The following QuarkNet evaluation data were collected between September 2011 and September 2012. Questions from an Evaluation Matrix developed by QuarkNet program director and NSF program director are addressed, preceded by a summary of data collection and analysis. This is the fourth year using the Matrix. Collection strategies were updated based on findings from last year and included in this year’s evaluation
section. This is the last annual report under the 2008-2012 grant from The National Science Foundation (NSF) and the Department of Energy (DOE).
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TEAM MEMBERS:
Mitchell Wayne
resourceprojectProfessional Development, Conferences, and Networks
QuarkNet is a national program that partners high school science teachers and students with particle physicists working in experiments at the scientific frontier. These experiments are searching for answers to fundamental questions about the origin of mass, the dimensionality of spacetime and the nature of symmetries that govern physical processes. Among the experimental projects at the energy frontier with which QuarkNet is affiliated is the Large Hadron Collider, which is poised at the horizon of discovery. The LHC will come on line during the 5-years of this program. QuarkNet is led by a group of teachers, educators and physicists with many years of experience in professional development workshops and institutes, materials development and teacher research programs. The project consists of 52 centers at universities and research labs in 25 states and Puerto Rico. It is proposed that Quarknet be funded as a partnership among the ESIE program of EHR; the Office of Multidisciplinary Activities and the Elementary Particle Physics Program (Division of Physics), both within MPS; as well as the Division of High Energy Physics at DOE.
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TEAM MEMBERS:
Mitchell WayneRandal RuchtiDaniel Karmgard
The aim of this project is to communicate the basic laws of particle physics with Feynman diagrams - visual tools which represent elementary particle processes. They were originally developed as a code to be used by physicists and are still used today for calculations and elaborations of theoretical nature. The technical and mathematical rules of Feynman diagrams are obviously the exclusive concern of physicists, but on a pictorial level they can help to popularize many concepts, ranging from matter and the antimatter; the creation, destruction and transformation of particles; the role of
The impact of four half-hour science programs aired on commercial children's radio was assessed by Dr. Barbara Flagg of Multimedia Research in a causal-comparative between-groups study with prebroadcast and postbroadcast questionnaires. Of 253 fourth graders, 34% listened to one or more shows of the Kinetic City Super Crew series. Significantly more girls listened than boys. Listeners and Non-listeners did not differ on background variables of ethnic status, science attitudes, science reading and television viewing, and participation in seven of eight common at-home science activities
This paper investigates the impact of stereotype threat on young women’s academic achievement in high school physics classes. Stereotype threat is the reinforcement of a negative stereotype. Results show that, although females underperformed when exposed to explicit and implicit stereotype threat conditions, their performance was identical to that of males when stereotypes were nullified.
Bathgate, Schunn, and Correnti investigate students’ motivation toward science across three dimensions: the context or setting, the way in which students interact with science materials or ideas, and the activity topic. Findings point to the importance of understanding children’s perceptions of specific science topics, not just science in general.
Engineering Enabling Science - A NASA GSFC Informal Education Environment Collaborative is a collaborative relationship between and among NASA Goddard Education Office, Greenbelt and Wallops Visitor Centers, Port Discovery Children’s Museum of Baltimore, The Maryland Science Center, and Prince George’s County Public Schools Owens Science Center to leverage current and past NASA Goddard Office of Education and Science Mission Directorate and Engineering investments in Earth Sciences, Astrophysics, Heliophysics, and Planetary Science and NASA Missions. The goal of GSFC’s collaborative is to interface with a number of organizations to provide leveraging, expand their activities and to utilize NASA-related activities in a broader context than that of the individual organization thereby reducing redundancy of effort and services. Specifically, the Office of Education-GSFC Visitor Centers (Greenbelt and Wallops) will develop an integrated model for sharing and delivering high quality education services and activities based on NASA unique capabilities within a network of organizations and institutions serving the general public. The common thread across all proposed activities will be NASA-unique content that flows from the science and technology work of NASA’s Mission Directorates and its Engineering directorate, thereby demonstrating that engineering truly enables science by applying the engineering cycle to the four science themes of Earth Science, Astrophysics, Planetary Science, and Heliophysics. The products of these activities will directly relate to the Educator Professional Development (EPD) and STEM Engagement (SE) lines of business established by NASA educators, as well as showing the interactions and shared STEM learning opportunities between informal and formal education communities rather than viewing informal and formal education as stovepipes.
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.
A partnership between Carthage College and the Appalachian Mountain Club has delivered a successful public education and outreach program that merges natural environment topics and astronomy. Over the four years of activity, over 25,000 people have received programming. The effort has trained nature educators, permanent and seasonal AMC staff, and undergraduate physics and astronomy students to integrate diverse topical material and deliver high quality programming to the lay public. Unique to the program is the holistic nature of the material delivered - an 'atypical' astronomy program. Linking observable characteristics of the natural world with astronomical history and phenomena, and emphasizing the unique sequence of events that have led to human life on Earth, the program has changed attitudes and behaviors among the public participants. Successful interventions have included hands-on observing programs (day and night) that link nature content to the observed objects; table-talk presentations on nature/astronomy topics; dark skies preservation workshops; and hands-on activities developed for younger audiences, including schools, camps, and family groups. An extensive evaluation and assessment effort managed by a leading sociologist has demonstrated the effectiveness of the approach, and contributed to continuous improvement in the program content and methods.
The Ross Sea Project was a Broader Impact projects for an NSF sponsored research mission to the Ross Sea in Antarctica. The project, which began in the summer of 2010 and ended in May 2011, consisted of several components: (1) A multidisciplinary teacher-education team that included educators, scientists, Web 2.0 technology experts and storytellers, and a photographer/writer blogging team; (2) Twenty-five middle-school and high-school earth science teachers, mostly from New Jersey but also New York and California; (3) Weeklong summer teacher institute at Liberty Science Center (LSC) where teachers and scientists met, and teachers learned about questions to be investigated and technologies to be used during the mission, and how to do the science to be conducted in Antarctica; (4) COSEE NOW interactive community website where teachers, LSC staff and other COSEE NOW members shared lesson plans or activities and discussed issues related to implementing the mission-based science in their classrooms; (5) Technological support and consultations for teachers, plus online practice sessions on the use of Web 2.0 technologies (webinars, blogs, digital storytelling, etc.); (6)Daily shipboard blog from the Ross Sea created by Chris Linder and Hugh Powell (a professional photographer/writer team) and posted on the COSEE NOW website to keep teachers and students up-to-date in real-time on science experiments, discoveries and frustrations, as well as shipboard life; (7) Live webinar calls from the Ross Sea, facilitated by Rutgers and LSC staff, where students posed questions and interacted directly with shipboard researchers and staff; and (8) A follow-up gathering of teachers and scientists near the end of the school year to debrief on the mission and preliminary findings. What resulted from this project was not only the professional development of teachers, which extended into the classroom and to students, but also the development of a relationship that teachers and students felt they had with the scientists and the science. Via personal and virtual interactions, teachers and students connected to scientists personally, while engaged in the science process in the classroom and in the field.
This study sought to understand what motivates students at the high school and early college level to choose physics. It explored students’ expectations of their study of physics and their priorities for future careers. The researchers intended to contribute strategies to increase the number of females who complete university physics degrees. They also hoped to show that a wider range of perspectives needs to be represented among physics practitioners.
This paper by Mujtaba and Reiss explores tendencies in girls’ and boys’ motivations, attitudes, and perceptions toward studying physics after age 16. Findings suggest that girls who want to continue studying physics understand the material and social benefits it affords. They are also more competitive than other students. However, in general, they have less confidence in their abilities than boys.