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Despite the prevalence and potential of K–12 engineering outreach programs, the moment‐to‐moment dynamics of outreach educators' facilitation of engineering learning experiences are understudied. There is a need to identify outreach educators' teaching moves and to explore the implications of these moves.

We offer a preliminary framework for characterizing engineering outreach educators' teaching moves in relation to principles of ambitious instruction. This study describes outreach educators' teaching moves and identifies learning opportunities afforded by these moves.

Through discourse analysis of video recordings of a university‐led engineering outreach program, we identified teaching moves of novice engineering outreach educators in interaction with elementary student design teams. We considered 18 outreach educators' teaching moves through a lens of ambitious instruction.

In small group interactions, outreach educators used ambitious, conservative, and inclusive teaching moves. These novice educators utilized talk moves that centered students' ideas and agency. Ambitious moves included two novel teaching moves: design check‐ins and revoicing tangible manifestations of students' ideas. Ambitious moves offered students opportunities to engage in engineering design. Conservative moves provided opportunities for students to make technical and affective progress, and to experience engineering norms.

Our work is formative in describing engineering outreach educators' teaching moves and points to outreach educators' capability in using ambitious moves. Ambitious engineering instruction may be a useful framework for designing engineering outreach to support students' participation and progress in engineering design. Additionally, conservative teaching moves, typically considered constraining, may support productive student affect and engagement in engineering design.

 

Abstract Engineering outreach programs often portray outreach educators as role models for youth. It is widely believed that introducing youth, especially girls, to potential engineering role models will broaden participation in engineering majors and careers. Based on interviews with and surveys of fourth- and fifth-grade girls participating in an engineering outreach program, we question whether youth are looking for career role models, and we challenge the assumption that youth will take up an adult as a role model simply because the adult is presented as such. We question what role these ‘‘models’’ play in the minds and lives of youth and argue that it may differ from what we expect. To be clear, we are not arguing that engineering role models are not important or not influential. Rather, we think it is important to gain a better understanding of how youth, particularly girls, view these potential engineering role models, which will allow us to optimize the significance of these adults to the youth participating in engineering outreach. 

Engineering outreach programs have the potential to significantly influence precollege youth; university-led engineering programs reach approximately 600,000 K-12 students each year in the United States. Despite the prevalence of these outreach programs, little is known about the nature of the discursive interactions between outreach ambassadors and participating youths and the ways in which these interactions support youths’ progress in engineering. Understanding the ways in which outreach ambassadors support youth to learn engineering is critical to furthering the effectiveness of these programs and contributes to greater understanding about how to support engineering in K-12 settings. Often, these programs are facilitated by undergraduate and graduate engineering ambassadors who themselves are developing as engineers and educators. In the context of an engineering outreach program for elementary students, this study examines the teaching moves of outreach ambassadors, adds to the understanding of their teaching moves, and offers preliminary conjectures about the impact of these moves on students. This study asks: What kinds of discursive teaching moves do outreach ambassadors enact when interacting with elementary student design teams?  In the focal outreach program, pairs of university students facilitated engineering design challenges in elementary classrooms for one hour each week throughout the school year. We selectively sampled and analyzed four such sessions in four fourth- and fifth-grade classrooms. We used discourse analysis and a lens of ambitious teaching to classify the teaching moves employed during interactions between ambassadors and small groups of students who were engaged in engineering design challenges. We identified a range of moves, including ambitious, inclusive, and conservative teaching moves, across the four sessions. From class to class, we observed variation in distribution of each category of teaching move and we hypothesize that activity design and outreach ambassador orientations toward teaching influence this variation.   Particularly promising for engineering teaching and learning, we observed ambassadors making bids to elicit student ideas, pressing for evidence-based explanations, and revoicing students’ design ideas. These moves are characteristic of ambitious instruction and have the potential to support students to engage in reflective decision-making and to guide students toward productive, more expert engineering design practices. Our analysis suggests that engineering outreach ambassadors notice and respond to students’ ideas, engaging in ambitious teaching practices which can be expected to support elementary students in making progress in engineering design. This analysis of outreach ambassadors’ discursive interactions with elementary student design teams adds to the growing conversation of ambitious instruction in engineering. 

