Disparities in engineering participation and achievement by women and individuals from traditionally underserved racial and ethnic groups have been persistent. Approaches outside the context of university and school reform, including approaches to supporting interest development in early childhood, have not been fully considered by educators and policymakers. This AISL Pathways project will focus on engineering, which has emerged as a critical topic in the STEM education field and a prominent aspect of educational standards and policies. Building on a strong empirical and theoretical base, it will lay the foundation for future research efforts to advance the field's limited understanding of early childhood engineering-related interest development, especially through parent-child interactions; create research tools for studying engineering-related interest in young children; and identify effective strategies for supporting long-term engineering interest pathways. "Head Start on Engineering" 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. Through an asset-based approach and authentic engagement with families and community organizations, Head Start on Engineering will pilot research and program activities that are sensitive to the constraints of low-income families and build on the resources and funds of knowledge within these communities. It will test and refine an innovative, theoretical model of early childhood interest development. The overall design of the pilot study will be mixed-method and short-term longitudinal, with data collected before, during, and after program implementation from participating families. Quantitative measures will allow for consistent comparisons across groups and within families, while qualitative data will help explore complex factors and processes hypothesized in the theoretical framework and related to program implementation. This work will allow the team time to address unanswered questions and issues around how to feasibly operationalize key aspects of the revised theoretical model in preparation for more extensive, longitudinal and experimental investigations as part of the next phase of the project. Understanding and honoring parents' beliefs, knowledge, and experiences is central to this project. In developing and implementing both the programs and research activities, the team will adopt culturally responsive and asset-based perspectives. The Pathways project is a collaboration between the Institute for Learning Innovation (ILI), a nonprofit organization dedicated to the advancement of lifelong, free-choice learning for all communities through research, practice, and policy initiatives; Mt. Hood Community College Head Start program; the Oregon Museum of Science and Industry (OMSI), a nationally renowned science museum; and the Center for STEM Education at the University of Notre Dame. The project involves families with four-year-old children who attend the Head Start program. The collaboration between educators, community organizations, and researchers and the integrated approach to research and program development will ensure that study findings translate to practical and effective education strategies and that future research efforts are well-grounded in the realities of practitioners and learners.
A recent report by the Association for Computing Machinery estimates that by decade's end, half of all STEM jobs in the United States will be in computing. Yet, the participation of women and underrepresented groups in post-secondary computer science programs remains discouragingly and persistently low. One of the most important findings from research in computer science education is the degree to which informal experiences with computers (at many ages and in many settings) shape young people's trajectories through high school and into undergraduate degree programs. Just as early language and mathematics literacy begins at home and is reinforced throughout childhood through a variety of experiences both in school and out, for reasons of diversity and competency, formal experiences with computational literacy alone are insufficient for developing the next generation of scientists, engineers, and citizens. Thus, this CAREER program of research seeks to contribute to a conceptual and design framework to rethink computational literacy in informal environments in an effort to engage a broad and diverse audience. It builds on the concept of cultural forms to understand existing computational literacy practices across a variety of learning settings and to contribute innovative technology designs. As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds new approaches to and evidence-based understanding of the design and development of STEM learning in these settings. This CAREER program of research seeks to understand the role of cultural forms in informal computational learning experiences and to develop a theoretically grounded approach for designing such experiences for youth. This work starts from the premise that new forms of computational literacy will be born from existing cultural forms of literacy and numeracy (i.e., for mathematical literacy there are forms like counting songs -- "10 little ducks went out to play"). Many of these forms play out in homes between parents and children, in schools between teachers and students, and in all sorts of other place between friends and siblings. This program of study is a three-phased design and development effort focused on key research questions that include understanding (1) how cultural forms can help shape audience experiences in informal learning environments; (2) how different cultural forms interact with youth's identity-related needs and motivations; and (3) how new types of computational literacy experiences based on these forms can be created. Each phase includes inductive research that attempts to understand computational literacy as it exists in the world and a design phase guided by concrete learning objectives that address specific aspects of computational literacy. Data collection strategies will include naturalist observation, semi-structured, and in-depth interviews, and learning assessments; outcome measures will center on voluntary engagement, motivation, and persistence around the learning experiences. The contexts for research and design will be museums, homes, and afterschool programs. This research builds on a decade of experience by the PI in designing and studying computational literacy experiences across a range of learning settings including museums, homes, out-of-school programs, and classrooms. Engaging a broad and diverse audience in the future of STEM computing fields is an urgent priority of the US education system, both in schools and beyond. This project would complement substantial existing efforts to promote in-school computational literacy and, if successful, help bring about a more representative, computationally empowered citizenry. The integrated education plan supports the training and mentoring of graduate and undergraduate students in emerging research methods at the intersection of the learning sciences, computer science, and human-computer interaction. This work will also develop publically available learning experiences potentially impacting thousands of youth. These experiences will be available in museums, on the Web, and through App stores.
