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1. Preliminary Findings on Students’ Beliefs about Intelligence

   Adams, Allison; Betz, Amy; Dringenberg, Emily (January 2019, ASEE Annual Conference proceedings)

   The goal of this project is to better understand the beliefs that undergraduate students hold about their own intelligence and how these beliefs change during their undergraduate engineering education. The research team has used the theoretical framework established by Carol Dweck on Mindset and how different fixed and growth mindsets affect success. Fixed mindset individuals believe that their intelligence is an unchanging trait, while people with a growth mindset believe that through effort they can grow and develop greater intelligence. Prior researchers have shown that individuals with a growth mindset respond to challenges with higher levels of persistence, are more interested in improving upon past failures, and value criticism and effort more than those with a fixed mindset. The team developed an interview protocol from the theoretical framework. Then the team piloted the protocol and subsequently modified the protocol multiple times to ensure that the interviews provided rich qualitative data. Analytic memos were used to analyze and modify the piloted interview protocols. Once the final protocol was established, first-year and senior students were recruited to provide cross-sectional insight. The team also recruited using purposeful sampling to ensure that women and underrepresented minorities were included. To date, 19 interviews have been conducted with the final protocol. Of these interviews, four have been coded in detail using the “Attitudes, Values, and Beliefs” coding system. A codebook has also been started to categorize and interconnect the themes in the interview transcripts. This paper provides details of the protocol and coding process as well as preliminary findings on the themes extracted from the student interviews. 

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2. Assessing Global Engagement Interventions to Advance Global Engineering Competence for Engineering Formation (Work in Progress)

   Schneider, Scott J.; Mowrey, Corinne; Janz, Eric; Vasquez, Eric S.; Murzi, Homero; Witenstein, Matthew A.; Holcomb, Jeanne (January 2023, ASEE Annual Conference proceedings)

   An increasingly global environment expects graduating Engineering students to perform, live and work across cultures. Most intercultural competence research and associated global engineering education is focused on developing the global engineering skill set through long-term travel experiences such as study abroad programs. These programs can be expensive from both a time and money standpoint, limiting the participation to more privileged members of a community, and are not scalable to support broader participation. This work-in-progress addresses this research gap by focusing on the development of the students’ global learner mindset without requiring extensive travel. The project will investigate four different global engagement interventions, including the use of engineering case studies, the intentional formation of multi-national student teams, a Collaborative Online International Learning (COIL) research project, and a community engaged project within a short course. These interventions can be used to develop a holistic global learner mindset and global engineering education approach to foster global competence in undergraduate engineering students. The four global engagement interventions will be grounded in the global engineering competency (GEC) theoretical framework and assessed for their ability to foster a global learner mindset in engineering students. A mixed-methods approach will be used to assess students’ global learner mindset and skill set. This research will use the Global Engagement Survey (GES), the Global Engineering Competency Scale (GECS) and specific questions developed by the researchers to evaluate improvements in the participating students’ global engineering skill set and answer specific research questions including: 1) To what extent can global competence be developed in engineering students through the use of the proposed global engagement interventions; and 2) what are the relative strengths of each of the proposed global engagement interventions in developing global engineering competence? Combined, these research measures will provide both an accurate picture of how each global engagement intervention impacts the formation of a global learner mindset in engineering education, and also its associated ability to develop and/or improve global engineering skills. The outcomes of this study will generate valuable knowledge to understand how each global engagement intervention impacts the formation of global engineering competence. In this work-in-progress study, the authors discuss the four global engagement interventions with specific learning objectives that have been mapped to the overall student outcomes for the project. These objectives have also been mapped to the GES and GECS instruments. Finally the faculty members have developed qualitative tools to augment the GES and GECS to identify the global engineering skill sets each intervention is generating. This paper lays the foundation before implementing the interventions and performing their associated assessments over the several subsequent semesters. 