Developing a strong engineering identity, or sense of belonging in engineering, is essential to pursuing and persisting in the field. Participating in an engineering outreach program is widely seen as an opportunity for youth to ignite and increase an identity as an engineer. As early as elementary school, youth evaluate their experiences, interests, and successes to make choices about possible futures. Although these early experiences and choices influence future participation in, pursuit of, and persistence in engineering, studies of engineering identity development have concentrated on undergraduate and high school learners. This study examines engineering identity development in elementary school students participating in an engineering education outreach program, expanding understanding of early influences on engineering identity formation. This study asks: How do students’ descriptions of their engineering experiences indicate the influence their experiences have on their engineering identity development? This study is embedded in an NSF-funded study of a university-led engineering education outreach program. In this program, pairs of university students facilitated weekly hour-long engineering design challenges in elementary classrooms throughout the school year. At the end of the academic year, we conducted semi-structured interviews with 76 fourth- and fifth-grade students who had participated in the outreach program. The interviewers asked students to rate their enjoyment of and skills in engineering within the context of the program. Iterative qualitative coding was used to elicit emergent patterns in students’ responses and examine them in the context of the Godwin et al (2016) engineering identity framework, using the constructs of interest, performance/competence, and recognition. Responses were then analyzed based on participants’ gender to understand and identify potential differences in influences on engineering identity development. Findings indicate that student talk around interest tended to be more positive, while student talk around performance/competence tended to be more negative, indicating the type of relationships students had with their interest in engineering compared to their perceived skills in doing engineering. However, within the construct of performance/competence, girls used negative language at a higher frequency than boys. Within this construct-based code, there were categories with large variations in positive and negative talk by gender. These gendered patterns provide insight into the differing ways girls and boys interact with engineering and how they start to develop engineering identities. 

While engineering grows as a part of elementary education, important questions arise about the skills and practices we ask of students. Both collaboration and decision making are complex and critical to the engineering design process, but come with social and emotional work that can be difficult for elementary students to navigate. Productive engagement in collaborative teams has been seen to be highly variable; for some teams, interpersonal conflicts move the design process forward, while for others they stall the process. In this work in progress, we are investigating the research question, what is the nature of students’ disciplinary talk during scaffolded decision making? We explore this research question via a case study of one student group in a 4th-grade classroom enrolled in an outreach program run by a private university in a Northeastern city. This program sends pairs of university students into local elementary schools to facilitate engineering in the classroom for one hour per week. This is the only engineering instruction the elementary students receive and the engineering curriculum is planned by the university students. For the implementation examined in this study, the curriculum was designed by two researchers to scaffold collaborative groupwork and decision making. The instruction was provided by an undergraduate and one of the researchers, a graduate student. The scaffolds designed for this semester of outreach include a set of groupwork norms and a decision matrix. The groupwork norms were introduced on the first day of instruction; the instructors read them aloud, proposed groupwork scenarios to facilitate a whole class discussion about whether or not the norms were followed and how the students could act to follow the norms, and provided time for students to practice the norms in their engineering design groups for the first project. For the rest of the semester, an anchor chart of the norms was displayed in the classroom and referenced to encourage consensus. The researchers designed the decision matrix scaffold to encourage design decisions between multiple prototypes based on problem criteria and test results. Instructors modeled the use of this decision matrix on the third day of instruction, and students utilized the matrix in both design projects of the semester. Data sources for this descriptive study include students’ written artifacts, photos of their design constructions, and video records of whole-class and team discourse. We employ qualitative case study and microethnographic analysis techniques to explore the influence of the intentional discourse scaffolds on students’ collaborative and decision-making practices. Our analysis allowed us to characterize the linguistic resources (including the decision matrix) that the students used to complete four social acts during decision making: design evaluation, disagreeing with a teammate, arguing for a novel idea, and sympathizing with a design. This research has implications for the design of instructional scaffolds for engineering curricula at the elementary school level, whether taking place in an outreach program or in regular classroom instruction. 

As educators strive to broaden representation in engineering, it is important to take into account how youth perceive themselves in relation to engineering careers. Youth as young as ten years of age are assessing the appeal and achievability of engineering as a career. This study explores preadolescents’ perceptions of the desirability of engineering careers and the self-assessed characteristics which impact students’ interest in engineering. In particular, this work unpacks what attracts elementary students to engineering careers and what these students believe it takes to be an engineer. Drawing from a set of 56 student interviews, this work addresses the research question In what ways are elementary school students thinking about careers in engineering? Existing research indicates that students’ interest in engineering careers declines as students enter middle school; this study contributes to understanding influences on students’ interests when they are on the cusp of deciding whether to pursue engineering study and careers. As part of a study of a university-led engineering education outreach program in elementary classrooms, 5th grade students participated in 15- to 30-minute semi-structured interviews near the end of the academic year. Participants represented four classrooms in two suburban schools in the northeastern United States that had each engaged in 16-18 weeks of hands-on engineering activities led by undergraduate engineering students. Interviews focused on the students’ experiences with engineering and the engineering intervention, students’ role models, and students’ career aspirations. We utilized open coding to analyze the interviews and identified the keywords and themes that students used to describe why an engineering career would be appealing or unappealing and possible or impossible for them. Two themes characterized the interview data; these students’ receptivity to pursuing engineering careers appeared to be mediated by conceptions of engineering careers as involving skill (in idea generation or in creation of technology) or desire (the will to do engineering). This paper utilizes interview data to attend to students’ perspectives and expand our understanding of barriers and gateways to student interest in engineering study and careers. It also discusses the implications of the findings for teaching engineering with an eye on the messages conveyed about the nature of engineering practices, the characteristics of engineers, and how students’ interests intersect with engineering careers. 

