This briefing paper reports findings from the Youth Access & Equity in Informal Science Learning (ISL) project,
a UK-US researcher-practitioner partnership funded by the Science Learning+ scheme. Our project focuses on young people aged 11-14 primarily from under-served and non-dominant communities and includes researchers and practitioners from a range of ISL settings: designed spaces (e.g. museums, zoos), community-based (e.g. after school clubs) and everyday science spaces (e.g. science media).
The Clay Center for Arts and Sciences of West Virginia will create professional learning communities of teachers and after-school staff serving 7th grade students at seven partner schools using digital storytelling as a tool to explore energy-related topics impacting their communities. West Virginia's role as a leading coal producer and the impact of natural gas drilling served as strong influencing factors in the creation of this STEAM project, titled emPOWERed Stories. Students will create an exhibit that incorporates these digital stories. The results will inform the broader field on ways to better blend formal and informal education experiences to become more potent learning environments.
This report describes an evaluation of two educational programs that Iridescent offered with a grant from the National Science Foundation. These two programs were developed for youth and their families and were organized around open-ended Engineering Design Challenges. These are hands-on problem-solving activities supported by a web-based platform known as the Curiosity Machine. The Curiosity Machine and the Design Challenges were designed to work together to engage learners in fundamental physics and engineering concepts in fun and open-ended ways, while enhancing their curiosity, creativity
The overall purpose of the Kinetic City (KC) Empower project was to examine how informal science activities can be made accessible for students with disabilities. The premise of this project was that all students, including those with disabilities, are interested in and capable of engaging in science learning experiences, if these experiences are accessible to them. Drawing on resources from Kinetic City, a large collection of science experiments, games, and projects developed by the American Association for the Advancement of Science (AAAS), the project researched and adapted five after
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TEAM MEMBERS:
Bob HirshonLaureen SummersBabette MoellerWendy Martin
This full scale research and development collaborative project between Smith College and Springfield Technical Community College improves technical literacy for children in the area of engineering education through the Through My Window learning environment. The instructional design of the learning environment results from the application of innovative educational approaches based on research in the learning sciences—Egan's Imaginative Education (IE) and Knowledge Building (KB). The project provides idea-centered engineering curriculum that facilitates deep learning of engineering concepts through the use of developmentally appropriate narrative and interactive multimedia via interactive forums and blogs, young adult novels (audio and text with English and Spanish versions), eight extensive tie-in activities, an offline teachers’ curriculum guide, and social network connections and electronic portfolios. Targeting traditionally underrepresented groups in engineering—especially girls—the overarching goals of the project are improving attitudes toward engineering; providing a deeper understanding of what engineering is about; supporting the development of specific engineering skills; and increasing interest in engineering careers. The project will address the following research questions: What is the quality of the knowledge building discourse? Does it get better over time? Will students, given the opportunity, extend the discourse to new areas? What scaffolding does the learning environment need to support novice participants in this discourse? Does the use of narrative influence participation in knowledge building? Are certain types of narratives more effective in influencing participation in knowledge building? Evaluative feedback for usability, value effectiveness, and ease of implementation from informal educators and leaders from the Connecticut After School Network CTASN) will be included. The evaluation will include documentation on the impact of narrative and multimedia tools in the area of engineering education. Currently, there is very little research regarding children and young teen engagement in engineering education activities using narrative as a structure to facilitate learning engineering concepts and principles. The research and activities developed from this proposed project contributes to the field of Informal Science and Engineering Education. The results from this project could impact upper elementary and middle-school aged children and members from underrepresented communities and girls in a positive way.
Kinetic City After School is a project supported by a prior NSF award that has produced over 80 activities in areas typical of after school activities such as computer games/simulations, hands-on activities, active play, and art and writing. This pathways project, KC Empower, will redesign and test five activities of the 80 activities currently developed by Kinetic City using a new approach to increase the representation of children and youth with disabilities in informal science settings. The project will test how universal design principles can be integrated with new technologies, not available when most after school STEM content was created, to address the needs of students with disabilities. The technologies used in the redesign include advanced mobile platforms and applications; search engines that sift through audio, image and video files; gaming input devices that respond to body movements; and information restructuring that allows multiple representations of content. The project will test how universal design guidelines will work with new technologies, in the short-term providing hands-on activities more accessible to students with disabilities, while increasing access for all students. The project is expected to lead to a full scale development project that will update all modules in Kinetic City After School. The target audience is 3rd - 5th grade students. The hypothesis of the project is that designing for disability can strengthen activities designed to increase science knowledge. Rather than making accommodations for persons with disabilities, it is the environment and design that are disabled, and it is better educational practice to rethink the activity from the point of view of all learners, including those with disabilities. Thus the use of universal design will address how best to present material for all users while influenced by the challenges presented by disabled users. The project includes the Coalition for Science After School, the Center for Applied Special Technology and the Afterschool Alliance.