The Next Generation Science Standards (NGSS) identify an ambitious progression for learning energy, beginning in elementary school. To help the nation's teachers address this challenge, this project will develop and investigate the opportunities and limitations of Focus on Energy, a professional development (PD) system for elementary teachers (grades 3-5). The PD will contain: resources that will help teachers to interpret, evaluate and cultivate students' ideas about energy; classroom activities to help them to identify, track and represent energy forms and flows; and supports to help them in engaging students in these activities. Teachers will receive the science and pedagogical content knowledge they need to teach about energy in a crosscutting way across all their science curricula; students will be intellectually engaged in the practice of developing, testing, and revising a model of energy they can use to describe phenomena both in school and in their everyday lives; and formative assessment will guide the moment-by-moment advancement of students' ideas about energy. This project will develop and test a scalable model of PD that will enhance the ability of in-service early elementary teachers to help students learn energy concepts by coordinating formative assessment, face-to-face and web-based PD activities. Researchers will develop and iteratively refine tools to assess both teacher and student energy reasoning strategies. The goals of the project include (1) teachers' increased facility with, and disciplined application of, representations and energy reasoning to make sense of everyday phenomena in terms of energy; (2) teachers' increased ability to interpret student representations and ideas about energy to make instructional decisions; and (3) students' improved use of representations and energy reasoning to develop and refine models that describe energy forms and flows associated with everyday phenomena. The web-based product will contain: a set of formative assessments to help teachers to interpret student ideas about energy based on the Facets model; a series of classroom tested activities to introduce the Energy Tracking Lens (method to explore energy concept using multiple representations); and videos of classroom exemplars as well as scientists thinking out loud while using the Energy Tracking Lens. The project will refine the existing PD and build a system that supports online implementation by constructing a facilitator's guide so that the online community can run with one facilitator.
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TEAM MEMBERS:
Sara LacyRoger TobinNathaniel BrownStamatis VokosRachel ScherrKara GrayLane SeeleyAmy Robertson
This is the final report of the Open University’s RCUK-funded Public Engagement with Research Catalyst, ‘An open research university’, a project designed to create the conditions in which engaged research can flourish. The report describes an evidence-based strategy designed to embed engaged research within the University’s strategic planning for research and the operational practices of researchers. This programme of organisational change was informed by action research, working collaboratively with researchers at all levels across the institution to identify and implement strategies that
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TEAM MEMBERS:
Richard HollimanAnne AdamsTim BlackmanTrevor CollinsGareth DaviesSally DibbAnn GrandRichard HoltiFiona McKerlieNick MahonyNick Mahony
Through "Addressing the Science of Really Gross Things: Engaging Young Learners in Biomedical Science Through a Fulldome Planetarium Show and Supporting Curricula," Morehead Planetarium and Science Center at the University of North Carolina at Chapel Hill, in close collaboration with NIH-funded researchers at the UNC and a leading children's book author, will develop an informal science education media project and a suite of hands-on, inquiry-based curricula based on the media project for use in science centers, museums and schools. This project will build the pipeline of future researchers and create awareness of NIH-funded research by generating interest and excitement among children age 9-13 in the health sciences and related careers and building their science content knowledge. To achieve the objective, the investigators will develop a fulldome planetarium show; create correlating curricula for summer camps, afterschool programs, scout programs, science center field trips, science clubs and schools; and produce a DVD highlighting careers in the health sciences. In addition, the project will use several methods to target populations traditionally underrepresented in the biomedical fields, including featuring professionals from underrepresented populations in the multimedia and curricula products, making outreach visits to counties with large populations traditionally underrepresented in health science research careers, and producing a Spanish-language version of the products. The use of a known brand, "Grossology," is an innovative way to connect to children in the target age range and to encourage the informal science education community to embrace health-science content in their fulldome theaters. In addition, the project's hub-and-spoke approach further encourages adoption of this programming by providing informal science venues with both an engaging experience (hub) and the supporting curricula (the spokes) that is necessary to extend the show's potential for having significant educational impact. A strong project team maximizes the project's likelihood for success. The team includes fulldome producers and educators from Morehead and NIH-funded researchers with expertise in appropriate science content areas. In addition, the investigators have created a network of consultants, advisory board members and evaluators that will create feedback loops designed to ensure high-quality, scientifically-accurate, educationally-effective products. The investigators will use a combination of free and revenue-based dissemination strategies to ensure that the products of this award are broadly distributed. These strategies hold significant promise for creating broad use of this project's products in the nation's science centers, museums and classrooms.
