RISES (Re-energize and Invigorate Student Engagement through Science) is a coordinated suite of resources including 42 interactive English and Spanish STEM videos produced by Children's Museum Houston in coordination with the science curriculum department at Houston ISD. The videos are aligned to the Texas Essential Knowledge and Skills standards, and each come with a bilingual Activity Guide and Parent Prompt sheet, which includes guiding questions and other extension activities.
The Portland Children’s Museum will open a new exhibition, “Drip City,” which focuses on water as a precious natural resource that has shaped the region’s geography, weather, and culture. Following an IMLS-funded evaluation and design process, the museum will engage a local fabrication company to construct and install exhibit components that explore concepts in science, engineering, and art. The museum will also engage community members in the design and testing of associated programs that target families and children ages 0 to 7. Museum staff will evaluate all exhibit elements to ensure they are working properly, accessible as intended, and making children’s learning visible to adult audiences.
The Oregon Museum of Science and Industry will inspire diverse youth and families to use 21st century skills by creating hands-on Design Challenges where visitors work together to design and test multidisciplinary sustainable solutions to real-world problems. The museum will work closely with Oregon MESA, an organization that uses human-centered Design Challenges to teach STEM, invention, and 21st Century Skills to middle and high school students historically underrepresented in STEM fields. Project deliverables will include three Design Challenges; a Design Challenge Collaboration Playbook outlining how to develop Design Challenges using human-centered design in collaboration with MESA youth, families, and staff; and A MESA-OMSI Collaboration Sustainability Plan that lays out how to continue the partnership and programs beyond the grant. The impacts on families will be explored during front-end, formative, and summative evaluation activities.
Sciencenter will develop a touring exhibition, Engineer.Design.Build, to spark interest and build confidence in STEM by providing learning opportunities about the broad impact engineers have on the environment and society. The museum will partner with Cornell University's College of Engineering to develop scientific content which will be reviewed by an advisory board of representatives from the academic, business, and informal science education sectors. Partners from informal learning institutions will provide expertise on the educational content to ensure that it is accessible and engaging for the target audience of 5-11 year olds. Through a combination of focus groups, youth/guest feedback during exhibition development, and experts in girls' engagement in STEM on the advisory board, the museum will ensure that the exhibition and programming are designed to appeal to girls, and accessible to all learners. The project will include front-end, formative, and summative evaluation through observations and mediated interviews, collecting data from youth, families, and school groups.
Our project focuses on iterative improvements to a cardboard-focused maker exhibition to engage more families in engineering practices.
This poster was presented at the 2021 NSF AISL Awardee Meeting.
Early learning experiences for children have the potential to make a lasting impression on a young person, and ultimately influence their interests, school trajectories, and professional careers. As such, there has been an increasing effort to understand what can make these experiences more or less productive for young people, particularly in science, technology, engineering, and mathematics fields that face ongoing challenges related to workforce development. A better understanding of what happens during and after early engineering activities - and in particular, what contributes to a productive and engaging experience for children between the ages of 3 and 5 - can inform the design of new activities and potentially catalyze greater interest and learning about engineering at a young age. This study seeks to add new knowledge in this area by exploring how and why different elements of engineering activities for young children might be more or less effective for early learners. In addition, the study also examines engagement and interest related to engineering at the family level, acknowledging the essential roles that parents and families play in the overall development of young children. Finally, this study includes a specific focus on low-income and Spanish-speaking families, thereby engaging with communities that historically have less access to early science and engineering learning opportunities and remain persistently underrepresented in these fields. In order to maximize the impact of this research, findings from this study will be shared broadly with parents, educators, and researchers from multiple fields such as engineering education, child development, and informal/out-of-school time education.
This study has the potential to have a transformative impact on engineering education by developing both educational products and conceptual frameworks that advance the field's knowledge of how to effectively engage young learners and their parents/caregivers in meaningful and productive engineering learning experiences. This study seeks to break new ground at the frontiers of early childhood engineering, specifically through a) articulating and refining a new integrated conceptual framework that weaves together theories of learning and development with theoretical constructs from engineering design and b) applying and refining this integrated framework when creating, implementing, assessing, and revising components of family-based engineering activities for early learners, particularly those from low-income and Spanish-speaking families. Unlike many other early childhood engineering programs, this project focuses on the family context, which is the primary driver of learning and interest development at this age. The study therefore provides an opportunity to advance the field by both helping young children build engineering skills and interests before starting kindergarten while also empowering parents to support their children's engineering education at a critical developmental period. Additionally, by enhancing parent-child interactions and supporting a range of early childhood development goals, this project will also contribute to efforts to decrease the persistent kindergarten readiness gap across racial, ethnic, and socioeconomic groups. The research ultimately supports efforts to increase the diversity of individuals who will potentially enter the engineering workforce.
This poster was presented at the 2021 NSF AISL Awardee Meeting.
