A survey was conducted during the University of Manchester’s 2014 ‘Science Extravaganza’, which saw the participation of over 900 Key Stage 3 (ages 11–14) students in a range of interactive demonstrations, all run by active University researchers. The findings of this study suggest that a new approach is necessary in order to use these large science events to actively engage with school students about the career opportunities afforded by science subjects. Recommendations for such an approach are suggested, including the better briefing of researchers, and the invitation of scientists from
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TEAM MEMBERS:
Sam IllingworthEmma LewisCarl Percival
Public images of scientific researchers –as reflected in the popular visual culture as well as in the conceptions of the public- combine traditional stereotypic characteristics and ambivalent attitudes towards science and its people. This paper explores central aspects of the public image of the researcher in Greek students’ drawings. The students participated in a drawing competition held in the context of the ‘Researcher’s Night 2007’ realized by three research institutions at different regions of Greece. The students’ drawings reveal that young people hold stereotypic and fairly traditional
This is an efficacy study through which the Denver Museum of Nature and Science, the Denver Zoo, the Denver Botanic Gardens, and three of Denver's urban school districts join efforts to determine if partnerships among formal and informal organizations demonstrate an appropriate infrastructure for improving science literacy among urban middle school science students. The Metropolitan Denver Urban Advantage (UA Denver) program is used for this purpose. This program consists of three design elements: (a) student-driven investigations, (b) STEM-related content, and (c) alignment of schools and informal science education institutions; and six major components: (a) professional development for teachers, (b) classroom materials and resources, (c) access to science-rich organizations, (d) outreach to families, (e) capacity building and sustainability, and (e) program assessment and student learning. Three research questions guide the study: (1) How does the participation in the program affect students' science knowledge, skills, and attitudes toward science relative to comparison groups of students? (2) How does the participation in the program affect teachers' science knowledge, skills, and abilities relative to comparison groups of teachers? and (3) How do families' participation in the program affect their engagement in and support for their children's science learning and aspirations relative to comparison families?
The study's guiding hypothesis is that the UA Denver program should improve science literacy in urban middle school students measured by (a) students' increased understanding of science, as reflected in their science investigations or "exit projects"; (b) teachers' increased understanding of science and their ability to support students in their exit projects, as documented by classroom observations, observations of professional development activities, and surveys; and (c) school groups' and families' increased visits to participating science-based institutions, through surveys. The study employs an experimental research design. Schools are randomly assigned to either intervention or comparison groups and classrooms will be the units of analysis. Power analysis recommended a sample of 18 intervention and 18 comparison middle schools, with approximately 72 seventh grade science teachers, over 5,000 students, and 12,000 individual parents in order to detect differences among intervention and comparison groups. To answer the three research questions, data gathering strategies include: (a) students' standardized test scores from the Colorado Student Assessment Program, (b) students' pre-post science learning assessment using the Northwest Evaluation Association's Measures for Academic Progress (science), (c) students' pre-post science aspirations and goals using the Modified Attitude Toward Science Inventory, (d) teachers' fidelity of implementation using the Teaching Science as Inquiry instrument, and (e) classroom interactions using the Science Teacher Inquiry Rubric, and the Reformed Teaching Observation protocol. To interpret the main three levels of data (students, nested in teachers, nested within schools), hierarchical linear modeling (HLM), including HLM6 application, are utilized. An advisory board, including experts in research methodologies, science, informal science education, assessment, and measurement oversees the progress of the study and provides guidance to the research team. An external evaluator assesses both formative and summative aspects of the evaluation component of the scope of work.
The key outcome of the study is a research-informed and field-tested intervention implemented under specific conditions for enhancing middle school science learning and teaching, and supported by partnerships between formal and informal organizations.