Serial Passage: AIDS, Race, and Culture. is a 3-4 hour documentary film series and curriculum enhancement that examines the process of scientific inquiry in the development of the serial passage/contaminated needle theory of the origin of HIV/AIDS as well as the disproportionate impact of the pandemic upon Africans and African-Americans. The long term objective of the documentary film series/curriculum enhancement is to foster a heightened awareness of the need for HIV prevention among African-Americans, particularly teenagers, who are at high risk for contracting HIV, and who have often proved unresponsive to traditional HIV prevention messages. African-Americans constitute 12.1 % of the US population but account for almost 50% of the new HIV/AIDS cases. The documentary film series is being made with a small cohort of 20 inner-city African-American high school students in Pittsburgh, Pennsylvania. The students work on the documentary series as footage evaluators, apprentice filmmakers, and will ultimately be its narrative voice. They are also research subjects. An interim evaluation report showed a dramatic increase in the students' perceived knowledge of HIV/AIDS, and a substantial decrease in their reported sexual activity. A widespread and scientifically significant Phase II evaluation of this project would be conducted via pre and post anonymous surveys administered to African-American teenagers, (high school students), and matching control groups. The ABC and PBS networks have already agreed to screen the documentary series for broadcast consideration. The Phase II application proposes to 1) complete editing and postproduction of the documentary series, and 2) work with curriculum writers and an educational video distribution company on the development and dissemination of the documentary series/curriculum enhancement.
Serial Passage: AIDS, Race, and Culture is a multi-part documentary series. The Long-term goals are: 1) to produce a documentary series exploring the specific and devastating impact of H.I.V./AIDS upon Africans and African-Americans; and 2) to create a heightened understanding of the need for H.I.V. prevention among the high-risk group of young, inner-city African-Americans who've so far proved unresponsive to available public health information. Specific Aims: 1) To deconstruct the racial stigma of AIDS, and scientifically confront the conspiracy theories which are firmly linked to the disease in black America, and in Africa; and 2) to work with an inner-city high school science class, actively involving them in the making of the series. Research Design and Methods: 1) To document on film the process of scientific inquiry which led two prominent researchers to their theory on the origin of AIDS; 2) To document on film the social impact of H.I.V/AIDS upon specific African countries, including Uganda and South Africa, and upon African-American communities in the United States; 3) To periodically screen footage of the documentary for the high school class and conduct videotaped discussions between the students and the scientists throughout one academic year; and 4) To give the students a videotaped questionnaire at the beginning and end of the year designed to measure how much they learn about AIDS and its impact upon their particular community.
