The American Museum of Natural History (AMNH), in collaboration with New York University's Institute for Education and Social Policy and the University of Southern Maine Center for Evaluation and Policy, will develop and evaluate a new teacher education program model to prepare science teachers through a partnership between a world class science museum and high need schools in metropolitan New York City (NYC). This innovative pilot residency model was approved by the New York State (NYS) Board of Regents as part of the state’s Race To The Top award. The program will prepare a total of 50 candidates in two cohorts (2012 and 2013) to earn a Board of Regents-awarded Masters of Arts in Teaching (MAT) degree with a specialization in Earth Science for grades 7-12. The program focuses on Earth Science both because it is one of the greatest areas of science teacher shortages in urban areas and because AMNH has the ability to leverage the required scientific and educational resources in Earth Science and allied disciplines, including paleontology and astrophysics.
The proposed 15-month, 36-credit residency program is followed by two additional years of mentoring for new teachers. In addition to a full academic year of residency in high-needs public schools, teacher candidates will undertake two AMNH-based clinical summer residencies; a Museum Teaching Residency prior to entering their host schools, and a Museum Science Residency prior to entering the teaching profession. All courses will be taught by teams of doctoral-level educators and scientists.
The project’s research and evaluation components will examine the factors and outcomes of a program offered through a science museum working with the formal teacher preparation system in high need schools. Formative and summative evaluations will document all aspects of the program. In light of the NYS requirement that the pilot program be implemented in high-need, low-performing schools, this project has the potential to engage, motivate and improve the Earth Science achievement and interest in STEM careers of thousands of students from traditionally underrepresented populations including English language learners, special education students, and racial minority groups. In addition, this project will gather meaningful data on the role science museums can play in preparing well-qualified Earth Science teachers. The research component will examine the impact of this new teacher preparation model on student achievement in metropolitan NYC schools. More specifically, this project asks, "How do Earth Science students taught by first year AMNH MAT Earth Science teachers perform academically in comparison with students taught by first year Earth Science teachers not prepared in the AMNH program?.”
DATE:
-
TEAM MEMBERS:
Maritza MacdonaldMeryle WeinsteinRosamond KinzlerMordecai-Mark Mac LowEdmond MathezDavid Silvernail
resourceevaluationProfessional Development, Conferences, and Networks
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).
DATE:
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.
DATE:
-
TEAM MEMBERS:
Mitchell WayneRandal RuchtiDaniel Karmgard
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 University of Alaska Fairbanks will partner with the National Optical and Astronomy Observatory, the University of Alaska Museum of the North, and the University of Washington-Bothell to bring biomaterials, optics, photonics, and nanotechnology content, art infused experiences, and career awareness to art-interested girls. This full scale development project, Project STEAM, will explore the intersections between biology, physics, and art using advanced technologies at the nano to macro scale levels. Middle school girls from predominately underrepresented Alaskan Native, Native American (Tohono O'odham, Pascula Yaqui) and Hispanic groups, their families, teachers, and Girl Scout Troop Leaders in two site locations- Anchorage, Alaska and Tucson, Arizona will participate in the project. Centered on the theme "Colors of Nature," Project STEAM will engage girls in science activities designed to enhance STEM learning and visual-spatial skills. Using advanced technologies, approximately 240 girls enrolled in the Summer Academy over the project duration will work with women scientist mentors, teachers, and Girl Scout Troop Leaders to create artistic representations of natural objects observed at the nano and macro scale levels. Forty girls will participate in the Summer Academy in year one (20 girls per site- Alaska and Arizona). In consequent years, approximately180 girls will participate in the Academy (30 girls per site). Another 1,500 girls are expected to be reached through their Girl Scout Troop Leaders (n=15) who will be trained to deliver a modified version of the program using specialized curriculum kits. In addition, over 6,000 girls and their families are expected to attend Project STEAM Science Cafe events held at local informal science education institutions at each site during the academic year. In conjunction with the programmatic activities, a research investigation will be conducted to study the impact of the program on girls' science identity. Participant discourse, pre and post assessments, and observed engagement with the scientific and artistic ideas and tools presented will be examined and analyzed. A mixed methods approach will also be employed for the formative and summative evaluations, which will be conducted by The Goldstream Group. Ultimately, the project endeavors to increase STEM learning and interest through art, build capacity through professional development, advance the research base on girls' science identity and inspire and interest girls in STEM careers.