Our overarching goal is to better understand the particulars of how and why youth co-make in life-based and STEM-rich ways with families and communities, such that we can better infrastructure community-based maker programs in support of youth learning and well-being.
This project engages families in engineering design challenges through a sustainability and biomimicry lens. Families advance their engineering proficiencies while learning from nature to create a livable future.
This poster was presented at the 2021 NSF AISL Awardee Meeting.
This poster was presented at the 2021 NSF AISL Awardee Meeting.
Head Start on Engineering is an ongoing initiative focused on empowering families to use engineering to help their children thrive. We aspire to collaborate as equal partners with the communities we serve and inform a more equitable vision for engineering education in our society.
To build understanding of the essential needs involved in human exploration on Mars, the museum will create the Build a Mars Habitat – Survive and Thrive exhibit which allows museum visitors, especially school field trips and families with children in grades 4-8, to design and construct their own imaginary habitat for successful living on Mars using interchangeable building pieces. This would be designed to appeal particularly to girls, be accessible to audiences using a universal design approach, and be understood by Spanish-language visitors. Partnerships include the National Informal STEM Education Network (NISENet), NASA Ames Research Center, and NASA Marshall Space Flight Center. The project team will also develop professional development materials for both facilitated and unfacilitated experiences to accompany the exhibit. This immersive experience augments the existing “Sun, Earth, Universe” exhibit that was recently distributed to 52 science and children’s museums across the U.S. by NISENet, collectively reporting attendance of over 10 million visitors per year. The exhibition serves as a platform for scientists and museum staff and volunteers to engage visitors with additional facilitated educational programming and hands-on experiences. Anticipated STEM learning outcomes include audience’s increased interest and positive attitudes towards learning about space exploration, increase in informal education professionals’ capacity to engage public audiences in space exploration, and strengthened partnerships among NASA and museums.
The Front-End Evaluation for the Mars Habitat exhibit component was conducted to inform the project team about overall public reactions to the concept of the exhibit, as well as to gather feedback about content, activity and the potential structure and building aspects of the component. This data was also used to help guide the development of an exhibit prototype and the subsequent testing of related ideas, materials and builds. This document includes the full data set and results of the front-end data collection.
The questions that were used for this evaluation included three main focus
This award is funded in part under the American Rescue Plan Act of 2021 (Public Law 117-2).
It has been well documented that under-resourced Latinx communities face persistent barriers to accessing quality STEM education and STEM careers, particularly in the field of engineering. For young children and their families from these communities, the development of executive function skills offers promising pathways to support educational success and prepare children to engage with STEM practices and content. Executive function skills, such as focusing attention, retaining information, and managing emotions are critical for children’s development and long-term success, and have been identified as central to engagement with STEM practices and content, whether in or out of school. However, much of the work on development of executive function skills to date has been conducted with White, middle-class children and has largely ignored the knowledge, values, or perspectives of other communities, including Latinx families. Similar gaps also exist in attention to culturally responsive approaches to using family-based STEM activities to support executive function skills. Taken together, there is a critical need to work with Latinx communities to re-imagine the intersection of STEM learning and executive function skills using equity-based frameworks. This Pilot and Feasibility project will develop and test a new participatory, dialogic method that leverages informal family engineering activities to support the development of executive function skills for preschool-age children from Latinx families. The combination of this proposal’s unique engagement of parents as research partners with the study of engineering and executive functions could lay the foundation for a promising program of future equity-focused research.
Three research questions will guide the study: 1) What knowledge, assets, and practices already exist within Latinx families related to these executive function skills? 2) What aspects of executive function skills can be supported through informal family engineering activities? and 3) What are promising design strategies for adapting informal family engineering activities to highlight family assets and support executive function skills for young children? To address these questions, the project team will engage Latinx parents in a dialogue series in which parents are central collaborators, sharing their in-depth perspectives and partnering with researchers to develop conceptual frameworks and new approaches. Data generated through these ongoing discussions will be analyzed using (a) qualitative, participatory approaches, including iterative co-development and refinement of emergent themes with parents, (b) detailed inductive coding of parent dialogue group discussions using grounded theory techniques, and (c) retrospective analysis at the end of the project. The parent dialogue series will be supported by a systematic literature review examining the intersections between engineering design, executive function, and the strengths and assets within Latinx families. The results of the exploratory research will include a (1) conceptual framework co-developed with parents that highlights promising opportunities and design strategies for using family engineering design activities to support executive function skills for preschool-age children from Latinx families and (2) research agenda outlining questions and priorities for future work that reflect the goals and interests of this community. Aligned with project’s equity approach, the team will work collaboratively with project partners and families for dissemination, focusing on amplifying community voices, sharing challenges and successes, and supporting improvements in the local community. Results will also be broadly shared with educators and researchers to advance knowledge and promote new equitable approaches to collaborating with parents from Latinx communities.
This Pilots and Feasibility project is funded by the Advancing Informal STEM Learning (AISL) program.