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 Thinkery will develop research-based exhibit materials and community resources to support adults as learning facilitators for their children. The museum will formalize a decade-long research relationship with a nationally recognized expert in child development and learning to establish new infrastructure and capacity to translate best practices from learning sciences into museum operations. The museum will create a 180-foot learning hub that blends elements of an exhibition and research space, allowing the prototyping and evaluation of exhibits by engaging visitors as active participants in research studies. The project team will produce bilingual exhibit prompts cards, signage, and enhancements to educate and inform parents by offering STEAM knowledge, inquiry questions, play-based learning and child development information. Additional project activities will include the development and implementation of related staff trainings and the establishment of an online parent resource gallery.
DuPage Children's Museum will enhance visitor engagement by incorporating current research on infant and toddler development to redesign two exhibits and develop an educational program for low-income caregivers. The museum will partner with two community-based organizations, Teen Parent Connection and Family Focus DuPage, to collaborate in the project and refer clients to participate in the educational programs. The museum will present twelve onsite sessions that will enable parents and caregivers to nurture an understanding of STEM fundamentals at the museum and at home for their young children. Participants will be given educational videos and take-home kits that correspond with the educational sessions. Project activities will also include training to help museum staff use the exhibits to further a visitor's learning experience. The museum will disseminate project results to other children's museums and early childhood educators and professionals.
The Habitot Children's Museum will renovate its Rocketship and Mission Control exhibition to increase functionality, making it more accessible and interactive for parents, caregivers, and children. With input from the community and a professional advisory group of museum professionals, early learning specialists, space scientists and parents, the museum will refurbish, update, and improve exhibition access for children with special needs by completing previously identified universal design requirements; adding interactive components that support young children's need for open-ended, play-based experiences to build strong STEM learning foundations; and addressing adult visitors' needs to have defined roles in exhibition spaces to better engage with their children. A customized, observation-based evaluation tool will be used to measure the identified project outcomes.
This is the summative evaluation report for the “Understanding the Physics of Collaborative Design and Play,” a collaboration between researchers and children’s museum practitioners to design and build a physics-based children’s museum exhibit to provide opportunities for children and their caregivers to tinker with play related to the STEM concepts of momentum, mass, velocity, friction, and balance in the context of informal learning related to skateboarding. The exhibit, “The Science of Skateboarding” at the Iowa Children’s Museum, was designed and fabricated as a result of this grant.
In
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TEAM MEMBERS:
Deb DunkhaseKristen MissallBenjamin DeVane
Although museums have long valued and catered to families as an audience, museum educators have not always had the tools or training to support the unique nature of family learning or to develop family-specific approaches that are distinct from classroom teaching. In this chapter, we outline a series of research-based principles for understanding family learning and provide examples to illustrate how these principles play out in museums. Specifically, we highlight the importance of (a) recognizing that families have multiple goals, (b) appreciating the central role of parents and other adult
Awareness of a STEM discipline is a complex construct to operationalize; a learner’s awareness of a discipline is sometimes viewed through the lens of personal identity, use of relevant discourse, or knowledge of career pathways. This research proposes defining engineering awareness through a learner’s associations with engineering practices - fundamental processes involved in engineering such as identifying criteria and constraints, testing designs, diagnosing issues and assessing goal completion. In this study, a learner’s engineering awareness was determined by examining 1) their ability to
This paper provides detailed descriptions of the goals, theoretical perspectives, context, and methods used in A study of collaborative practices at interactive engineering challenge exhibits (the C-PIECE Study), the first of two studies in the Designing Our Tomorrow (DOT) research program. The C-PIECE Study supported foundational and exploratory lines of inquiry related to engineering practices used by families engaging with design challenge exhibits. This paper describes the study background and methods as an anchor to four other products that detail these four specific lines of inquiry and
For the past two decades, researchers and educators have been interested in integrating engineering into K-12 learning experiences. More recently, computational thinking (CT) has gained increased attention in K-12 engineering education. Computational thinking is broader than programming and coding. Some describe computational thinking as crucial to engineering problem solving and critical to engineering habits of mind like systems thinking. However, few studies have explored how computational thinking is exhibited by children, and CT competencies for children have not been consistently defined
In 2018, the Croucher Foundation conducted its third annual mapping exercise for the out-of-school STEM learning ecosystem in Hong Kong.
The study reveals a rich and vibrant ecosystem for out-of-school STEM in Hong Kong with over 3,000 discrete activities covering a very wide range of science disciplines. This third report indicates extremely rapid growth in available out-of-school STEM activities compared to 2016 and an even larger increase in the number of organisations offering out-of-school STEM activities in Hong Kong.
STEM educators are eager to foster long term collaboration with
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TEAM MEMBERS:
Siu Po LeeDavid FosterThe Croucher Foundation
This project responds to calls to increase children's exposure and engagement in STEM at an early age. With the rise of the maker-movement, the informal and formal education sectors have witnessed a dramatic expansion of maker and tinkering spaces, programs, and curricula. This has happened in part because of the potential benefits of tinkering experiences to promote access and equity in engineering education. To realize these benefits, it is necessary to continue to make and iterate design and facilitation approaches that can deepen early engagement in disciplinary practices of engineering and other STEM-relevant skills. This project will investigate how stories can be integrated into informal STEM learning experiences for young children and their families. Stories can be especially effective because they bridge the knowledge and experiences young children and their caregivers bring to tinkering as well as the conversations and hands-on activities that can extend that knowledge. In addition, a unique contribution of the project is to test the hypothesis that stories can also facilitate spatial reasoning, by encouraging children to think about the spatial properties of their emerging structures.
This project uses design-based research methods to advance knowledge and the evidence base for practices that engender story-based tinkering. Using conjecture mapping, the team will specify their initial ideas and how it will be evident that design/practices impact caregivers-child behaviors and learning outcomes. The team will consider the demographic characteristics, linguistic practices, and funds of knowledge of the participants to understand the design practices (resources, activities) being implemented and how they potentially facilitate learning. The outcome of each study/DBR cycle serves as inputs for questions and hypotheses in the next. A culturally diverse group of 300+ children ages 5 to 8 years old and their parents at Chicago Children's Museum's Tinkering Lab will participate in the study to examine the following key questions: (1) What design and facilitation approaches engage young children and their caregivers in creating their own engineering-rich tinkering stories? (2) How can museum exhibit design (e.g., models, interactive displays) and tinkering stories together engender spatial thinking, to further enrich early STEM learning opportunities? and (3) Do the tinkering stories children and their families tell support lasting STEM learning? As part of the overall iterative, design-based approach, the team will also field test the story-based tinkering approaches identified in the first cycles of DBR to be most promising.
This project will result in activities, exhibit components, and training resources that invite visitors' stories into open-ended problem-solving activities. It will advance understanding of mechanisms for encouraging engineering learning and spatial thinking through direct experience interacting with objects, and playful, scaffolded (guided) problem-solving activities.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.