In Defense of Food (IDOF) is a media and outreach project based on Michael Pollan's best-selling book of the same title. Through the lens of food science, IDOF is designed to engage diverse audiences in learning about: (1) how science research is conducted, (2) how research findings are used in media, marketing, and public policy, and (3) how to apply food science research in everyday life. IDOF will be created by Kikim Media, an independent production company, broadcast and distributed by PBS and supported by an extensive outreach campaign and interactive website. The project's educational materials will be developed, in part, by the Teacher's College at Columbia University's Center for Food and Nutrition, with dissemination supported by the Coalition for Science After School and by Tufts University's Healthy Kids Out of School initiative, which involves nine of the leading out of school time (OST) organizations, such as Girl Scouts USA, and the National Urban League. The project advisory committee includes highly respected researchers in food, nutrition, and health. IDOF will use an integrated strategy of learning resources, combining a television documentary with online/social media, community outreach, and youth activities. Knight Williams Research Communications will conduct formative and summative evaluation of all major components of the project. The results will advance the informal science community's understanding of how the combination of a documentary with outreach, website/social media, and afterschool activities impacts motivation and learning. The evaluation study will pay special attention to the degree to which participation in the community events, social media/website, and afterschool activities motivates deeper or extended engagement with the subject. Project evaluation results and educational resources will be widely disseminated to the informal science community. IDOF includes a two-hour documentary film that will be produced in both English and Spanish; a community-level outreach campaign focused on reaching underserved audiences who may not watch public television; a set of activities for use in afterschool programs, youth programs and schools; and an interactive and content-rich website with tightly integrated social media tools. IDOF will be nationally broadcast by PBS; the Spanish-language version of IDOF will be broadcast by Vme Television. The ambitious IDOF educational materials and outreach campaign, combined with interactive web and social media, will reach large and diverse audiences. The intended impacts on audiences include increased knowledge and understanding of the scientific process by learning what food scientists do, what techniques they use, and how scientists arrive at their conclusions; the development of critical thinking skills audiences can use when evaluating messages about food and nutrition in media and advertising and when making decisions about what food to buy and eat; and becoming active learners and consumers regarding food. Evaluation results will be widely disseminated to science media producers and the informal science community via professional publications and presentations at conferences. The ultimate value of the In Defense of Food documentary and learning initiative will be to enhance public understanding of the crucial importance of science in people's everyday lives and in shaping dozens of daily decisions.
Iridescent is a not-for-profit company that develops and implements informal science and engineering experiences for students by facilitating the translation of the work that scientists and engineers do in a way that makes that work accessible to families. The proposal expands the Iridescent outreach activities funded by the Office of Naval Research, to provide a blended combination of in-person and online support to the families of underrepresented populations. The project is producing twenty videos of scientists and engineers presenting their research that are closely aligned with one hundred scientific inquiry and engineering design-based experiments and lesson plans. These digital resources, collectively called the Curiosity Machine, provide opportunities for parents and children to engage in scientific inquiry and engineering design in multiple face-to-face and online environments, including mobile technologies. The evaluation findings from this project provide a model of how to engage STEM education practitioners, teachers and online communities, to substantively connect underserved communities, in both informal and more formal learning environments to develop experiences with engineering design and to improve students' perspectives about and motivations to prepare for STEM careers. The Curiosity Machine portal is designed to present scientists and engineers explaining the work that they do in a way that makes it accessible to parents and students. Iridescent is working at three sites across the country in South Los Angeles, the South Bronx in New York City, and San Francisco. Students and their families have multiple access points to the science and engineering videos and materials through after school activities, Family Science Nights and summer camps. The project is piloting the use of electronic badges, similar to those offered in the Boy and Girl Scouts as a mechanism to enhance the engagement and persistence of students in the online activities. The project is developing ways to evaluate student engagement and performance through the analysis of the products that students submit online in response to particular science and engineering challenges. Students can also gain extra credit at school for their participation in the Curiosity Machine activities. The materials that the Curiosity Machine activities and challenges use are those that are commonly available to families, and the project provides access to mobile technology to facilitate participation by families. Student access to out of school science and engineering experiences is limited by the resources in terms of time and availability science centers have available. This project develops the resources and tools to bridge the in-school and out of school activities for students through the use of videos and online participation in ways that expand the opportunity of students from underserved populations to continue to engage in substantive science and engineering experiences beyond what they might get during an intermittent visit to a science center. The research and evaluation that is part of this study provides information about how new forms of extrinsic motivation might be used to support student engagement and persistence in learning about science and engineering.
