing the relationships between electricity, nanoscience, and superconductivity. An audience of 4th-8th graders, parents, and teachers will come away from watching the video with a new sense of science and its possibilities. This project is a collaboration between physics faculty, educators at the University of Kansas Natural History Museum, a communications professional, and the Bazillion Pictures of Kansas City, Missouri along with independent evaluators. An animated video of 8-10 minutes is intended to engage, entertain, and provoke thought on how electricity works and how it could be used/generated in nano-molecules to derive superconductivity. Most individuals turn on the electrical switch and use the result without the slightest understanding of how electricity arrived at the switch, how it was generated and what resources are needed for it to be there at the "flip of a switch." Further, most do not consider or have sufficient background knowledge to understand how the efficiency and use of this resource might be improved. This project could bridge this gap which if successful would be highly transformative in the public understanding of science.
SciGirls is a multimedia project designed to encourage and empower more girls to pursue careers in STEM. It is a bold and unique experiment--the first television series on PBS designed specifically for girls aged 8-13. The approach is based on the findings of prior gender research. The television show and the Web site are integrally linked. Episodes are available for distribution on many of the newest digital platforms, e.g., Vimeo and iTunes for downloads, free of charge. SciGirls launched in February 2010 and reaches over 80% of the country. This project will support further research and development to advance SciGirls' online and outreach activities. Specifically, the deliverables include: (1) enhancement of the SciGirls website on pbs.org; (2) maintenance of the SciGirls Educator Networks and outreach to new partners; and (3) R&D on other media platforms. The project's two strategic partners are the National Girls Collaborative Project (NGCP) in Seattle and The Franklin Institute in Philadelphia. The NGCP links SciGirls with its network of 500 community-based science programs for girls, and The Franklin Institute coordinates an affiliate network of science museums to implement SciGirls' outreach activities. The project will also work with the Girl Scouts of America's new "Girl Scout Leadership Experience" program, which emphasizes STEM learning. The most significant web component is a social networking feature that allows girls who are interested in science to connect with peers across the nation. To date, there have been over 300,000 unique visitors and 20,000 registered "SciGirls."
The New York Hall of Science (NYSCI), in collaboration with O\'Reilly Media will host a two-day workshop to explore the potential for the kinds of making, designing, and engineering practices celebrated at Maker Faire to enrich science and math learning. The purpose of this workshop is to identify and aggregate successful programming strategies that increase student engagement and proficiency in STEM, with a focus on students underrepresented in STEM careers. The meeting will be organized around three main ideas: catalyzing a national Maker movement; dissemination and scaling of design principles; and assessment of impacts on STEM learning and attitudes. The convening highlights the capacity of making activities to impact student motivation, attitudes, and conceptual understanding in STEM in both informal and formal learning environments. The workshop will be held in conjunction with the World Maker Faire at NYSCI on September 18-19, 2011. The World Maker Faire is a two-day, family-friendly event that celebrates the Do-it-Yourself or DIY movement and brings together a broad community of professionals and laypersons with a common interest in technology-based creativity, tinkering, and the reuse of materials and technology. The proposed workshop extends the work of the previous Maker Faire workshop (DRL 10-46459) by identifying initiatives that bridge the Maker and STEM communities while building students' foundational STEM knowledge and engaging audiences underrepresented in STEM careers. This workshop will accommodate approximately 50 local and national scientists, engineers, learning science researchers, educators, policymakers, and philanthropists. Select participants will present detailed case studies of maker programs, design principles, assessments, and measured outcomes in STEM attitudes and learning. Key elements of successful programs and assessment strategies will be identified across the case studies in brainstorming sessions and roundtable discussions. Following the workshop, a subset of the case studies will be compiled into an edited volume, indexed by the dimensions of student learning in the National Research Council publication, "A Framework for K-12 STEM Education: Practices, Crosscutting Concepts and Core Ideas." This project uses the momentum of the popular Maker Faire movement, based in design, engineering and technology concepts, to connect to STEM education while capitalizing on the strengths of informal learning environments. The workshop provides researchers, practitioners, and policymakers with an aggregated collection of program design principles and reliable metrics for documenting changes in preK-20 STEM attitudes and learning. The edited volume has the potential to advance the understanding of how to bridge formal and informal learning environments, while also fostering research on the affective dimensions of making in diverse audiences.
