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.
Mission to Mars engages 6th-8th grade students in the science, engineering and careers related to Mars exploration. The program is led by the Museum of Science and Industry, Chicago, and includes as partners Challenger Learning Centers in Woodstock, IL, Normal IL and three NASA Centers (Jet Propulsion Laboratory, Marshall Space Flight Center, and Johnson Space Center). The project aims to:
Link, via videoconference, urban and rural middle school students from low income communities in an exploration of space science
Develop and launch programs that showcase NASA Center research
Enrich middle school curricula and promote learning about NASA’s space missions with experiences that inspire youth to pursue in NASA-related STEM careers.
Programs and products produced include:
3 videoconference program scenarios that highlight research being conducted at NASA Centers
Pre- and post-event curriculum materials designed for middle school classrooms
Teacher professional development workshops
Communication support for NASA professionals
iPad apps utilized during the program
Since the program launched five years ago, Mission to Mars has served 7,676 students. MSI seeks to provide opportunities for all learners, and works to remove barriers to participation in high-quality science learning experiences. Mission to Mars allows MSI to engage more Chicago Public Schools (where 86% of students are economically disadvantaged) in real and relevant science experiences that may lead to STEM careers.
As MSI’s CP4SMP grant comes to an end, the Museum has committed to continued delivery of the program through 2 Mission to Mars Learning Labs, offered to 6-8th grade school groups visiting on field trips. Live videoconferencing with JPL and Johnson will occur during roughly half of the sessions. Our Challenger Learning Center partners will integrate Mission to Mars activities, materials and iPad apps into their own Mars-themed programs. Together these efforts extend the transformative hands-on science experiences developed under the Mission to Mars grant to a whole new audience of middle school students and teachers.
The youth-based ITEST proposal, Invention, Design, Engineering and Art Cooperative (IDEA), will provide 100 students in grades 8-12 from the East Side of St. Paul, Minnesota with IT experiences in engineering and design. The content focus is mechanical and electrical engineering, such as product design, electronics, and robotics with an emphasis on 21st century job skills, including skills in advanced areas of microcontrollers, sensors, 3-D modeling software, and web software development for sharing iterative engineering product design ideas and maintaining progress on student product development. These technologies are practical and specific to careers in engineering and standards for technological literacy. During the three-year project period, a scaffolding process will be used to move students from exploratory activities in Design Teams in the 8th and 9th grades to paid employment experiences in grades 10-12 as part of Invention Crews. All design and product invention work will be directly connected to solving problems for local communities, including families and local businesses. For grades 8 and 9, students will receive 170 total contact hours per year and for grades 10-12, 280 contact hours per year. The participant target goal is 75% participation by girls, and African-American and Latino youth. Students participating in this project are situated within the country's most diverse urban districts with students speaking more than 103 languages and dialects. The schools targeted by this project average 84% of students receiving free or reduced price lunches, and have a population with 81% falling below proficiency in the Grade 8/11 Math MCA-II Test. To achieve the project goals of recruiting underrepresented students, and supporting academic transitions from middle and high school to college and university, the project team aggregated an impressive group of project partners that include schools, colleges, universities, and highly experienced youth and community groups, technology businesses that will provide mentoring of students and extensive involvement by parent and family services. Every partner committed to the project has a longstanding and abiding commitment to serving students from economically challenged areas.
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TEAM MEMBERS:
Anika WardKristen MurrayRachel GatesDavid Gundale
Presentation on NSF grant DRL-0840230 (""Communities of Learning for Urban Environments"") presented at the CAISE Convening on Organizational Networks, November 17th, 2011.
