FUSE is a new kind of interest-driven learning experience being developed by researchers at Northwestern University with the goal of engaging pre-teens and teens in science, technology, engineering, arts/design, and mathematics (STEAM) topics while fostering the development of important 21st century skills including adaptive problem solving, creativity, self-directed learning, persistence, and grit. FUSE is now offered in-school, after-school, and on the weekends at 23 different locations in the greater Chicago area. Through FUSE, teens can "hang out, mess around and geek out" with the FUSE set of challenges, the core activities in our Studios. Each challenge uses a leveling up model from gaming and is carefully designed to engage teens in different STEAM topics and skills sets. FUSE currently has 21 challenges in areas such as robotics, electronics, biotechnology, graphic design, Android app development, 3D printing and more. New challenges are always in development. FUSE Challenges can be tackled individually or in groups. Professional scientists, engineers, advanced undergraduates, and graduate students are available as mentors and provide a real-world connection to the concepts learned and practiced through the challenges. All challenges result in digital media artifacts that are shared online for peer review, remixing, expert judging, and collaboration. We designed the FUSE program to appeal to the interests of all young people, especially those youth who are not interested in or don't think of themselves as "good at" math and science in school. FUSE challenges provide a new way to explore science, technology, engineering, arts and design, and math in a fun and relaxed way. FUSE is based on many years of research in the learning sciences by faculty in School of Education and Social Policy at Northwestern University.
Informal science educators play a key role in promoting science literacy, safety, and health by teaching pesticide toxicology to the large, at-risk Latino farmworker population in the United States (US). To understand the experiences of informal science educators and the nature of farmworker education, we must have knowledge of farmworker educators' beliefs, yet little is known about these beliefs and how beliefs about teaching, pesticide risk, and self-efficacy might influence teaching environments and practices and potentially inform the field of informal science education. In this
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TEAM MEMBERS:
Catherine LePrevostMargaret BlanchardW. Gregory Cope
The Zooniverse projects turn everyday people into "citizen scientists" who work online with real data to assist scientists in conducting research on a variety of topics related to galaxies, exoplanets, lunar craters, and solar flares, among others. This paper describes our initial study to assess the conceptual knowledge and reasoning abilities of citizen scientists participating in two Zooniverse projects: Galaxy Zoo and Moon Zoo. In order to measure their knowledge and abilities, we developed two new assessment instruments, the Zooniverse Astronomical Concept Survey (ZACS) and the Lunar
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TEAM MEMBERS:
Edward PratherSebastien CormierColin WallaceChris LintottJordan RaddickArfon Smith
Many adolescents develop ideas about and attitudes toward engineering through their exposure to out-of-school representations of science and technology. Yet few studies have investigated the nature of these representations and found ways to use them in formal engineering learning. This article explores media representations of science and technology that today's adolescents are familiar with. It analyzes how the embedded representations compare with those found in academic engineering and examines how these representations influence students' knowledge of and dispositions toward engineering
The article discusses ways racial and ethnic minorities are excluded from science, technology, engineering and math (STEM) fields. According to the article, the lack of minority STEM professionals in industries is blamed on their less rigorous early educational experience, lack of mentors and difficult work environment. Library staff can help alleviate many of these disadvantages through teacher education and thoughtful programming for students in a professional environment.
America's adult populace has failed to keep pace with the rapid inundation of science-centric knowledge affecting nearly every facet of personal, familial, and communal life. With three out of eveiy four American adults considered scientifically illiterate, adult civic science literacy (CSL) has reached alarmingly low levels. The purpose of this research is to determine if the CSL of adults can be elevated through a renewed citizen science paradigm (RCSP)-incorporating nonformal outdoor adult education and structured experiential learning-in which volunteers conduct scientific research in an
In the article, the author discusses technological developments in the education sector in the U.S. as of October 2013. He cites the introduction of the Next Generation Science Standards (NGSS) in early 2013 that is focused on science and engineering in the K-12 curriculum. The NGSS' four disciplinary core concepts include Earth and Space Sciences, Physical Sciences, and Engineering and Technology. He presents several NGSS-friendly software like Celestia and NetLogo, as well as hardware such as the Arduino open-source programmable controller.
Since August of 2011, Project iLASER (Investigations with Light And Sustainable Energy Resources) has engaged children, youth and adults in public science education and hands-on activities across the entire length of the U.S.-Mexico border, from the Pacific Ocean to the Gulf of Mexico. The two main themes of Project iLASER activities focus on sustainable energy and materials science. More than 1,000 children have been engaged in the hands-on activities developed through Project iLASER at 20+ sites, primarily in after-school settings in Boys & Girls Clubs. Sites include Boys & Girls Clubs in California (Chula Vista, Imperial Beach, El Centro and Brawley); Arizona (Nogales); New Mexico (Las Cruces); and Texas (El Paso, Midland-Odessa, Edinburg and Corpus Christi). The project was co-funded between the NSF Division of Chemistry (CHE) and the Division of Research on Learning in Formal and Informal Settings (DRL).
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Southwestern CollegeDavid BrownDavid Hecht
This executive summary provides data tables with demographic information and follow-up responses from participants in the SciGirls program. These results demonstrate that participation in the camp had varying specific effects on students all leading to an increased interest in STEM.
As part of the National Science Foundation-funded Access Algebra project, the Oregon Museum of Science and Industry (OMSI) developed both a 6,000 square foot traveling exhibition (Design Zone) and a professional development program for host-museum facilitators who would work in the exhibition. The primary goal of the project was to engage visitors in algebraic thinking, with a special focus on reaching a target audience of 10- to 14-year-olds and their families. Facilitation in Design Zone was intended to support and extend visitors’ engagements with the exhibits and engage visitors in
Design Zone’s primary objective is to engage visitors in algebraic thinking, with a special focus on reaching a target audience of 10- to 14-year-olds and their families. The exhibition is organized into three thematic areas: art, music, and engineering. Exhibits in each area are based on real-world design challenges in which math and algebra are used. Garibay Group was contracted to conduct the summative evaluation of Design Zone. Using a mixed methods approach, data were collected at three museums hosting the Design Zone exhibition.
This study extends our understanding of the goals, beliefs, and pedagogical choices made by planetarium professionals. Interviews were conducted with planetarium professionals (N=36) to assess their goals for audiences and beliefs about the design of the learning environment. Classification of participants, according to a six-facet framework on effective learning environment design, suggests a range of perspectives on the design of the learning environment that primarily include learner-centered, motivationally-oriented, socioculturally-centered, and physically-oriented perspectives. Results