Our Sky is a series of Out-of-School Time and museum educational programs that inspire an appreciation and understanding of Earth and Space Science (ESS) in a diverse population of children ages 3-10 and their parents, caregivers and educators. All resources are developed through a partnership between Boston Children’s Museum and Smithsonian Astrophysical Observatory in Boston and Cambridge, Massachusetts. The vision for Our Sky is that children ages 3-10 and their adult caregivers will gain an appreciation for celestial objects and phenomena as a foundation for understanding of Earth and Space Science. All resources and activities will be designed to realize this vision, and to:
Serve a diverse range of audiences, with an emphasis on urban and low-income children and families;
Increase appreciation among diverse adults and children of the sky as an accessible science learning resource;
Share NASA resources with, and help develop foundational STEM skills in children;
Encourage adults to engage in and guide ESS learning experiences with children;
Inspire practical application of STEM skills by children and adults as they explore celestial objects together; and
Expand the capacity of museum staff and afterschool educators to engage families in learning STEM skills through ESS exploration.
Our Sky activities will result in:
A series of museum-based programs that incorporate NASA resources and ESS activities across a range of content areas; and
A series of new ESS-focused activities for the award-winning “Beyond the Chalkboard” afterschool curriculum that include NASA resources and will reach hundreds of thousands of children around the world.
Pacific Science Center will expand its Science, Technology, Engineering and Math—Out-of-School Time (STEM-OST) model to new venues in the Puget Sound region to improve science literacy and increase interest in STEM careers for youth. STEM-OST brings hands-on lessons and activities in physics, engineering, astronomy, mathematics, geology, and health to elementary and middle school children in underserved communities throughout the summer months. The center will modify lessons and activities to serve students in grades K-2, align the curriculum with the Next Generation Science Standards, and increase the number of Family Science Days and Family Science Workshops offered to enhance parent involvement in STEM learning. The program will employ a tiered mentoring approach with outreach educators, teens, and education volunteers to increase interest in STEM content and provide direct links between STEM and workforce preparedness.
Sciencenter will develop and deliver "Science from the Start," a program to empower parents, caregivers, and early childhood educators to integrate STEM (science, technology, engineering, and math) into everyday activities for preschool children. Using workshops to help parents, caregivers, and educators engage children in science discovery, the museum will provide support, training, and inquiry-based activities to increase their comfort and knowledge of methods to encourage their children's STEM learning. "Science from the Start" will increase the museum's capacity in early childhood education and disseminate results to science and technology centers to promote a deeper understanding of the importance of early childhood education as the foundation for lifelong learning.
As part of a grant from the National Science Foundation, the National Federation of the Blind (NFB) is conducting regional STEM workshops in partnership with local science museums, entitled NFB STEM2U, for blind youth [youth], grades 3 – 6 and 9-12. During this second regional workshop in Boston, the NFB operated two different programs simultaneously: one program for youth, and a second program for their parents/caregivers. A third program, for Boston Museum of Science staff, was conducted earlier to prepare the museum staff to assist with the youth program. A separate report will discuss the
As part of a grant from the National Science Foundation, the National Federation of the Blind (NFB) is conducting regional STEM workshops in partnership with local science museums, entitled NFB STEM2U, for blind youth [youth], grades 3 – 6 and 9-12. During the third regional workshop in Columbus, Ohio, the NFB operated two different programs simultaneously: one program for youth, and a second program for their parents/caregivers. A third program, for COSI (science center) staff, was conducted earlier to prepare the museum staff to assist with the youth program. A separate report will discuss
The overall purpose of the Kinetic City (KC) Empower project was to examine how informal science activities can be made accessible for students with disabilities. The premise of this project was that all students, including those with disabilities, are interested in and capable of engaging in science learning experiences, if these experiences are accessible to them. Drawing on resources from Kinetic City, a large collection of science experiments, games, and projects developed by the American Association for the Advancement of Science (AAAS), the project researched and adapted five after
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TEAM MEMBERS:
Bob HirshonLaureen SummersBabette MoellerWendy Martin