The PBS NewsHour STEM Learning project is a broadcast and online science journalism and informal science education initiative to report breaking science news and cutting-edge STEM (Science, Technology, Engineering and Mathematics) research and researchers to a national audience. The multi-platform project goals are to: (1) increase and improve the knowledge of the audience with respect to science and technology; (2) stimulate the active engagement of the audience with science and technology through interactive tools; and (3)position the PBS NewsHour as a regular destination for in-depth and innovative science reporting; (4) deploy new and creative digital tools to extend the impact of NewsHour science reporting, especially for youth. The PBS NewsHour is produced by MacNeil/Lehrer Productions and distributed by PBS to PBS television and radio stations across the country, five nights per week. This project is informed by an expert advisory board and other consultants. Project evaluation will be conducted by City Square Associates. The formative evaluation in year one will employ focus groups of adults from the general audience and teens as well as a quantitative survey online to determine a benchmark of current science knowledge, attitudes and behaviors. The evaluation in year two will test digital components of the project in a usability lab setting to gather information to help improve the quality and effectiveness of these deliverables. The summative evaluation will administer a tracking study with the same population surveyed in the first year. Deliverables include: a minimum of 26 science documentary reports broadcast per year plus additional in-studio interviews and coverage of breaking science news; a revamped website, notably "Science and Tech To Go"; a weekly STEM interview or report online featuring Hari Sreenivasan or other reporters; additional weekly digital STEM reporting; and an expanded and redesigned outreach program for teens and educators including an innovative, cloud-based student editing and content-sharing initiative in collaboration with several science centers. Six new PBS NewsHour Student Reporting Labs, established in high-need urban schools, will shoot, edit, and post their videos on the web. The PBS NewsHour science reports will be broadcast and featured on the NewsHour iPhone app, as well as disseminated on the NewsHour's YouTube Channel, Disqus and UStream, Hulu.com, with new science material updated daily on the web. The NewsHour is seen by more than 7 million viewers each week, with additional audiences being reached by radio, the Online NewsHour website, podcasts, and other social media. New community-based programs expand the audience farther. The final summative report will outline the impact of the project and identify the strategies and tactic found to be most effective in making use of digital media to support project goals.
Michigan Technological University will collaborate with David Heil and Associates to implement the Family Engineering Program, working in conjunction with student chapters of engineering societies such as the American Society for Engineering Education (ASEE), the Society of Hispanic Professionals (SHP) and a host of youth and community organizations. The Family Engineering Program is designed to increase technological literacy by introducing children ages 5-12 and their parents/caregivers to the field of engineering using the principles of design. The project will reach socio-economically diverse audiences in the upper peninsula of Michigan including Native American, Hispanic, Asian, and African American families. The secondary audience includes university STEM majors, informal science educators, and STEM professionals that are trained to deliver the program to families. A well-researched five step engineering design process utilized in the school-based Engineering is Elementary curriculum will be incorporated into mini design challenges and activities based in a variety of fields such as agricultural, chemical, environmental, and biomedical engineering. Deliverables include the Family Engineering event model, Family Engineering Activity Guide, Family Engineering Nights, project website, and facilitator training workshops. The activity guide will be pilot tested, field tested, and disseminated for use in urban, suburban, and rural settings. Strategic impact will result from the development of content-rich engineering activities for families and the dissemination of a project model that incorporates the expertise of engineering and educational professionals at multiple levels of implementation. It is anticipated that 300 facilitators and 7,000-10,000 parents and children will be directly impacted by this effort, while facilitator training may result in more than 27,000 program participants.
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TEAM MEMBERS:
Neil HutzlerEric IversenChristine CunninghamJoan ChaddeDavid Heil
This project will develop a new 4-H Afterschool curriculum called Discovering Technology to be implemented in 7 states potentially reaching 5000 middle school youths and 250 4-H leaders annually. The program would encourage youth in both rural and urban settings to pursue careers in engineering and technology. The project is a partnership of the Pratt School of Engineering at Duke University, the National 4-H Council/4-H Afterschool, North Carolina 4-H and the National Science & Technology Education Partnership (NSTEP).
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.
Investigating Green Energy Technologies in the City (GET City) is a youth-based project designed to target underserved middle school students and introduce concepts in energy sustainability and environmental health. Partners include Michigan State University's College of Education and College of Engineering, Lansing Boys and Girls Club, Lansing Board of Water and Light, and Urban Options, a non-profit energy and environmental agency. Participants learn to use IT tools (GIS software, databases, and communication tools) and gain IT workforce skills, research experiences, science knowledge, and inquiry skills. Project components include bi-weekly afterschool sessions (18 weeks), a 3-week summer program with field-based design experiences, community energy events, parental involvement activities, career field trips, and a project website. Youth will also participate in an annual community fair and conduct energy audits. Topics covered include brownouts, environmental health, alternative energy sources, and green energy technologies. Youth will receive ongoing support from energy mentors and gain leadership experience. The project will result in the development of a curriculum that includes IT-based investigations with a focus on core energy concepts. GET City also includes a research component that examines youth identity development in science, engineering, and IT in an attempt to understand how the program supports participation in an IT community of practice. The research, in conjunction with the comprehensive evaluation, will contribute to the field by providing insight into how the program design fosters youth engagement and learning in science, engineering, and IT. Seventy youth will receive 280 contact hours over two years of participation.