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3. Assessing Global Engagement Interventions to Advance Global Engineering Competence for Engineering Formation

   Schneider, S. (June 2023, Review directory American Society for Engineering Education)

   An increasingly global environment expects graduating Engineering students to perform, live and work across cultures. Most intercultural competence research and associated global engineering education is focused on developing the global engineering skill set through long-term travel experiences such as study abroad programs. These programs can be expensive from both a time and money standpoint, limiting the participation to more privileged members of a community, and are not scalable to support broader participation. This work-in-progress addresses this research gap by focusing on the development of the students’ global learner mindset without requiring extensive travel. The project will investigate four different global engagement interventions, including the use of engineering case studies, the intentional formation of multi-national student teams, a Collaborative Online International Learning (COIL) research project, and a community engaged project within a short course. These interventions can be used to develop a holistic global learner mindset and global engineering education approach to foster global competence in undergraduate engineering students. The four global engagement interventions will be grounded in the global engineering competency (GEC) theoretical framework and assessed for their ability to foster a global learner mindset in engineering students. A mixed-methods approach will be used to assess students’ global learner mindset and skill set. This research will use the Global Engagement Survey (GES), the Global Engineering Competency Scale (GECS) and specific questions developed by the researchers to evaluate improvements in the participating students’ global engineering skill set and answer specific research questions including: 1) To what extent can global competence be developed in engineering students through the use of the proposed global engagement interventions; and 2) what are the relative strengths of each of the proposed global engagement interventions in developing global engineering competence? Combined, these research measures will provide both an accurate picture of how each global engagement intervention impacts the formation of a global learner mindset in engineering education, and also its associated ability to develop and/or improve global engineering skills. The outcomes of this study will generate valuable knowledge to understand how each global engagement intervention impacts the formation of global engineering competence. In this work-in-progress study, the authors discuss the four global engagement interventions with specific learning objectives that have been mapped to the overall student outcomes for the project. These objectives have also been mapped to the GES and GECS instruments. Finally the faculty members have developed qualitative tools to augment the GES and GECS to identify the global engineering skill sets each intervention is generating. This paper lays the foundation before implementing the interventions and performing their associated assessments over the several subsequent semesters. 

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4. Impact of Innovative Technology-Related Interventions on K–12 Students' STEM Career-Related Outcomes: A Meta-Analysis

   https://doi.org/10.3102/1893342  

   Li, Yue; Dixon, Maressa; Jacobsen, Anna Liss; Maltbie, Anna C.; Woodruff, Sarah B. (April 2022, Impact of Innovative Technology-Related Interventions on K–12 Students' STEM Career-Related Outcomes: A Meta-Analysis)

   This meta-analysis study reviews and synthesizes research and evaluation findings demonstrating the effects of integrating innovative technologies and technology-based learning experiences in STEM education on K-12 students’ STEM career-related outcomes. This study synthesizes a body of research from 1995 to the present, across characteristics of technology-based STEM education interventions, learning contexts, student demographics, and study designs. This study develops an understanding of the extent to which the effects of technology-based STEM education interventions are different for students who are traditionally underserved and underrepresented in STEM education. Findings suggest such interventions have small, positive effects on students’ STEM career outcomes. Interventions serving underrepresented students had larger influences on students’ career outcomes than those serving general student populations. 

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5. Chapter Five - Beliefs, affordances, and adolescent development: Lessons from a decade of growth mindset interventions

   Cameron Hecht; David Yeager; Carol Dweck; Mary Murphy (June 2021, Advances in child development and behavior)

   Beliefs play a central role in human development. For instance, a growth mindset—a belief about the malleability of intelligence—can shape how adolescents interpret and respond to academic difficulties and how they subsequently navigate the educational system. But do usually-adaptive beliefs have the same effects for adolescents regardless of the contexts they are in? Answering this question can reveal new insights into classic developmental questions about continuity and change. Here we present the Mindset × Context framework and we apply this model to the instructive case of growth mindset interventions. We show that teaching students a growth mindset is most effective in educational contexts that provide affordances for a growth mindset; that is, contexts that permit and encourage students to view ability as developable and to act on that belief. This evidence contradicts the “beliefs alone” hypothesis, which holds that teaching adolescents a growth mindset is enough and that students can profit from these beliefs in almost any context, even unsupportive ones. The Mindset × Context framework leads to the realization that in order to produce more widespread and lasting change, we must complement the belief-changing interventions that have been aimed at students with new interventions that guide teachers toward classroom policies and practices that allow students' growth mindset beliefs to take root and yield benefits. 

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