The purpose of this paper is to provide a better understanding of Maine’s capability to promote 5th-12th graders’ engagement and achievement in STEM during out-of-school hours. The paper will provide a background for the design conference task of constructing “STEM intensives” that make optimal use of Maine’s resources and connect these resources with students in ways that make sense.
Students in the U.S. educational system are increasingly diverse, and this diversity is reflected in science, technology, engineering, and mathematics (STEM) fields. Diversity in education encompasses students from many races, genders, and socioeconomic backgrounds; students who speak a variety of languages; and students from many cultures. For instance, ethnic diversity increased by 5% across primary and secondary public schools from 2000 to 2007 (Aud, Fox, & KewalRamani, 2010). Diversity is also evident in the socioeconomic make-up of students, with almost half of 4th graders in public
"Local Investigations of Natural Science (LIONS)" engages grade 5-8 students from University City schools, Missouri in structured out-of-school programs that provide depth and context for their regular classroom studies. The programs are led by district teachers. A balanced set of investigations engage students in environmental research, computer modeling, and advanced applications of mathematics. Throughout, the artificial boundary between classroom and community is bridged as students use the community for their studies and resources from local organizations are brought into school. Through these projects, students build interest and awareness of STEM-related career opportunities and the academic preparation needed for success.
DATE:
-
TEAM MEMBERS:
Robert CoulterEric KlopferJere Confrey
The State University of New York (SUNY) and the New York Academy of Sciences (NYAS) are collaborating to implement the SUNY/NYAS STEM Mentoring Program, a full scale development project designed to improve the science and math literacy of middle school youth. Building upon lessons learned through the implementation of national initiatives such as NSF's Graduate STEM Fellows in K-12 Education (GK-12) Program, university initiatives such as the UTeach model, and locally-run programs, this project's goals are to: 1) increase access to high quality, hands-on STEM programs in informal environments, 2) improve teaching and outreach skills of scientists in training (graduate and postdoctoral fellows), and 3) test hypotheses around scalable program elements. Together, SUNY and NYAS propose to carry out a comprehensive, systemic science education initiative to recruit graduate students and postdoctoral fellows studying science, technology, engineering, and mathematics (STEM) disciplines at colleges and universities statewide to serve as mentors in afterschool programs. SUNY campuses will partner with a community-based organization (CBO) to place mentors in afterschool programs serving middle school students in high-need, low-resource urban and rural communities. Project deliverables include a three-credit online graduate course for mentor training, six pilot sites, a best practices guide, and a model for national dissemination. The online course will prepare graduate and postdoctoral fellows to spend 12-15 weeks in afterschool programs, introducing students to life science, earth science, mathematics and engineering using curriculum modules that are aligned with the New York State standards. The project design includes three pre-selected sites (College of Nanoscale Science & Engineering at the University of Albany, SUNY Institute of Technology, and SUNY Downstate Medical Center) and three future sites to be selected through a competitive process, each of which will be paired with a CBO to create a locally designed STEM mentoring program. As a result, a minimum of 192 mentors will provide informal STEM education to 2,880 middle school students throughout New York State. The comprehensive, mixed-methods evaluation will address the following questions: 1) Does student participation in an afterschool model of informal education lead to an increase in STEM content knowledge, attitudes, self-efficacy, and interest in pursuing further STEM education and career pathways? 2) Do young scientists who participate in the program develop effective teaching and mentoring skills, and develop interest in teaching or mentoring career options that result in STEM retention? 3) What are the attributes of an effective STEM afterschool program and the elements of local adaptation and innovation that are necessary to achieve a successful scale-up to geographically diverse locations? 4) What is the role of the afterschool model in delivering informal STEM education? This innovative model includes a commitment to scale across the 64 SUNY campuses and 122 Councils of the Girl Scouts of the USA, use an online platform to deliver training, and place scientists-in-training in informal learning environments. It is hypothesized that as a result of greater access to STEM education in an informal setting, participating middle school youth will develop increased levels of STEM content knowledge, self-efficacy, confidence in STEM learning, and interest in STEM careers. Scientist mentors will: 1) gain an understanding of the context and characteristics of informal science education, 2) develop skills in mentoring and interpersonal communication, 3) learn and apply best practices of inquiry instruction, and 4) potentially develop interest in teaching as a viable career option. It is anticipated that the project will add to the research literature in several areas such as the effectiveness of incentives for graduate students; the design of mentor support systems; and the structure of pilot site programs in local communities. Findings and materials from this project will be disseminated through presentations at local, regional, and national conferences, publications in peer-reviewed journals focused on informal science education, and briefings sent to more than 25,000 NYAS members around the world.
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.
Science STARS (Stars Tackling Authentic & Relevant Science) is an after-school program that will engage approximately 400 urban middle school girls in authentic inquiry-based scientific investigations and the creation of a science documentary that extends their research and situates their findings. The project has been piloted in Rochester, NY and will be expanded to sites in Lansing, MI and Seattle, WA. New elements have been added to enhance the project experience including the documentary video component, partnerships with local community outreach organizations, mentoring by local female scientists, leveraging embedded assessments to enhance the measurement of learning, and a conference and presentations to local stakeholders to showcase the work of the participants. Participants will meet during the school year plus three intensive weeks during the summer for a total of about 65 hours per year. A unique feature of this project is the use of pre-service teachers from local teacher preparation programs to facilitate the investigations. This in turn develops the capacity of pre-service teachers to implement and leverage inquiry-based learning in their practice. Project-level research will address questions of how models such as this encourage the development of positive science identities in girls and how situating science investigations in their community affects their understanding of science and local issues. The project evaluation will be conducted by Horizon Research and will focus on the quality of project activities, the quality of the project\'s research plan, and the impact on participants and pre-service teachers. Science STARS thoughtfully bridges formal and informal learning environments. While Science STARS largely situates its home base in schools in order to increase access to those who may not self-identify with science, the program is designed to capitalize on the unique affordances of informal settings and contribute to understanding how informal science education can be used to nurture positive science identities for urban middle school girls.