Through the Scientists for Tomorrow pathways project, The Science Institute at Columbia College in Chicago will test a model for preparing non-science major, pre-service elementary school teachers to deliver three ten-week informal science education modules to youth in after school programs. The initiative will bring engineering concepts, environmental science, and technology to approximately 240 urban Chicago youth (ages 10-14 years old) and their families. The Science Institute will partner with eight minority serving community based organizations and the Museum of Science and Industry, the Field Museum, and the Garfield Park Conservatory Alliance to develop and implement all aspects of the program. The goals of the program are two-fold. First, the project will develop and implement a high-quality STEM based afterschool program for under-represented youth in STEM. Second, the professional development and experience implementing the curriculum with youth in the local communities and within informal science education (ISE) institutions will extend and enrich the pre-service teachers\' STEM content and pedagogical knowledge base and better prepare them to teach science in formal and informal settings. Thirty teachers will receive specialized professional development through a seminar, course, and other support mechanisms in order to best support the implementation of the modules, while building their STEM content expertise, confidence, and pedagogical knowledge. Each module has a different STEM content focus: alternative energy (fall), the physics and mathematics of sound and music (winter), and environmental science (spring). At the end of each module, a culminating youth-led presentation will be held at one of the partnering Chicago museums. Youth will be encouraged to participate in all three modules. The formative evaluation will be conducted by the Co-Principal Investigators. Pre and post assessments, artifact reviews, and interviews will be used for the summative evaluation, which will be conducted by an external evaluator at the Illinois Institute of Technology. The project deliverables include: (a) a teacher training program, (b) an after school curriculum, and (c) media tools - DVDs, website. Over the grant period, the project intends to reach 120 youth each year, over 100 family and community members, and 30 teachers. The larger impact of this project will be the development of a scalable model for bringing relevant STEM content and experiences to youth, their families, and non-science major pre-service teachers. As a result of this project, a cadre of pre-service teachers will have: (a) increased their STEM content knowledge, (b) gained experience presenting STEM content in informal settings, (c) learned effective approaches to deliver hands-on STEM content, and (d) learned to use museum and other ISE resources in their teaching. In fact, after the grant period nearly half of the teachers will continue to work at the centers as part-time instructors, fully supported by the partnering community centers.
The National Science Festival Network project, also operating as the Science Festival Alliance, is designed to create a sustainable national network of science festivals that engages all facets of the general public in science learning. Science Festivals, clearly distinct from "science fairs", are community-wide activities engaging professional scientists and informal and K-12 educators targeting underrepresented segments of local communities historically underserved by formal or informal STEM educational activities. The initiative builds on previous work in other parts of the world (e.g. Europe, Australasia) and on recent efforts in the U.S. to create science festivals. The target audiences are families, children and youth ages 5-18, adults, professional scientists and educators in K-12 and informal science institutions, and underserved and underrepresented communities. Project partners include the MIT Museum in Cambridge, UC San Diego, UC San Francisco, and the Franklin Institute in Philadelphia. The deliverables include annual science festivals in these four cities supported by year-round related activities for K-12 and informal audiences, a partnership network, a web portal, and two national conferences. Ten science festivals will be convened in total over the 3 years of the project, each reaching 15,000 to 60,000 participants per year. STEM content includes earth and space science, oceanography, biological/biomedical science, bioinformatics, and computer, behavioral, aeronautical, nanotechnology, environmental, and nuclear science. An independent evaluator will systematically assess audience participation and perceptions, level/types of science interest stimulated in target groups, growth of partnering support at individual sites, and increasing interactions between ISE and formal K-12 education. A variety of qualitative and quantitative assessments will be designed and utilized. The project has the potential to transform public communication and understanding of science and increase the numbers of youth interested in pursuing science.
DATE:
-
TEAM MEMBERS:
Loren ThompsonJeremy BabendureBen Wiehe
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.