Imagine two seventh-grade students from communities of color and low socioeconomic backgrounds, of whom at least one is an English-language learner1 (ELL). Both are likely disenfranchised from avenues to success and the ability to see themselves as capable of great things. These students attend school in the largest school districts in Colorado. As part of their seventh-grade science class, they participate in a program called Urban Advantage Metro Denver (UA Denver), which provides them the opportunity to work on a self-selected science project. Their projects are inspired by field trips to
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. Science fairs have been taking place for more than 60 years. Yet in spite of their wide implementation and long history, there are few empirical studies that have examined the relationship between student participation in these fairs and their learning and interest in science. Additionally, there have been no studies to understand the real cost of these programs relative to the student benefits. Our 4-year study will be the first step to understanding the
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TEAM MEMBERS:
Abigail LevyJacqueline DeLisiMarian Pasquale
The Magnet Lab has a strong commitment to education. Through the Center for Integrating Research & Learning, the lab supports educational programming at all academic levels: K-12, technical, undergraduate, graduate and postdoctoral. Please explore the links listed to the left to find out more about the depth of our educational resources for the community, for teachers and for students as well as our unique research offerings. Our programs are designed to excite and educate students, teachers and the general public about science, technology and the world around them. All of our programs are developed in close collaboration with research scientists and educators. Housed at and partly funded by the MagLab, the Center is uniquely positioned to take advantage of the excellent resources, connections, world-class facilities and cutting-edge science the lab has to offer. We also receive generous support from the National Science Foundation and the State of Florida. The Center maintains a rigorous research agenda designed to investigate how Center programs and materials affect teachers and students. Our Mission Statement is to expand scientific literacy and to encourage interest in and the pursuit of scientific studies among educators and students of all ages through connections between the National High Magnetic Field Laboratory and the National Science Foundation, the community of Tallahassee, the State of Florida and the nation.
WGBH is producing Seasons II and III of ZOOM, a television series featuring kids that gives viewers in the 8- to 11-year-old range a chance to explore, experiment, and share their creativity with the world. Each season would consist of 40, daily, half-hour shows -- each including a number of science and/or mathematics segments. A unique aspect of ZOOM is that every idea and activity on the show comes from a child who writes or e-mails the show and who is credited on-air for his or her contribution. Production staff and a working group of advisors with expertise in science and math education take these raw ideas and develop them into program segments and outreach projects designed to encourage "habits of mind" -- a set of problem-solving skills and dispositions toward science and math that has been developed in concert with the advisors. Three over-arching science and math-based themes also guide the way science and math are presented over the course of a season. Outreach for Seasons II and III will build on the solid base of outreach developed for Season I, and will consist of: ZOOMerang: Every child who communicates with ZOOM will get something back such as a compilation of science and math activities, jokes, poems, recipes and a series update. ClubZOOM: A set of standards-based science and math activities will be developed along with guidance for how to create after-school clubs. This effort will be pilot tested at 20 sites. ZOOMzones: These are areas in science-technology centers and museums that are devoted to ZOOM and include opportunities for youth and families to interact with science and math content featured on ZOOM. Ten pilot ZOOMzone sites were developed for Season I (from 80 applications). The number of ZOOMzones will be increased and continuing support will be offered to existing sites during Seasons II and III. ZOOMdays: During Season III, WGBH will develop ZOOMdays at shopping malls to reach youth who may not have access to ZOOMzones or ClubZOOM. ZOOMweb site: This web site provides an outreach extension to the TV series by collecting and sharing submissions; illustrating and producing science and math activities; creating a ZOOM community; providing research links to other sites; and aiding adults who are interested in furthering ZOOM's science and math activities in their homes, classrooms, museums and after-school programs.
The World Media Foundation is producing and distributing "Emerging Science of Environmental Change." This radio-based project presents new and cutting edge research to the public through National Public Radio broadcasts, Internet radio broadcasts, multi-media web presentations, Internet-based discussion, formal school curricula and public lectures. The goal of the project is to provide the public with a longitudinal view of how those engaged in cutting-edge science formulate theories, structure their inquiries and monitor the ongoing processes, pitfalls, unexpected results and successes of their research. The production team will closely follow the work and processes of one or more research teams over major portions of the 36-month project in order to provide an in-depth understanding of the research process. The project will deliver nine one-hour radio specials and nine additional hours of shorter program segments that will be included in the NPR "Living on Earth" series. The online component of the project will present expanded versions of the audio through its daily web radio service, as well as multi-media web pages with references and discussions linked to the core subjects of the specials. School outreach will be directed primarily at largely urban, under-served middle and high schools. It will use the audio and multi-media web presentations of current research as frames of reference for student instruction in environmental science.