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)
The Young Developers program is an after school program conceptualised and run by The P-STEM Foundation. It introduces computer programming and design concepts to high school age students from South African historically disadvantaged communities, where the majority of students have had little or no interaction with computers. Young Developers uses Self Organised Learning Methodology and involves introducing a series of increasingly complex challenges / questions that the participants have to collaboratively solve. The first module is run in Scratch with the final objective being the creation of a racing car game. The second module is run in Python using Turtle graphics with an objective of creating an animation. This program runs as pods in each of the communities that the P-STEM foundation works in. Each pod has up to 30 teens from the age of 10 to 18. Each pod is peer led and peer driven, and the pace of learning is determined by the participants. In 2015, we would also like to introduce national competitions which pods participate in against other pods.
Rockman et al (REA), a San Francisco-based research and evaluation firm, conducted the external evaluation for Youth Radio's DO IT! program, which was funded by the National Science Foundation. Building upon Youth Radio's previous Science and Technology Program, the DO IT! initiative consisted of three primary components that promoted STEM (science, technology, engineering, and mathematics) learning by training underserved youth in cutting-edge digital technologies: (1) Brains and Beakers: Young people hosted a line-up of investigators and inventors for demo-dialogues at Youth Radio's studios
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Rockman et al | Youth RadioKristin BassJulia Hazer
The University of Massachusetts Lowell and Machine Science Inc. propose to develop and to design an on-line learning system that enables schools and community centers to support IT-intensive engineering design programs for students in grades 7 to 12. The Internet Community of Design Engineers (iCODE) incorporates step-by-step design plans for IT-intensive, computer-controlled projects, on-line tools for programming microcontrollers, resources to facilitate on-line mentoring by university students and IT professionals, forums for sharing project ideas and engaging in collaborative troubleshooting, and tools for creating web-based project portfolios. The iCODE system will serve more than 175 students from Boston and Lowell over a three-year period. Each participating student attends 25 weekly after-school sessions, two career events, two design exhibitions/competitions, and a week-long summer camp on a University of Massachusetts campus in Boston or Lowell. Throughout the year, students have opportunities to engage in IT-intensive, hands-on activities, using microcontroller kits that have been developed and classroom-tested by University of Massachusetts-Lowell and Machine Science, Inc. About one-third of the participants stay involved for two years, with a small group returning for all three years. One main component for this project is the Handy Cricket which is a microcontroller kit that can be used for sensing, control, data collection, and automation. Programmed in Logo, the Handy Cricket provides an introduction to microcontroller-based projects, suitable for students in grades 7 to 9. Machine Science offers more advanced kits, where students build electronic circuits from their basic components and then write microcontroller code in the C programming language. Machine Science offers more advanced kits, which challenge students to build electronic circuits from their basic components and then write microcontroller code in the C programming language. Machine Science's kits are intended for students in grades 9 to 12. Microcontroller technology is an unseen but pervasive part of everyday life, integrated into virtually all automobiles, home appliances, and electronic devices. Since microcontroller projects result in physical creations, they provide an engaging context for students to develop design and programming skills. Moreover, these projects foster abilities that are critical for success in IT careers, requiring creativity, analytical thinking, and teamwork-not just basic IT skills.
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TEAM MEMBERS:
Fred MartinDouglas PrimeMichelle Scribner-MacLeanSamuel Christy