The goal of the project is to advance understanding of basic questions about learning and teaching through the development of a theory of embodied mathematical cognition that can apply to a broad range of people, settings and activities. The investigative team brings together expertise from a range of quantitative and qualitative research methodologies. A theory of embodied mathematical cognition empirically rooted in classroom learning and workplace practices will broaden the range of activities and emerging technologies that count as mathematical, and help educators to envision alternative forms of bodily engagement with mathematical problems.
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TEAM MEMBERS:
Ricardo NemirovskyRogers HallMartha AlibaliMitchell NathanKevin Leander
The Math, Engineering, Science Achievement (MESA) outreach programs are partnerships between K-12 schools and higher education in eight states that for over forty years introduce science, mathematics and engineering to K-12 students traditionally underrepresented in the discipline. This exploratory study examines the influences that those MESA activities have on students' perception of engineering and their self-efficacy and interest in engineering and their subsequent decisions to pursue careers in engineering. The MESA activities to be studied include field trips, guest lecturers, design competitions, hands-on activities and student career and academic advisement.
About 1200 students selected from 40 MESA sites in California, Maryland and Utah are surveyed with instruments that build on those used in prior studies. Focus groups with a randomly selected subset of the students provide follow-up and probe the influence of the most promising activities. In the first year of the project the instruments, based on existing instruments, are developed and piloted. Data are taken in the second year and analyzed in the third year. A separate evaluation determines that the protocols are reasonable and are being followed.
The results are applicable to a number of organizations with similar aims and provide information for increasing the number of engineers from underrepresented populations. The project also investigates the correlation between student engagement in MESA and academic performance. This project provides insights on activities used in informal settings that can be employed in the classroom practice and instructional materials to further engage students, especially student from underrepresented groups, in the study of STEM.
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TEAM MEMBERS:
Christine HaileyCameron DensonChandra Austin
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.
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
WaterBotics is the underwater robotics curriculum and program that is being disseminated to four regions through a National Science Foundation grant, in collaboration with national and state partners. Its goal is to provide hands-on experiences for middle and high school age youth to engineering design, information technology tools, and science concepts, and to increase awareness and interest in engineering and IT careers. The curriculum, which can be used either in traditional classroom settings or in after-school and summer-camp situations, is problem-based, requiring teams of students to work together to design, build, test, and redesign underwater robots, or “bots” made of LEGO® and other components. Students use the NXT and LEGO Mindstorms® software to program their robots to maneuver in the water, thereby gaining valuable experience with computer programming. Teams must complete a series of increasingly sophisticated challenges which culminates with a final challenge that integrates learning from the prior challenges.
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TEAM MEMBERS:
Stevens Institute of TechnologyMercedes McKayPatricia Holahan
The Dynamic Earth: You Have To See it To Believe It is a public exhibition and suite of programming designed to educate and excite K-8 students, teachers, and families about weather and climate science, plate tectonics, erosion, and stream formation. The Dynamic Earth program draws attention to the importance of large-scale earth processes and the human impacts on these processes, utilizing real artifacts, hands-on models, and NASA earth imagery and data. The program includes the exhibition, student workshops, family workshops, annual professional development opportunities for classroom teachers, innovative theater shows, lectures for adults by visiting scientists, and interpretive activities. The Montshire Museum of Science has partnered with Chabot Space and Science Center (CA) and the US Army Corps of Engineers Cold Regions Research and Engineering Laboratory (NH) on various components. The project has broadened our internal capacity for providing quality earth science programming by greatly expanding our program titles and allowing us to create hands-on materials for use by our educators and to loan to schools in our Partnership Initiative. Programming developed during the grant period continues to reach thousands of students and teachers each year, both on-site and as part of our rural outreach efforts.
The primary purpose of the STARS: Strengthening Teaching, Awareness and Resources in Science project from the Challenger Learning Center of the San Joaquin Valley is to build upon the CLC's resources and partnership in order to maximize the impact of informal science education in creating a STEM pipeline for the San Joaquin Valley region. The goals are to promote lifelong learning among the general public regarding STEM fields and NASA's contribution to American society through a series of high-profile community events, strengthen K-12 partnerships to ensure the long-term utilization of the CLC as a STEM education resource, and further develop the CLC's partnership with the University of California Merced to ensure continuity of the STEM pipeline from K-12 to higher education, integrating informal science education to inspire students to pursue STEM learning throughout this progression.
Laurel Clark Earth Camp was a set of interconnected programs for Middle and High School students and their teachers that help them develop new perspectives on global change. The project was a partnership of the Arizona-Sonora Desert Museum, Arizona Project WET at the University of Arizona, and the Planetary Science Institute in Tucson, Arizona. Project goals were to: I. Engage students in lifelong learning in STEM disciplines to inform their Earth stewardship practices, career decisions and capacity for innovation; II. Provide teachers with tools and experiences to inspire students to discover the real-world relevancy of STEM disciplines and apply this learning to the pursuit of STEM careers and technological innovation; III. Enhance public awareness of environmental change in the southwestern US and the importance of NASA satellites for recording, understanding and predicting these changes. Over four years, Earth Camp served 132 students and 42 teachers. Program participants understand more about Earth System connectivity and are more aware of their impacts on the environment and how to quantify and reduce these impacts. A post-camp online survey of alumni from previous years indicated that 75% of participants were felt that the camp influenced them to be more interested in STEM careers and 80% were more motivated to do well in their science classes. Teachers in the program were able to implement many of the project activities in their classrooms and most of them were exposed to satellite data for the first time; The project also created a public exhibit “Earth Change from Space” at the Arizona-Sonora Desert Museum, and an online tool that allowed students to explore, research and report on global change issues using Google Earth historical imagery.