The New York Hall of Science, working with the Association of Science-Technology Centers Traveling Exhibition Service proposes to develop, test and nationally tour a 500 square foot hands-on exhibition and associated education materials for use by students, teachers, and families on AIDS and the human immune system. The program will be targeted at grades 6 - 12 and their families. It will be developed in year one and then toured in years two and three. One copy of the exhibition will be presented at the New York Hall of Science for the highly AIDS impacted metropolitan area. The other copy of the exhibition will tour to 10 museums nationally. Annual training for the touring sites will ensure that the exhibition and materials can be effectively utilized in conjunction with existing education and science career programs in each city. It is stated that the exhibition and education materials will improve the public understanding of contemporary science and medicine by communicating one essential component of twentieth century biology seldom presented to the public: the fundamentals of microbiology underlying the much-discussed AIDS epidemic. Learning objectives designed for age appropriateness include: (1) to understand the nature of HIV and the difference between testing positive for HIV antibodies and having AIDS; (2) to understand the operation of healthy and infected immune systems; (3) to understand what behaviors result in the spread of HIV and (4) to understand how people can prevent infection. In order to ensure effectiveness in meeting these goals, an independent evaluator will be employed in year one to evaluate each stage of the exhibition in formation and, then, in year two to produce summative evaluation for dissemination to the health and museum education fields.
MEDMYST: Dissemination Phase II A Phase I grant, The Reconstructors Investigate Medical Mysteries, from the National Center for Research Resources (R25 RR15295) funded the creation and field-test of innovative web-based materials targeted for middle school students. The product has come to be known as MEDMYST.It is an episodic adventure series with accompanying classroom activities focusing on infectious diseases and the microbes that cause them. The MEDMYST materials consist of: a) web adventures; b) classroom activities; c) MEDMYST Magazine--all designed to engage students in problem-solving activities not likely to be encountered elsewhere. Each of these components is available free of charge on the web site (http://medmyst.rice.edu) and all components are aligned with the National Science Education Content Standards. An extensive field test involving over 700 students from 9 different schools tested the efficacy of these materials. The results, accepted for publication in American Society for Microbiology's Microbiology Education journal, indicated significant learning gains with exposure to the Internet component of the materials. In this Phase II application, the goals are: 1) To create a network of MEDMYST Dissemination Partners and Lead Teachers whose expertise and training will continue beyond the SEPA funding. 2) To amplify teaching of Infectious Disease related concepts though MEDMYST in middle school classrooms by training a minimum of 1200 teachers, who will teach approximately 150,000 students over a two-year period. 3) To evaluate the impact of MEDMYST teacher training and document the adoption process in classrooms. 4) To continue to promote MEDMYST in a variety of educational settings, such as homes, after-school programs, museums, and with links from other web sites. To accomplish these goals, we have formed partnerships with the University of Washington Educational Outreach, The Minnesota Science Museum, the John P. McGovern Museum of Health ad Medical Science, and the American Society for Microbiology.
The Tech Museum of Innovation and Stanford University School of Medicine Department of Genetics have established longterm partnership to enable the public to draw connections between modern genetics research and choices they face about their health. Together we will develop, produce, evaluate, and disseminate Life's New Frontier, a dynamic exhibition which will inform the public about the goals and methods of modern genetics. Interactive permanent exhibits and guided learning centers, staffed jointly by museum educators and by working scientists (predominantly Stanford graduate students and postdoctoral fellows), will take the public into the minds and laboratories of scientists who are revolutionizing biomedical science. The exhibition and associated public and school programs will emphasize the emerging discipline of bioinformatics, which is fundamental to the Human Genome Project, gene-based diagnosis, rational drug design, and treatment of disease. Life's New Frontier will open in the summer of 2003 to reach an estimated 1.5 million diverse people annually through museum and online visitation. It will set a new standard for the treatment of cutting-edge science in exhibitions by establishing an infrastructure that permits rapid changes to exhibit content, and creating opportunities for visitors to receive personalized science and health updates after their visit. The exhibition also will serve as a platform to foster continuing personal interaction among middle and high school students, Stanford faculty and students, and the general public. The Tech/Stanford partnership will be maintained through staff liaison positions at each partner institution and will be evaluated to assess its effectiveness. We hope to extend this model to other departments at the Stanford University School of Medicine, and to disseminate it as a model for other science center/university partnerships in biomedical sciences. We anticipate significant outcomes of this partnership: the pblic will be better able to apply the ideas of modern genetics to decisions about their health; and a broad range of students from diverse backgrounds will be inspired to pursue biomedical education and research.