nterest in science, technology, engineering, and mathematics (STEM) begins as early as elementary and middle school. As youth enter adolescence, they begin to shape their personal identities and start making decisions about who they are and could be in the future. Students form their career aspirations and interests related to STEM in elementary school, long before they choose STEM coursework in high school or college. Much of the literature examines either science or STEM identity and career aspirations without separating out individual sub-disciplines. Therefore, the purpose of this paper is to describe the development of a survey instrument to specifically measure engineering identity and career aspirations in adolescents and preadolescents. When possible, we utilized existing measures of STEM identity and career aspirations, adapting them when necessary to the elementary school level and to fit the engineering context. The instrument was developed within the context of a multi-year, NSF-funded research project examining the dynamics between undergraduate outreach providers and elementary students to understand the impact of the program on students’ engineering identity and career aspirations. Three phases of survey development were conducted that involved 492 elementary students from diverse communities in the United States. Three sets of items were developed and/or adapted throughout the four phases. The first set of items assessed Engineering Identity. Recent research suggests that identity consists of three components: recognition, interest, and performance/competence. Items assessing each of these constructs were included in the survey. The second and third sets of items reflected Career Interests and Aspirations. Because elementary and middle school students often have a limited or nascent awareness of what engineers do or misconceptions about what a job in science or engineering entails, it is problematic to measure their engineering identity or career aspirations by directly asking them whether they want to be a scientist/engineer or by using a checklist of broad career categories. Therefore, similar to other researchers, the second set of items assessed the types of activities that students are interested in doing as part of a future career, including both non-STEM and STEM (general and engineering-specific) activities. These items were created by the research team or adapted from activity lists used in existing research. The third set of items drew from career counseling measures relying on Holland’s Career Codes. We adapted the format of these instruments by asking students to choose the activity they liked the most from a list of six activities that reflected each of the codes rather than responding to their interest about each activity. Preliminary findings for each set of items will be discussed. Results from the survey contribute to our understanding of engineering identities and career aspirations in preadolescent and adolescent youth. However, our instrument has the potential for broader application in non-engineering STEM environments (e.g., computer science) with minor wording changes to reflect the relevant science subject area. More research is needed in determining its usefulness in this capacity. 

This paper describes the development of a Create-a-Lego-Engineer (CALE) activity which was created as an alternative to the Draw-a-Scientist (DAST) and Draw-an-Engineer Tests (DAET). While the DAST and DAET examine students’ (mis)conceptions of scientists and engineers, they provide limited information about whether students can envision themselves as scientists or engineers now or in the future. We drew from the Lego Serious Play (LSP) method which is grounded on the premise that hands-on learning results in a deeper understanding of the world and oneself in it. The LSP method is a process used to enhance innovation and business development, and it involves adults building metaphorical representations of their identity using Lego bricks. We adapted this process for use with elementary students (3rd-5th grade) in a specific context, namely students are asked to build themselves as engineers and a scene depicting what they would be doing as an engineer. Lego bricks were chosen as they are familiar to most students, are easy to use even without prior experience, and require no special skills or artistic abilities. The activity allows us to explore students’ creations of physical representations of themselves as engineers, including issues related to gender and physical characteristics (e.g., skin color, hair color and style), all of which students can customize using a variety of Lego options. Students are provided with a variety of Lego person pieces in order to try and build a representation of themselves using Legos. Additionally, a wide variety of Lego brick pieces were provided in order to allow for numerous ways in which students might represent engineers doing engineering work. Students were asked to imagine themselves as engineers and then to create their Lego engineer. Next, on a notecard, they described the type of work their Lego engineer would be doing, at which point they were then asked to create this scene using Lego bricks. Finally, after completing their creations, students reflected on the meaning of what they built and verbally described their creation and the choices they made. While these reflections provide additional insight into students’ beliefs about who can be an engineer and what engineers do, they also provide students an opportunity to imagine and see themselves in the role of an engineer. This activity was developed within the context of a multi-year, NSF-funded research project examining the dynamics between undergraduate outreach providers and elementary students to understand the impact of the program on students’ engineering identity and career aspirations. This paper will describe the development of the activity as well as preliminary findings from pilot testing and use with elementary students participating in the overall research project. Potential implications and limitations will be described. 

This work-in-progress papers shares the results of the qualitative analysis of the way in which eleven elementary teachers’ understanding and stance toward engineering design changed as a result of engaging in adult-level engineering design projects. Identified themes showed that many teachers had more expansive conceptions of the engineering design process models and steps and that these understanding had connections to their pedagogical thinking about engineering with children. Implications of these findings and themes for teacher professional development standards, professional development design, and interactions between content knowledge and pedagogical knowledge are discussed.