WGBH Educational Foundation will create PEEP'S WORLD/EL MUNDO DE PEEP, a Web-based "Digital Hub," in both English and Spanish, to significantly increase the impact of the extensive collection of proven preschool science and math assets from the Emmy Award-winning TV show PEEP AND THE BIG WIDE WORLD®. This project will: (1) redesign the PEEP Web site, creating interactive media experiences that will contextualize existing content and take advantage of new Web design; (2) provide professional development for preschool educators; and (3) reach a new audience of family childcare educators, one that is woefully underserved when it comes to educational resources about science. Dissemination through a network of national organizations, including National Association of Family Child Care, National Association of Child Care Resource and Referral Agencies, National Head Start Association, National Education Association, AVANCE, and Committee for Hispanic Children and Families, will help engage the maximum number of educators and parents in the project. PEEP'S WORLD/EL MUNDO DE PEEP will provide resources for targeted audiences. Specifically these resources will provide: Children with multiple ways to engage with science or math content areas, including interactive games, animated stories, and live-action videos; Parents with guided experiences to facilitate their child's math and science play; Center-based preschool educators with a media-rich, year long science curriculum and professional development materials; and Family childcare educators with curriculum modules, integrated with media, focused on six science content areas, and professional development materials for home-care settings in English and in Spanish. The University of Massachusetts's Donahue Institute will conduct a formative evaluation of the family childcare educator resources: 200 Spanish-speaking and 200 English-speaking educators will pilot the curriculum modules and professional development videos. Concord Evaluation Group, Inc. will conduct a summative evaluation, consisting of a Family Web Site Experiment and a National Observational Study, to assess the extent to which the project is successful at achieving its intended impacts. A multifaceted national dissemination plan will include a robust social media strategy, implemented by a Spanish-speaking online community manager, to reach parents, and collaborations with early childhood education statewide systems to reach educators. The projects intended impacts are to: (1) help English- and Spanish-speaking preschoolers effectively apply science and mathematical inquiry and process skills; (2) empower English- and Spanish-speaking parents to feel more equipped and inclined to facilitate science and math exploration with their preschoolers; and, (3) provide center-based and family childcare educators with resources for incorporating math and science into their curricula and boosting their confidence in teaching these subjects. While many parents know how to read to their children, they do not typically know how to approach science or math investigations with their pre-schoolers. After parents, preschool educators are the most important promoters of a young child\'s learning. Yet, center-based and family childcare educators do not receive significant training in science, and thus lack confidence when conducting preschool science activities. By providing parents and educators resources for approaching preschool science and math, which meet their specific needs, PEEP will help alleviate these challenges.
This full scale research and development collaborative project between Smith College and Springfield Technical Community College improves technical literacy for children in the area of engineering education through the Through My Window learning environment. The instructional design of the learning environment results from the application of innovative educational approaches based on research in the learning sciences—Egan's Imaginative Education (IE) and Knowledge Building (KB). The project provides idea-centered engineering curriculum that facilitates deep learning of engineering concepts through the use of developmentally appropriate narrative and interactive multimedia via interactive forums and blogs, young adult novels (audio and text with English and Spanish versions), eight extensive tie-in activities, an offline teachers’ curriculum guide, and social network connections and electronic portfolios. Targeting traditionally underrepresented groups in engineering—especially girls—the overarching goals of the project are improving attitudes toward engineering; providing a deeper understanding of what engineering is about; supporting the development of specific engineering skills; and increasing interest in engineering careers. The project will address the following research questions: What is the quality of the knowledge building discourse? Does it get better over time? Will students, given the opportunity, extend the discourse to new areas? What scaffolding does the learning environment need to support novice participants in this discourse? Does the use of narrative influence participation in knowledge building? Are certain types of narratives more effective in influencing participation in knowledge building? Evaluative feedback for usability, value effectiveness, and ease of implementation from informal educators and leaders from the Connecticut After School Network CTASN) will be included. The evaluation will include documentation on the impact of narrative and multimedia tools in the area of engineering education. Currently, there is very little research regarding children and young teen engagement in engineering education activities using narrative as a structure to facilitate learning engineering concepts and principles. The research and activities developed from this proposed project contributes to the field of Informal Science and Engineering Education. The results from this project could impact upper elementary and middle-school aged children and members from underrepresented communities and girls in a positive way.
