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.
DiscoverE hired Concord Evaluation Group (CEG) to conduct an independent evaluation of the Future City program. Future City has been operating since 1992. According to DiscoverE, the Future City program is “a national, project-based learning experience where students in 6th, 7th, and 8th grade imagine, design, and build cities of the future. Students work as a team with an educator and engineer mentor to plan cities using SimCityTM software; research and write solutions to an engineering problem; build tabletop scale models with recycled materials; and present their ideas before judges at
Future City, operating since 1992, is “a national, project-based learning experience where students in sixth, seventh, and eighth grade imagine, design, and build cities of the future. Students work as a team with an educator and engineer mentor to plan cities using SimCityTM software, research and write solutions to an engineering problem, build tabletop scale models with recycled materials, and present their ideas before judges at regional competitions in January. Regional winners represent their region at the National Finals in Washington, DC in February.
Future City’s cross-curricular
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 practitioner guide summarizes lessons learned from a three-year design-based research project focused on using elements of narrative (such as characters, settings, and problem frames) to evoke empathy and support girls' engagement in engineering design practices. The guide includes a summary of the driving concepts and key research findings from this work, as well as design principles for creating narrative-based engineering activities. Six activity case studies illustrate the design principles in action, and facilitation tips and observation tools offer practical guidance in developing
Reframing engineering activities to emphasize the needs of others has the potential to strengthen engineering practices like problem scoping, while also providing more inclusive and socially relevant entry points into engineering problems. In a three-year design-based research project, we developed novel strategies for adding narratives to engineering activities to deepen girls’ engagement in engineering practices by evoking empathy for the users of their designs. In this article, we describe a set of hands-on engineering activities developed through iterative development and testing with 190
Using a design-based research approach, we studied ways to advance opportunities for children and families to engage in engineering design practices in an informal educational setting. 213 families with 5–11-year-old children were observed as they visited a tinkering exhibit at a children’s museum during one of three iterations of a program posing an engineering design challenge. Children’s narrative reflections about their experience were recorded immediately after tinkering. Across iterations of the program, changes to the exhibit design and facilitation provided by museum staff corresponded
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TEAM MEMBERS:
Maria MarcusDiana AcostaPirko TouguDavid UttalCatherine Haden
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 document provides a brief story about how the Designing our Tomorrow team explored some of their questions about exhibit features by using the C-PIECE Framework: Framework of Collaborative Practices at Interactive Engineering Challenge Exhibits.
This exploratory line of inquiry looked at relationships between exhibit features and visitor groups’ Informed engineering design practices. This brief includes an Introduction, Methods and Findings, Summary, and Implications.
This exploratory line of inquiry was conducted to inform the development of the Designing our Tomorrow exhibit and
The purpose of this research was to explore associations between engineering practices included in the C-PIECE framework. In this work, we took particular interest in practices under the Defining a Problem proficiency. Practices under Defining a Problem have great potential to influence the entire exhibit interaction and early observations indicated that visitor groups did not engage frequently in these practices at the informed level, therefore they were seen as an opportunity ripe for study. Through observations, interviews, and video analysis, the DOT research team investigated the
Through Project BUILD, a STAR Library Network (STAR Net) program funded by the National Science Foundation, the American Society of Civil Engineers (ASCE) and the Space Science Institute’s National Center for Interactive Learning (NCIL) offered the virtual Dream, Build, Create program which consisted of (1) the award-winning documentary Dream Big: Engineering Our World and (2) five live-streamed panels of diverse engineers (Dream Teams) who shared their stories of what it means to be an engineer.
The external evaluation, conducted by Education Development Center (EDC), aimed to examine how
This paper examines the differences and challenges encountered when trying to create informal blended (virtual and hands-on) engineering design STEM activities. It contrasts the creation of STEM activities for formal and informal learning environments, stressing that the differences extend far beyond the length of the activity or depth of any learning goals. The discussion begins with an examination of differences between the two learning environments that need to be taken into consideration. These differences include the physical environments, organizational structures, and the goals or