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?.”
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TEAM MEMBERS:
Maritza MacdonaldMeryle WeinsteinRosamond KinzlerMordecai-Mark Mac LowEdmond MathezDavid Silvernail
This research oriented project integrates the informal and formal science education sectors, bringing their combined resources to bear on the critical need for well-prepared and diverse urban science teachers. It represents a partnership among The City College of New York (CCNY), the New York Hall of Science (NYHOS), and the City University of New York Center for Advanced Study in Education (CUNY-CASE). It integrates the Science Career Ladder, a sustained program of informal science teaching training and employment at the NYHOS, with the CCNY science teacher preparation program. The longitudinal and comparative research study being conducted is designed to examine and document the effect of this integrated program on the production of urban science teachers. Outcomes from this study include a new body of research related to the impact of internships in science centers on improving classroom science teaching in urban high schools. Results are being disseminated to both the informal science education community (through the Association for Science and Technology Centers and the Center for Informal Learning in Schools, an NSF supported Center for Learning and Teaching situated at the San Francisco Exploratorium) and the formal education community (through the National Science Teachers Association and the American Educational Research Association).
The Science Career Ladder program engages undergraduates as inquiry-based interpreters (Explainers) for visitors to the NY Hall of Science. Integrating this experience with a formal teacher certification program enables participants to coordinate experiences in the science center, college science and education classes, and K-12 classrooms. Participants receive a license to teach science upon graduating. The approach has its theoretical underpinnings in the concept of situated learning as noted by Kirshner and Whitson (1997, Situated Cognition: Social, Semiotic and Psychological Perspectives, Mahwah, NJ: Erlbaum). Through apprenticeship experiences, situated learning recreates the complexity and ambiguity of situations that learners will face in the real world. Science centers provide a potentially ideal setting for situational learning by future teachers, allowing them to develop, exercise and refine their science teaching and learning skills as noted by Gardner (1991, The Unschooled Mind, New York: Basic Books).
There is a well-documented shortage of science teachers in urban school districts. The causes of this shortage relate to all phases of the teacher professional continuum, from recruitment through training and retention. At the same time, the demographic composition of American teachers is increasingly out of synch with the demographics of the student population, raising concerns that a critical shortage of role models may be at hand, contributing to a worsening situation in urban schools. In the face of these challenges many innovative teacher recruitment and teacher preparation programs have been developed to augment traditional pathways to teaching. These programs range from high school academies for students expressing an interest in teaching to the recruitment and training of individuals making mid-life career changes. The CLUSTER program described above represents a new alternative. There are more than 250 science centers in the United States. Many of these have extensive youth internship programs and collaborative relationships with local colleges. Therefore, the proposed model is widely applicable.
This paper is birthed from my lifelong experiences as student, teacher, administrator, and researcher in urban science classrooms. This includes my years as a minority student in biology, chemistry, and physics classrooms, 10 years as science teacher and high school science department chair, 5-years conducting research on youth experiences in urban science classrooms, and current work in preparing science teachers for teaching in urban schools. These experiences afford me both emic and etic lenses through which to view urban science classrooms and urban youth communities. This paper, both
Science education researchers increasingly focus on the use of controversial science topics in the classroom to prepare students to make personal and societal decisions about these issues. However, researchers infrequently investigate the diverse ways in which students learn about controversial science topics outside the classroom, and how these interact with school learning. Therefore, this study uses qualitative, ethnographic research methods to investigate how 20 high school students attending a New York City public school learn about a particular controversial science topic-HIV/AIDS-in
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Jennie BrotmanFelicia Moore MensahNancy Lesko
In 2008, the WGBH Educational Foundation, along with the Association of Computing Machinery, was awarded a grant from the National Science Foundation, Directorate for Computer and Information Science and Engineering, under the Broadening Participation in Computing Program (NSF 0753686). The purpose of the grant was to develop a major new initiative to reshape the image of computing among college-bound high school students. Based on its market research results, WGBH developed a website and other resources that were intended for use by teachers, parents and students. Concord Evaluation Group