'Be a Scientist!' is a full-scale development project that examines the impact of a scalable, STEM afterschool program which trains engineers to develop and teach inquiry-based Family Science Workshops (FSWs) in underserved communities. This project builds on three years of FSWs which demonstrate improvements in participants' science interest, knowledge, and self-efficacy and tests the model for scale, breadth, and depth. The project partners include the Viterbi School of Engineering at the University of Southern California, the Albert Nerken Engineering Department at the Cooper Union, the Los Angeles Museum of Natural History, and the New York Hall of Science. The content emphasis is physics and engineering and includes topics such as aerodynamics, animal locomotion, automotive engineering, biomechanics, computer architecture, optics, sensors, and transformers. The project targets underserved youth in grades 1-5 in Los Angeles and New York, their parents, and engineering professionals. The design is grounded in motivation theory and is intended to foster participants' intrinsic motivation and self-direction while the comprehensive design takes into account the cultural, social, and intellectual needs of diverse families. The science activities are provided in a series of Family Science Workshops which take place in afterschool programs in eight partner schools in Los Angeles and at the New York Hall of Science in New York City. The FSWs are taught by undergraduate and graduate engineering students with support from practicing engineers who serve as mentors. The primary project deliverable is a five-year longitudinal evaluation designed to assess (1) the impact of intensive training for engineering professionals who deliver family science activities in community settings and (2) families' interest in and understanding of science. Additional project deliverables include a 16-week training program for engineering professionals, 20 physics-based workshops and lesson plans, Family Science Workshops (40 in LA and 5 in NY), a Parent Leadership Program and social networking site, and 5 science training videos. This project will reach nearly one thousand students, parents, and student engineers. The multi-method evaluation will be conducted by the Center for Children and Technology at the Education Development Center. The evaluation questions are as follows: Are activities such as recruitment, training, and FSWs aligned with the project's goals? What is the impact on families' interest in and understanding of science? What is the impact on engineers' communication skills and perspectives about their work? Is the project scalable and able to produce effective technology tools and develop long-term partnerships with schools? Stage 1 begins with the creation of a logic model by stakeholders and the collection of baseline data on families' STEM experiences and knowledge. Stage 2 includes the collection of formative evaluation data over four years on recruitment, training, co-teaching by informal educators, curriculum development, FSWs, and Parent Leadership Program implementation. Finally, a summative evaluation addresses how well the project met the goals associated with improving families' understanding of science, family involvement, social networking, longitudinal impact, and scalability. A comprehensive dissemination plan extends the project's broader impacts in the museum, engineering, evaluation, and education professional communities through publications, conference presentations, as well as web 2.0 tools such as blogs, YouTube, an online social networking forum for parents, and websites. 'Be a Scientist!' advances the field through the development and evaluation of a model for sustained STEM learning experiences that helps informal science education organizations broaden participation, foster collaborations between universities and informal science education organizations, increase STEM-based social capital in underserved communities, identify factors that develop sustained interest in STEM, and empower parents to co-invest and sustain a STEM program in their communities.