Making Stuff Season Two is designed to build on the success of the first season of Making Stuff by expanding the series content to include a broader range of STEM topics, creating a larger outreach coalition model and a “community of practice,” and developing new outreach activities and digital resources. Specifically, this project created a national television 4-part miniseries, an educational outreach campaign, expanded digital content, promotion activities, station relations, and project evaluation. These project components help to achieve the following goals: 1. To increase public understanding that basic research leads to technological innovation; 2. To increase and sustain public awareness and excitement about innovation and its impact on society; and 3. To establish a community of practice that enhances the frequency and quality of collaboration among STEM researchers and informal educators. These goals were selected in order to address a wider societal issue, and an important element of the overall mission of NOVA: to inspire new generations of scientists, learners, and innovators. By creating novel and engaging STEM content, reaching out to new partners, and developing new outreach tools, the second season of Making Stuff is designed to reach new target audiences including underserved teens and college students crucial to building a more robust and diversified STEM workforce pipeline. Series Description: In this four-part special, technology columnist and best-selling author David Pogue takes a wild ride through the cutting-edge science that is powering a next wave of technological innovation. Pogue meets the scientists and engineers who are plunging to the bottom of the temperature scale, finding design inspiration in nature, and breaking every speed limit to make tomorrow's "stuff" "Colder," "Faster," "Safer," and "Wilder." Making Stuff Faster Ever since humans stood on two feet we have had the basic urge to go faster. But are there physical limits to how fast we can go? David Pogue wants to find out, and in "Making Stuff Faster," he’ll investigate everything from electric muscle cars and the America’s cup sailboat to bicycles that smash speed records. Along the way, he finds that speed is more than just getting us from point A to B, it's also about getting things done in less time. From boarding a 737 to pushing the speed light travels, Pogue's quest for ultimate speed limits takes him to unexpected places where he’ll come face-to-face with the final frontiers of speed. Making Stuff Wilder What happens when scientists open up nature's toolbox? In "Making Stuff Wilder," David Pogue explores bold new innovations inspired by the Earth's greatest inventor, life itself. From robotic "mules" and "cheetahs" for the military, to fabrics born out of fish slime, host David Pogue travels the globe to find the world’s wildest new inventions and technologies. It is a journey that sees today's microbes turned into tomorrow’s metallurgists, viruses building batteries, and ideas that change not just the stuff we make, but the way we make our stuff. As we develop our own new technologies, what can we learn from billions of years of nature’s research? Making Stuff Colder Cold is the new hot in this brave new world. For centuries we've fought it, shunned it, and huddled against it. Cold has always been the enemy of life, but now it may hold the key to a new generation of science and technology that will improve our lives. In "Making Stuff Colder," David Pogue explores the frontiers of cold science from saving the lives of severe trauma patients to ultracold physics, where bizarre new properties of matter are the norm and the basis of new technologies like levitating trains and quantum computers. Making Stuff Safer The world has always been a dangerous place, so how do we increase our odds of survival? In "Making Stuff Safer," David Pogue explores the cutting-edge research of scientists and engineers who want to keep us out of harm’s way. Some are countering the threat of natural disasters with new firefighting materials and safer buildings. Others are at work on technologies to thwart terrorist attacks. A next-generation vaccine will save millions from deadly disease. And innovations like smarter cars and better sports gear will reduce the risk of everyday activities. We’ll never eliminate danger—but science and technology are making stuff safer.