The goal of the FOCUSSS project is to engage high school students in a need-to-know pursuit for learning science that leads to the discovery of sustainable resources and practices for use in their communities. The project is a collaboration among Loyola University Chicago, Adler Planetarium, the Chicago Museum of Science and Industry, and four local, urban high schools to construct student and family activities involving essential science concepts and tools within a sustainability context. Through this project, high school students engage in school and family activities around specific themes related to sustainable resources and practices in their communities, such as the availability and access to nutritious food, the quality of air or availability of clean water resources, the effective use of energy resources, or similar topics. The project intends to help students develop as informed and responsible citizens who utilize the principles and tools of basic science for their decisions and actions. The blended instructional model that deeply involves family and community will be studied for its potential to make formal learning relevant to the lives of children and to the health of the community. As an exploratory project, the project tests a curriculum design that bridges formal and informal education and draws upon the resources in the community. Students interact with online learning communities that include their teachers, their families, fellow students, and sustainability organizations. Participating teachers are involved in intensive workshops that focus on developing sustainability principles within inquiry-based science curricula and lessons plans. Service projects provide opportunities for students to invite their families to participate and be supported in family workshops at local museums and in site visits to organizations involved in related initiatives. Data collection includes surveys administered to students and participating family members, observations, interviews, classroom assessments, and other open-ended instruments intended to surface themes and related variables. These will inform the design of the materials and activities as well as the assessments. The project deliverables include fully implemented classroom lessons supported by family projects and online sustainability courses for students and families. The project fosters students and families connecting to their communities, resources and organizations in order to improve the quality of their neighborhoods and to promote individual, family, and public health.
This two-year project is communicating the results of scientific discoveries produced by an on-going LTER (Long-term Ecological Research) project devoted to understanding the Everglades ecosystem. Specifically, Dr. Heithaus is capitalizing on the discoveries funded through 0620409 (Coastal Oligotrophic Ecosystems Research) about the role of large-bodied, top predators in the Everglades, including bull sharks (Carcharhinus leucas) and American alligators (Alligator mississippiensis). The STEM content of this project is biology, in particular ecology, the environment, and conservation. These results are being communicated via: (1) multimedia exhibit presentations at multiple museums and nature centers in southern Florida, primarily the Museum of Discovery and Science (MODS), located in Ft. Lauderdale near the Everglades and (2) online dissemination of mini-documentaries and other educational components at social media websites and the LTER web site. The target audience for the museum exhibit components includes learners from diverse cultural backgrounds, such as urban family groups reflecting the demographics of southern Florida. This project will also develop a documentary about Everglades ecology that is planned for dissemination on a cable TV channel devoted to natural history. In order to link with formal education, related educational deliverables are being produced for use in science classroom settings (grades 4 through 12) that are aligned with the state science standards and benchmarks. Formative assessment conducted by museum staff and university students will evaluate learning outcomes as they relate to STEM content learning goals. After the two-year funding period, the science learning opportunities produced from the current Communicating Research to Public Audiences (CRPA) project will be sustained as the exhibit travels to other venues and as web deliverables are accessed on-line.
Voyage of Discovery is a comprehensive and innovative project designed to provide K-12 youth in Baltimore City with an introduction to mathematics, engineering, technology, environmental science, and computer and information science, as it relates to the maritime and aerospace industries. The Sankofa Institute, in partnership with the Living Classrooms Foundation and a host of marine, informal science, community, and educational organizations, collaborate to make science relevant for inner-city youth by infusing science across the curriculum and by addressing aspects of history and culture. Youth are introduced to historical, current, and future innovations in shipbuilding as a means to learn the science, mathematics, and history associated with navigation, transportation, environmental science, and shipping. Activities will take place at the Frederick Douglass-Isaac Myers Maritime Park and Museum where students participate in intensive afterschool, Saturday, and summer sessions. Families are invited for pre-session orientation meetings and again at the end of each session to observe student progress. This project will provide over 3,900 K-12 youth with the opportunity to learn mathematics (algebra, geometry, and trigonometry), physics (gravity, density, mechanics), design, and estuarine biology while participating in hands-on sessions. Project deliverables include a 26-foot wooden boat, a working model of a dirigible, a submarine model, and pilot control panel models, all constructed by students and subsequently incorporated into exhibits at the USS Constellation Museum. The project also results in the production of two curricula--one each on celestial navigation and propulsion. Voyage of Discovery informs the literature on inquiry-based informal science education programs and strategies to engage minority and low-income youth in learning science and technology.