The Science Museum of Minnesota (SMM) is collaborating with the Museum of Science in Boston (MoS), the North Carolina Museum of Life and Science in Durham (NCMLS), Explora in Albuquerque, the Center for Research in Mathematics and Science Education at San Diego State University (CRMSE), and TERC in Cambridge, MA to develop, create and evaluate "MathCore for Museums," long-term math environments that children can interact with over multiple visits and over several years. The project is prototyping and producing 12 open-source, validated interactive exhibits about proportion: fractions, ratios, similarity, scaling, and percentages, basic concepts for understanding Algebra. The eight best exhibits will be replicated for each MathCore museum and the exhibits will be supported by a limited-access website designed to support and extend repeated use of exhibits and further exploration of ratio and proportion. Selinda Research Associates will conduct a longitudinal evaluation of the project. CRSME will conduct a research study of selected exhibit prototypes to investigate when children start to work on proving relations between similarity and proportion in informal settings, the relationship between children's artwork and mathematical insight, and the roles of bodily activity in learning to see relations in similarity and proportion. Results will be disseminated in peer-reviewed publications, at professional meetings, at the Association of Science and Technology Center's RAP Sessions at the NCMLS, and through the project's website.
This planning effort, a collaboration of teams at the University of Maryland, Cornell University, Carnegie Mellon University and the Sciencenter of Ithaca, deals with the development and testing of a unique methodology for educating youth in computer programming. Through a mobile robot that is cleverly disguised as a small animal, participants will learn to manipulate the system by physically moving it as well as setting variables via electronic buttons thereby learning programming and design. The eventual use of this system and methodology is in museum exhibits so preliminary survey data will be gathered from various venues that presently use less capable devices. Iterative testing will be done at the Sciencenter in its exhibits.
Life on Earth aims to advance (1) public understanding of the history of life on Earth and biodiversity, and (2) our knowledge of how people interact and learn from large interactive science data visualizations on multi-touch displays in public settings. Our multi-institutional project team has developed the DeepTree, the FloTree, and Build-A-Tree (BAT). The focal exhibit, called the DeepTree, utilizing large data sets from four online databases including Tree of Life web project (www.tolweb.org), Encyclopedia of Life (www.eol.org), National Center for Biotechnology Information (https://www.ncbi.nlm.nih.gov/) and Time Tree (www.timetree.org), allow museum visitors to explore the relationships of 70,000 species, spanning over 3.5 billion years of evolutionary history using touch gestures on a large multi-touch computer display. Embedded inside the DeepTree, the "FloTree" encourages exploration of evolutionary processes within a single population. "Build-a-Tree" (BAT) is a multi-level phylogenetic tree-building game. These learning experiences are designed to target core evolutionary concepts and be self-directed, physically interactive, embodied, and collaborative. The Life on Earth exhibit has been installed at California Academy of Sciences in San Francisco, the Field Museum in Chicago, University of Nebraska State Museum in Lincoln Nebraska, and Harvard Museum of Natural in Cambridge Massachusetts. Please visit the Life on Earth website at https://lifeonearth.seas.harvard.edu/ to find more details on publications, and the ongoing learning research and summative evaluation. The Life on Earth project brings together a team of interdisciplinary researchers in human-computer interaction and information visualization, learning sciences, museum exhibit design, cognitive and developmental psychology, and evolutionary biology.
Boston's Museum of Science (MOS), with Harvard as its university research partner, is extending, disseminating, and further evaluating their NSF-funded (DRL-0714706) Living Laboratory model of informal cognitive science education. In this model, early-childhood researchers have both conducted research in the MOS Discovery Center for young children and interacted with visitors during the museum's operating hours about what their research is finding about child development and cognition. Several methods of interacting with adult visitors were designed and evaluated, including the use of "research toys" as exhibits and interpretation materials. Summative evaluation of the original work indicated positive outcomes on all targeted audiences - adults with young children, museum educators, and researchers. The project is now broadening the implementation of the model by establishing three additional museum Hub Sites, each with university partners - Maryland Science Center (with Johns Hopkins), Madison Children's Museum (with University of Wisconsin, Madison), and Oregon Museum of Science and Industry (with Lewis & Clark College). The audiences continue to include researchers (including graduate and undergraduate students); museum educators; and adults with children visiting the museums. Deliverables consist of: (1) establishment of the Living Lab model at the Hub sites and continued improvement of the MOS site, (2) a virtual Hub portal for the four sites and others around the country, (3) tool-kit resources for both museums and scientists, and (4) professional symposia at all sites. Intended outcomes are: (1) improve museum educators' and museum visiting adults' understanding of cognitive/developmental psychology and research and its application to raising their children, (2) improve researchers' ability to communicate with the public and to conduct their research at the museums, and (3) increase interest in, knowledge about, and application of this model throughout the museum community and grow a network of such collaborations.