KY-H.E.R.O.S. (Health Education Rural Outreach Scientists) is a health science education program that partners the largest science center in Kentucky with Science Heroes-- important regional biomedical research scientists. The Science Heroes, their stories and their studies serve as inspiration to our rural audience. The project objectives are to: (1) Convey the relevance of health science research to people's daily lives and promote awareness of healthy lifestyle choices and wellness; (2) Promote understanding of the fundamental principles of the scientifc process and inspire K-12 teachers to incorporate current research into their teaching of health science; and (3) Encourage students to pursue advanced science education and increase awareness of the wide range of health science related careers. The Science Center, working with the distinguished Science Heroes, their research teams and a group of 15 knowledgeable professional advisors will develop the new KY-H.E.R.O.S. science education program. The program will include new hands-on labs and demonstrations, teacher training workshops, career exploration activities, interactive videoconferencing distance learning links, and innovative public programs. Using museum-based exhibits and a wet lab, traveling exhibit components, telelinking (distance learning), an interactive website and printed and electronic materials, we will present information about the work of the Science Heroes and its relevance to the lives of participants. The focus of the program will change every two years to feature three different scientists and their work. A total of nine scientists will be included during the 5 year period covered by the SEPA grant. As the focus changes every two years to a different three scientists, all the programs and exhibits will be changed accordingly. KY-H.E.R.O.S. will be designed to serve audiences composed of school groups on field trips; teachers in workshops; classes in remote areas of the state participatng through videoconferencing; underserved groups including economically disadvantaged, minorities and young women; and the family audience that makes up about 60% of the Science Center's annual attendance. Formative and summative evaluation will be conducted by an outside firm to ensure effectiveness.
Children's Hospital Oakland Research Institute (CHORI), in collaboration with the Hall of Health, a hands-on health museum, proposes a two year, Phase II SEPA project entitled Health and Biomedical Science for a Diverse Community. The purpose of this project is to disseminate (1) "Your Genes and Your Choices," a unique, interactive exhibit on social and genetic factors in health, and (2) a 4th and 5th grade health and biomedical science curriculum. The exhibit and curriculum were developed during Phase I. "Your Genes and Your Choices, "which has eight interactive stations and has been piloted at the Hall of Health, is designed for small science museums and health education centers. It will travel to four venues nationwide during Phase II and remain available to other venues after the grant ends. The innovative, activity based curriculum consists of eight instructional units that introduce students to scientific concepts and investigation in the context of the study of diseases and health conditions that disproportionately affect minority populations. The topics are: Fourth Grade: Unit 1: Nutrition: Balance and Imbalance (Obesity); Unit 2. Traumatic Brain Injuries; Unit 3. Infectious Diseases and Immunity; Unit 4. Environmental Toxics: Poisoning Prevention. Fifth Grade: Unit 1. Nutrition: Diabetes; Unit 2. Asthma and Lung Disease; Unit 3. Heart Disease; and Unit 4. Sickle Cell Anemia and Genetics. Each unit consists of five one hour lessons. The curriculum was piloted during Phase I, both in the classroom and in an after school science club, at two elementary schools serving predominantly minority children in Oakland, California. Now we propose to: (1) disseminate the curriculum via science clubs to ten elementary schools in Oakland and Berkeley; (2) offer a series of educator workshops to enhance the skills of teachers and after school personnel to teach scientific investigation and to incorporate the latest findings in biomedical science across the curriculum; and 3) hold family science festivals at each participating school to introduce parents to the topics of the science clubs. The festivals will include hands-on activities, talks by CHORI researchers, and focused discussions with healthcare providers on issues relating to minority health. This project involves clinical as well as basic science investigators, healthcare providers, teachers and health educators, high school and college students, and faculty from San Francisco State University and the University of California at Berkeley. The ultimate goals are to make science interesting and relevant to children who come from ethnically diverse, low income environments; to help them meet state and national objectives for learning in health, science, and scientific inquiry; to help them and their parents understand the relationship between science and health; and to foster their interest in science, so that they may consider future careers related to biomedical science. All project activities will be assessed through formative and summative evaluation. The science clubs will remain in place at the ten participating schools after Phase II funding ends, and the curriculum and evaluation tools will be posted on the internet, and thereby available to others.