Journey into Space (JIS) is designed to improve student, educator, and general public understanding of earth/space science and its relationship to NASA goals and objectives through the use of a traveling GeoDome (inflatable planetarium) and engaging supporting programming at The Journey Museum. The Museum collaborates with area colleges, school districts, K-12 educators, youth serving organizations, astronomical affiliations, and others. The overall goal of JIS is to improve student, educator, and general public understanding of STEM and its relationship to NASA goals and objectives. JIS objectives are: 1) To increase student and public interest and awareness in STEM areas; 2) To increase student interest in pursuing STEM careers; 3) To improve teacher knowledge of NASA related science; 4) To increase teacher comfort level and confidence in teaching NASA related science in their classrooms; 5) To increase collaboration between informal and formal science educators; 6) To increase student and public understanding of Plains Indians ethno astronomy; and 7) To increase museum visitors’ interest and understanding of NASA related science. The Museum produced 2 films (“Cradle of Life”, “Looney Moons”) that are offered daily, 4 recurring monthly programs (Final Frontier Friday, Amazing Science, SciGirls that became Science Explorer’s Club, and Black Hills Astronomical Society meetings), summer robotics classes and teachers’ workshops, annual Earth Science Day, in addition to the GeoDome programming that has toured the region including presentations in the three poorest counties in the United States. The ethno-astronomy is underway in partnership with Oglala Lakota College and South Dakota Space Grant Consortium.
The Children’s Museum developed From the Blue Planet to the Red Planet: Exploring Planetary Science to provide opportunities for students in grades 4 through 8, teachers, and families to learn about Mars exploration. The Museum partnered with the Connecticut Center for Advanced Technology (CCAT) on four teacher professional development modules related to aspects of planetary science: soil and plant study, air pressure, robotic exploration, and the comparison of Mars and Earth. Teachers who attended free workshops could bring students to the Museum for classroom and planetarium experiences. The Museum received support from Central Connecticut State University and technical advice from Phoenix Project scientists at JPL. The Museum created a timeline of Mars exploration history with video clips of milestones and an accompanying quiz kiosk. CCAT created virtual Mars drive-through experiences with which visitors could explore the planet. The Travelers ScienceDome Planetarium staff wrote, directed, and animated a full-dome planetarium program about the future study of Mars that was finished in December 2012. For over two years the Museum has sponsored free, monthly Mars Madness programs during which the general public can visit the exhibit, see a Mars-related planetarium program, and test out some of the hands-on activities developed for the school groups. The Museum hoped to reach a diverse audience, especially, those people who might otherwise not afford admission. We have produced four teacher professional development guides with hands-on activities, an exhibit for our facility, a dedicated website, and a planetarium program.
Science Club is an after school program created in partnership between Northwestern University and the Boys & Girls Clubs of Chicago. Every week throughout the academic year, middle school youth (grades 5-8) work in small groups with their graduate student mentors on challenging, hands-on experiments. The six Science Club curricular modules cover topics ranging from biomedical engineering to food science, all with the goals of helping youth to 1) improve their understanding of the scientific method, 2) develop scientific habits of mind, and 3) increase their interest in STEM fields, particularly health-related careers. Science Club serves 60 youth every quarter with the help of 30 trained scientist mentors. Science Club meets three days a week at the Pedersen-McCormick Boys & Girls Club in Chicago, IL.
Climate Change: NASA’s Eyes on the Arctic is a multi-disciplinary outreach program built around a partnership targeted at k-12 students, teachers and communities. Utilizing the strengths of three main educational outreach institutions in Alaska, the Challenger Learning Center of Alaska partnered with the University of Alaska Museum of the North, the Anchorage Museum and UAF researchers to build a strategic and long lasting partnership between STEM formal and informal education providers to promote STEM literacy and awareness of NASA’s mission. Specific Goals of the project include: 1) Engaging and inspiring the public through presentation of relevant, compelling stories of research and adventure in the Arctic; 2) strengthening the pipeline of k-12 students into STEM careers, particularly those from underserved groups; 3) increasing interest in science among children and their parents; 4) increasing awareness of NASA’s role in climate change research; and 5) strengthening connections between UAF researchers, rural Alaska, and Alaska’s informal science education institutions. Each institution chose communities with whom they had prior relationships and/or made logistical sense. Through discussions analyzing partner strengths, tasks were divided; the Challenger Center taking on the role of k-12 curriculum development, the Museum of the North creating animations with data pulled from UAF research, to be shown on both in-house and traveling spherical display systems and the Anchorage Museum creating table top displays for use in community science nights. Each developed element was used while visiting the identified communities both in the classroom environment and during the community science nights.