The Lost Ladybug Project (LLP) is a Cornell University citizen science project that connects science to education by using ladybugs to teach non-scientists concepts of biodiversity, invasive species, and conservation. The project has successfully engaged thousands of children (ages 5-11) in collecting field data on ladybugs and building a ladybug biology database that is useful to scientists. It has also reached 80,000 people over the Internet. The goal of the project is to promote lifelong appreciation of biodiversity and science, and provide scientists with data on the changing distribution and abundance of ladybug species across the country. The current project is broadening the Lost Ladybug Project's reach geographically, culturally, demographically, and contextually by creating new tools and materials for the website, and forging new connections with (1) youth groups, (2) science centers, community centers, botanical gardens, nature centers, and organic farms, (3) adults, (4) Native Americans, and (5) Spanish-speakers. The expanded project could potentially involve tens of thousands of new individuals in ladybug monitoring research. An evaluation study is measuring the impacts of the expansion on new participants' knowledge, skills, attitudes, interests, and behavior. The Lost Ladybug Project has been important in advancing scientific discovery and building scientific knowledge. Data collected by the project's volunteers have improved scientists' understanding of (1) ladybug species presence/absence, (2) shifts in ladybug species composition, (3) shifts in ladybug species ranges, and (4) change in ladybug body size and spot number. Evaluation data show that the project has a broad audience reach and is achieving its learning goals for adults and children. Broadening the project's reach will further increase the project's importance to ecology, conservation biology and biodiversity research, as well as education research.
BRIDGES: Build, Research, Invent, Design, Grow and Explore through Science The New York City Housing Authority (NYCHA) and the Salvadori Center partner in providing BRIDGES [Build, Research, Invent, Design, Grow and Explore through Science], an after-school program using investigations of the built environment to introduce and reinforce STEM concepts and skills. The program highlights engineering concepts and the design process through hands-on investigations of the built environment done in small groups (with an emphasis on collaborative learning). It is co-taught by Salvadori educators in partnership with NYCHA community center instructors. After an intensive 3-day institute to train NYCHA staff, Salvadori staff members meet weekly with the housing authority staff to provide coaching in facilitation skills and to co-teach projects on building scaled bridges, mapping neighborhoods, investigating tension and compression, and more. In subsequent years, NYCHA after-school instructors take over the teaching with on-going support/professional development from the Center. The target audience is young people 8-12 years old enrolled in after-school programs run by the New York City Housing Authority, who gain content understanding and self concept in terms of their attitude and interest in STEM learning. BRIDGES begins with 5 sites serving 150 children in its first year with five sites added annually. By Year 5, BRIDGES serves 625 children at 25 NYCHA community centers. In addition in Years 4 and 5, the project is disseminated in at least two municipalities outside of NYC. In all 775 youth and 60 after-school educators will be directly impacted by this new program. The strategic impact is to provide strategies and evidence of support necessary for effective scale up of this locally successful program and for bringing school-based materials associated with the project into the after-school time experience. A project book, summative evaluation by The After School Corporation (TASC), and a website will be shared with the field on line, through conference presentations, and publications. The Salvadori Center was founded by Dr. Mario Salvadori (1907-1997), Columbia Professor of Civil Engineering & Architecture, in collaboration with City College of New York Schools of Education and Architecture. Its mission is to stimulate and deepen young people's curiosity and knowledge about math, science, arts and the humanities by using the built environment as an entry point for learning. For over 20 years, the Center has offered research-based teacher development and support, including intensive training institutes, workshops and classroom mentoring programs focused on project-based learning. The Center has reached over 125,000 students in New York City public schools, and its books, videos, and construction kits have been distributed nationally and internationally. The Centers staff are all professionally trained architects, engineers, and science and fine arts teachers.
The Cornell Lab of Ornithology is creating a new type of interactive, question-driven, online bird-identification tool called "Merlin," along with associated games, social networking tools, and other media. Unlike existing bird-identification guides, which are based on traditional taxonomic keys written by scientists, Merlin uses machine learning algorithms and crowd-sourced data (information provided by thousands of people) to identify birds and improve Merlin's performance with each interaction. The tool will help millions of people identify birds and participate in a collective effort to help others. The Crowd ID project will make it easier for people to discover the names of birds, learn observation and identification skills, find more information, and appreciate Earth's biodiversity. The summative evaluation plan is measuring increases in participants' knowledge, engagement, and skills, as well as changes in behavior. Impacts on participants will be compared to a control group of users not using Merlin. Merlin tools will be integrated into the Cornell Lab's citizen science and education projects, which reach more than 200,000 participants, schoolchildren, and educators across the nation. Merlin will be broadly adapted for use on other websites, social networking platforms, exhibits, mobile devices, curricula, and electronic field guides. Once developed, Merlin can be modified to identify plants, rocks, and other animals. Merlin will promote growth of citizen science projects which depend on the ability of participants to identify a wide range of organisms.