This pathways project will design, develop and test Do-It-Yourself, (DIY), hands-on workshops to introduce and teach middle school females in underserved Latino communities computing and design by customizing and repurposing e-waste media technology, such as old cell phones or appliances -- items found in the students homes or neighborhoods. The major outcome of the project will be the creation of a workshop kit that covers the processes of DIY electronics learning taking place in the workshops for distribution of the curriculum to after school programs and other informal science venues. The PIs have implemented three pilot projects over the last three years that demonstrate the ability of hands-on DIY electronics curricula to motivate and encourage students and to enable them to acquire a deeper understanding of core engineering, mathematics and science concepts. This project would extend the approach to underserved Latino youth, particular girls of middle school age. This audience was identified because of the historically low rate of participation in STEM fields by people in this group and the particular challenges that females have in acquiring knowledge in technical STEM areas. The proposal suggests that the approach of using hands-on workshops that rely on low technical requirements -- essentially obsolete or discarded electronic equipment, primarily from homes of participants -- will encourage the target audience to experiment with items they are familiar with and that are culturally relevant. The hypothesis of the project is that this approach will lower barriers to experimenting with "circuit bending" - the hand-modifying of battery-powered children's toys to build custom electronic instruments and lead to greater participation and success of females in the target group. The project will provide free workshops in two neighborhood locations and be supported by undergraduate student mentors and volunteers and staff of two community groups that are part of the project, Machine Project and Girls, Inc. Participants will demonstrate the finished projects to the workshop group, mentors and parents. Each participant will receive a copy of the workshop handbook in both English and Spanish to take home so that parents, members of the community and caregivers can supervise and participate in future projects.
DATE:
-
TEAM MEMBERS:
Garnet HertzGillian HayesRebecca Black
This project takes advantage of the charismatic nature of arachnids to engage the public in scientific inquiry, dialogue, and exploration. The project has two specific programs: (1) The development, implementation, and assessment of an informal museum event entitled 'Eight-Legged Encounters' which now has more than 25 associated activity stations. These activities encompass stations relating to (a) classification and systematics (e.g., 'What is an Arthropod', 'Create a Chelicerate', and 'Assemble an Arachnid'), (b) spider-specific stations focused on silk (e.g., 'Build a Burrow', 'Cribellate vs. Ecribellate Silk', 'Weave a Web', and 'Catch a Moth'), and (c) research related stations (e.g., 'Microscope Madness' and 'Community Experiment'). In addition, there is a stand-alone module entitled the 'Path of Predators' that includes an activity booklet and eleven stations that walk participants through the eleven living arachnid orders. Each stations has original artwork backdrops, clay sculptures, trading cards, and collectible stamps (participants place stamps on a phlylogenetic tree depicting the current hypothesis of evolutionary relationships among the eleven orders). Most stations have live animals and prizes are given to participants that complete their stamp booklet. 'Eight-Legged Encounters' has been hosted at the Nebraska State Museum (Morrill Hall) twice, with record-breaking attendance (>800 people in
DATE:
-
TEAM MEMBERS:
University of Nebraska-LincolnEileen Hebets
Schools do not define education, and they are not the only institutions in which learning takes place. After-school programs, music lessons, Scouts, summer camps, on-the-job training, and home activities all offer out-of-school educational experiences. In Learning at Not-School, Julian Sefton-Green explores studies and scholarly research on out-of-school learning, investigating just what it is that is distinctive about the quality of learning in these “not-school” settings. Sefton-Green focuses on those organizations and institutions that have developed parallel to public schooling and have
DATE:
TEAM MEMBERS:
The MacArthur FoundationJulian Sefton-Green
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.
DATE:
-
TEAM MEMBERS:
Stevens Institute of TechnologyMercedes McKayPatricia Holahan
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.
Informal Education at NASA Centers: Extending the Reach is a highly leveraged, modular, project-based approach to improving education opportunities for students, formal and informal educators, and life-long learners in NASA Ames Research Center’s local community and beyond. In partnership with the Aerospace Education, Research and Operations (AERO) Institute, NASA Ames has been developing two projects: Exploration Center Field Trips and Field Trip in a Box. California Teaching Fellows Foundation, as a sub awardee, has been expanding their After School University (ASU) program. The division has the goal of supporting NASA’s Education Outcome 2 with improved educational opportunities for all in the NASA Ames Visitor Center and opportunities to bring NASA content into the classroom to improve students understanding of STEM as well as improve teachers understanding and ability to teach NASA-related STEM topics. The division also has the goal of supporting NASA’s Education Outcome 3 by expanding ASU to include NASA-based STEM learning opportunities to 360 additional students in six rural schools as well as train 12 additional Teaching Fellows (Fresno State University future teachers). Through these objectives, NASA Ames has produced 10 Field Trip in a Box kits as well as new and expanded learning opportunities for all, especially 3rd – 8th grade classes, in the NASA Ames Visitor Center. ASU has reached 500 students in 10 schools and hosted 12-14 year old learners in a five-week computer-based flight simulation class, called Flying for Future Pilots.