This evaluation reports on the Mission: Solar System project, a 2-year project funded by NASA. The goal of the Mission: Solar System was to create a collection of resources that integrates digital media with hands-on science and engineering activities to support kids’ exploration in formal and informal education settings. Our goal in creating the resources were: For youth: (1) Provide opportunities to use science, technology, engineering, and math to solve challenges related to exploring our solar system, (2) Build and hone critical thinking, problem-solving, and design process skills, (3)
This project supports the development of technological fluency and understanding of STEM concepts through the implementation of design collaboratives that use eCrafting Collabs as the medium within which to work with middle and high school students, parents and the community. The researchers from the University of Pennsylvania and the Franklin Institute combine expertise in learning sciences, digital media design, computer science and informal science education to examine how youth at ages 10-16 and families in schools, clubs, museums and community groups learn together how to create e-textile artifacts that incorporate embedded computers, sensors and actuators. The project investigates the feasibility of implementing these collaboratives using eCrafting via three models of participation, individual, structured group and cross-generational community groups. They are designing a portal through which the collaborative can engage in critique and sharing of their designs as part of their efforts to build a model process by which scientific and engineered product design and analysis can be made available to multiple audiences. The project engages participants through middle and high school elective classes and through the workshops conducted by a number of different organizations including the Franklin Institute, Techgirlz, the Hacktory and schools in Philadelphia. Participants can engage in the eCrafting Collabs through individual, collective and community design challenges that are established by the project. Participants learn about e-textile design and about circuitry and programming using either ModKit or the text-based Arduino. The designs are shared through the eCrafting Collab portal and participants are required to provide feedback and critique. Researchers are collecting data on learner identity in relation to STEM and computing, individual and collective participation in design and student understanding of circuitry and programming. The project is an example of a scalable intervention to engage students, families and communities in developing technological flexibility. This research and development project provides a resource that engages students in middle and high schools in technology rich collaborative environments that are alternatives to other sorts of science fairs and robotic competitions. The resources developed during the project will inform how such an informal/formal blend of student engagement might be scaled to expand the experiences of populations of underserved groups, including girls. The study is conducting an examination of the new types of learning activities that are multiplying across the country with a special focus on cross-generational learning.
Many communities across the country are developing "maker spaces," environments that combine physical fabrication equipment, social communities of people working together, and educational activities for learning how to design and create objects. Increasingly, maker spaces and maker technologies are being designed to provide extended learning opportunities for school-aged young people. Unfortunately, few youth from under-represented populations have had the opportunity to participate in these maker spaces, and many communities do not have the resources to establish facilities dedicated to making activities. This project, a collaboration of faculty at California State University, San Marcos and San Diego County Office of Education, the Vista Unified School District, and the San Diego Fab Lab, is a feasibility study that will work to address these needs by implementing and evaluating a pilot Mobile Making program in an underserved youth population. It will bring Making to four after-school programs in underserved communities in San Diego by using a van to take both equipment and undergraduate student mentors to program sites. At these sites, between 50% and 90% of the students are Hispanic or Latino and between 40% and 90% are eligible for free or reduced price lunch. The project employs a research-based approach to the design and implementation of the Mobile Making program, coupled with an evidenced-based plan for developing a model for future dissemination. Project objectives are: increasing the participants' interest, self-efficacy, and perception of the relevance of Making/STEM in everyday life; identifying and overcoming challenges associated with a Mobile Making program; developing a model for implementing and assessing Mobile Making in underserved communities; and disseminating materials and guides for practitioners. Development will be guided by five research-based principles for design of out-of-school time programs in underserved communities: access to resources; ethnically diverse near-peer leaders; authentic activities; legitimacy within the community; and ongoing input from participants. To inform program development and implementation, including continuous monitoring and adjustment throughout the two-year initiative, the evaluation component will use a mixed methods approach to study outcomes with respect to the students, their parents and the undergraduate mentors. Future work will apply the lessons learned in the project to guide implementations and study the model's applicability in other informal education settings. The dissemination plan will include publication of project findings, activities, practitioner's guides, and the model for implementing making programs in underserved communities.