The overall goal of the current proposal is to adapt the interdisciplinary research-based curriculum created at the School for Science and Math at Vanderbilt (SSMV) for implementation of a four-year program in three Metropolitan Nashville Public School (MNPS) high schools. The specific aims of the proposal are to adapt the on-campus (at Vanderbilt) model for implementation in three public high schools with different academic profiles (SSM Academies); to define the variables and features required to sustain the program and to replicate the model in any high school setting; and to define a strategy for disseminating the model to additional schools. Students entering 9th grade in a school in which an SSM Academy has been implemented will be encouraged to apply. Those who are accepted into the program will spend three hours every other day in two courses based on the adapted curriculum. As with the SSMV, rising seniors will have opportunities to enter Vanderbilt laboratories for summer research internships. Teachers from the high school will work with Center for Science Outreach scientists to adapt the SSMV curriculum for implementation. Ongoing, year-long teacher professional development will be conducted to ensure that the curriculum is dynamic and the teachers are well-prepared to engage and guide the students in the curriculum. The anticipated outcomes include enhanced student achievement as measured by GPA, and scores on ACT science reasoning and end of course tests; increased SSM student interest in careers in science; increased district-wide enrollment in SSM programs; increased graduation rates and postsecondary education enrollment by SSM students; development of unique curricular science units that can be adapted for a novel four-year interdisciplinary research- based curriculum; development of a sustainable model built on effective features of each SSM that can be exported to other high schools within and outside Nashville; enhanced community and family involvement in the SSM programs and school community in general; a strengthened partnership between Vanderbilt and MNPS that will serve as a national model of a successful university-K-12 collaboration to enhance science teaching and learning.
Having developed the concept of near-peer mentorship at the middle school/high school level and utilized it in a summer science education enhancement program now called Gains in the Education of Mathematics and Science or GEMS at the Walter Reed Army Institute of Research (WRAIR), it is now our goal to ultimately expand this program into an extensive, research institute-based source of young, specially selected, near-peer mentors armed with kits, tools, teacher-student developed curricula, enthusiasm, time and talent for science teaching in the urban District of Columbia Public Schools (specific schools) and several more rural disadvantaged schools (Frederick and Howard Counties) in science teaching. We describe this program as a new in-school component, involving science clubs and lunch programs, patterned after our valuable summer science training modules and mentorship program. Our in-house program is at its maximum capacity at the Institute. Near-peer mentors will work in WRAIR's individual laboratories while perfecting/adapting hands-on activities for the new GEMS-X program to be carried out at McKinley Technology HS, Marian Koshland Museum, Roots Charter School and Lincoln Junior HS in DC, West Frederick Middle School, Frederick, MD and Folly Quarter Middle School and Glenelg HS, in Howard County, MD. Based on local demographics in these urban/rural areas, minority and disadvantaged youth, men and women, may choose science, mathematics, engineering and technology (SMET) careers with increasing frequency after participating, at such an early age, in specific learning in the quantitative disciplines. Many of these students take challenging courses within their schools, vastly improve their standardized test scores, take on internship opportunities, are provided recommendations from scientists and medical staff and ultimately are able to enter health professions that were previously unattainable. Relevance to Public Health: The Gains in the Education of Mathematis and Science (GEMS) program educates a diverse student population to benefit their science education and ultimately may improve the likelihood of successfully entry into a health or health-related professions for participating individuals. Medical education has been show to improve public health.