DATE:
-
TEAM MEMBERS:
WGBH Educational FoundationPaula Apsell
Morehead Planetarium and Science Center has just started working on WILD BLUE: Using Fulldome Technology to Illustrate Aeronautics Principles, targeting school audiences from grades 3-8 as part NASA's CP4SMP+ program. Morehead will partner with NASA Langley Research Center as content advisors and Sky-Skan, Inc as content distributors. WILD BLUE's primary goal is to strengthen STEM education in the United States. WILD BLUE plans national distribution of a NASA-inspired media portfolio that supports formal and informal STEM education. The media portfolio targets grades 3-8, addresses National Science Education Standards, and includes two key deliverables: (1) a fulldome planetarium show that showcases aeronautics history and concepts, NASA's role in aeronautics research and related STEM careers (2) web-based curriculum materials that integrate current NASA curriculum materials, including Museum in a Box and Summer of Innovation activities. All WILD BLUE deliverables include NASA content -- the history, primary research and future plans of NASA's Aeronautics Research Mission Directorate (ARMD); imagery illustrating aeronautics concepts; information about STEM careers with NASA; and commentary from ARMD personnel. This four-year project ensures scientific accuracy, educational value and engaging presentation through an advisory board and an external evaluation process. WILD BLUE expects outcomes that include advancing NASA Strategic Goal 6 (participation, innovation, contribution) and NASA Education Goals, facilitating knowledge of NASA's role in aeronautics research, and expanding participation by underserved students in formal and informal science education.
The Virginia Air & Space Center (VASC): Creating an Exciting NASA Inspired Education Program was a two-year project to develop and deliver teacher workshops, classroom outreach visits to students of those teachers, and on-site educational experiences for those students, which introduce and reinforce NASA STEM resources. These are followed up by surveys from the teachers and students for evaluation purposes. The VASC partnered with the National Institute of Aerospace (NIA) and NASA Langley Research Center to develop and deliver 15 professional development workshops to a total of 185 formal and informal educators. NASA materials were aligned to the Virginia Standards of Learning guidelines (SOLs) for ease of integration into the teachers’ curricula. The goal was to provide six professional development workshops, but we delivered 15 workshops, 250% of our goal. Of the 185 educators who attended the workshops, 155 were formal classroom teachers, and 30 were informal educators. NASA STEM outreach programs were delivered to 8,437 students ranging from grades K-12. On-site NASA STEM programs were presented to 2,507 students at VASC. Pre-and post-program surveys were collected and evaluated from both outreaches and on-site programming. This informal education program helped to increase awareness of NASA's contributions to scientific knowledge and fulfill NASA's three major Education goals, namely: (1) strengthen NASA and the nation's workforce; (2) attract and retain students in STEM disciplines, and (3) engage Americans in NASA's mission, and VASC staff was able to build exciting new partnerships and programs with the different school systems in the Hampton Roads area.
The Museum of Aviation: STEM-ulating Georgia's Future Workforce Through Outreach project will build partnerships between the Museum of Aviation, STARBASE, six Georgia school districts, NASA, and volunteer mentors that promote STEM literacy, awareness of NASA's mission, and encourage the pursuit of STEM careers. This goal will be achieved through meeting the following objectives: -Promote lifelong learning by students, educators, and families, using NASA-themed STEM and missions via six outreach programs serving 10,750 participants (including 9,000 students, 1,600 parents, and 150 teachers). -Improve the understanding of NASA's missions, contributions to STEM disciplines and careers by students and faculty in grades pre K-8 by at least 35%. To accomplish the objectives, 6 STEM-based outreach programs will be provided to 12 school districts and will serve students, parents, and teachers. -ACE on the Go - STEM Modules use hands-on interactive activities for 2nd-5th graders -Family STEM Night - provides 2nd-5th graders and their families an opportunity to partake in 15 or more hands-on, interactive experiments that demonstrate STEM principles. -Aviation Outreach - introduces 6th-8th graders to aviation, and to STEM related careers. -STEM Afterschool - 6th-8th graders will learn about forces and motion and how forces make flight possible. -STARBASE 2.0 Afterschool STEM Mentoring Club consists of two components - a STEM Academy and a STEM Mentoring Afterschool Program both for underserved and at-risk youth in grades 6-8. -Teacher Training – STEM Workshops for teachers through the Georgia NASA RERC. This project will help to strengthen Georgia's future workforce by targeting students traditionally underserved and underrepresented in communities and in STEM fields. It will help attract and retain students in STEM disciplines by engaging students in STEM education and exposing them to STEM careers, and connect students, teachers, and families to NASA's mission by building strategic partnerships with formal education providers. The project will also help to strengthen the nation's and NASA's future workforce, attract and retain students in STEM disciplines, and engage Americans in NASA's mission.