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1. Civil Engineering Students’ Beliefs about the Technical and Social Implications of Global Warming and When Global Warming Will Impact Them Personally and Others

   Katz, A.; Shealy, T.; Godwin, A. (June 2020, 2020 ASEE Virtual Annual Conference Content Access)

   The United Nations recognizes reducing the effects of global warming as a Sustainable Development Goal (SDG) (#13). This goal is interconnected and critical to improving health and education, reducing inequality, and spurring economic growth globally. Civil engineers will play a vital role in meeting this goal. To understand how civil engineering students perceive global warming, we surveyed a national sample of civil engineering students in their final semester of college (n = 524). We asked them (a) if they recognize both the technical and social issues associated with global warming and (b) when they believe global warming will start to have a severe effect on themselves, others, and the planet. Civil engineering students are significantly more likely to recognize the technical issues associated with global warming than social issues. In particular, the majority of students understand global warming is an immediate issue for the environment, engineering, health, and science, but less than half recognize global warming presents social justice, poverty, and national security issues. Moreover, civil engineering students hold an inverse relationship between spatial distance and the timing of the effects of global warming. The majority of students believe global warming is currently having a severe impact on plant and animal species, the environment, people in developing countries, and the world's poor but do not recognize themselves in this group. Instead, civil engineering students predominantly believe the effects of global warming will start to have a serious impact on themselves, their family, and people in their community in 25 to 50 years. These results are troubling because if those beliefs translate into students waiting to address climate change for another two to five decades locks in more emissions and increases the chance of future and more severe global humanitarian crises. Educational interventions are needed to change these perspectives about time and impact. 

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2. Bringing Social Justice Context into Civil Engineering Courses for First-Year and Third-Year Students

   https://doi.org/10.1061/JCEECD.EIENG-1857  

   Casper, A. M.; Atadero, Rebecca A.; Abdallah, A. Rahman; Siller, Tom (April 2024, Journal of Civil Engineering Education)

   Civil engineering education must be updated to keep pace with the profession and move past a culture of disengagement where technical work is considered separate from societal impact. Civil engineering students need to engage with diversity, equity, inclusion and justice (DEIJ) so they can understand the differential impacts of engineering on individuals from different groups within society. We aim to encourage the transformation of civil engineering education to produce engineers that will be prepared to meaningfully engage with society and advance justice in their future professional roles by providing examples of pedagogical change and analyzing student responses. In this study we implemented new course assignments in an introductory civil engineering course and a civil engineering materials course. In the introductory assignment students were taught to draw systems models and asked to consider social and technical factors contributing to the Hurricane Katrina disaster. In the materials course students completed pre-class readings about a regional highway reconstruction project, including articles about neighborhood opposition to the project, and participated in an in-class discussion. We analyzed student submissions using qualitative content analysis. Students in both courses (33% introductory, 60% materials) described learning about the impact engineering designs had on the community. In the materials class students were asked specifically about the impact of race and wealth on infrastructure decision-making. Student responses showed a wide range in how students understood the history of the situation and dynamics of power and privilege. Errors and limitations in student responses point to specific ways the instructors can improve student learning. Our results demonstrate that the integration of activities about societal impact is possible in technical engineering courses, emphasize the importance of integrating social context and related DEIJ content into technical courses, and provide insights into what students perceived they learned from the activities. 

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3. Measuring Misconceptions About Climate Change Between Freshmen and Senior Civil Engineering Students

   Shealy, T. (June 2018, ASEE Annual Conference proceedings)

   Anthropogenic climate change is irreversibly affecting the planet and society. Civil engineers hold responsibility to design and construct built-environment spaces that decrease climate changing emissions. The purpose of the research presented in this paper is to assess how undergraduate civil engineering programs contribute to this goal. A cross-sectional comparison between data from a prior national survey of freshmen engineering students interested in civil engineering and pilot data from a national survey to senior undergraduate engineering students was used to assess students’ belief in climate change, their understanding of climate science, and desire to address climate change in their careers. The results indicate that senior undergraduate civil engineering students are more likely to believe that climate change is caused by humans (67%) compared to freshmen engineering students (47%). These seniors are also more likely (73%) to agree that action should be taken to address climate change. Yet, only 37 percent hope to personally address climate change in their careers. Senior civil engineering students are more likely than their peers in other engineering disciplines to take classes that include sustainability and climate change as topics (predominately in engineering electives), yet their knowledge of climate science is no better, and in several instances, worse than their engineering peers. For example, civil engineering students are more likely to agree with the statement, “I believe a cause of global climate change is nuclear power generation,” and “I believe a cause of global climate change is the ozone hole in the upper atmosphere.” Undergraduate education is likely contributing to increased belief and recognition to address climate change but an educational gap still persists in understanding. Future research should explore why misconceptions still exist even when climate change is taught in engineering courses and how particular concepts are explained and how student experiences shape understanding and interest. 

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4. Relationship Between Goal Orientation, Agency, and Motivation in Undergraduate Civil Engineering Students

   O'Hara, R.; Benson, L.; Ogle, J.; Bolding, C.J. (July 2021, 2021 ASEE Annual Conference)

   Understanding the underlying psychological constructs that affect undergraduate engineering students’ academic achievement and persistence can inform curricular and programmatic changes in engineering education, with the goal of increasing access and advancement in engineering for a diverse population of students. As part of a larger study examining student experiences in a civil engineering department undergoing curricular and cultural changes, this quantitative study investigated the relationship between goal orientation, agency, and time-oriented motivation, differences in this relationship across academic years, and potential influences from personality types. The larger project seeks to examine the motivation, identity, and sense of belonging for undergraduate civil engineering students; this paper seeks to construct a conceptual model explaining the interactive nature of some of these constructs. A previously tested and established survey that draws from multiple theories of motivation and other affective factors such as agency and identity, and that includes Big 5 personality constructs, was used to collect data from second, third-and fourth-year civil engineering students over a two-year period. Prior studies have focused on the instrument’s latent constructs with sense of belonging. However, no analysis has been conducted to examine how some of the constructs influence each other. Specific latent constructs of goal orientation, agency (students’ beliefs that their career in science or engineering can lead to positive effects on the world), FTP, and personality were selected for secondary data analysis based on theory presented in the literature about relationships between motivation, goal setting, agency, and student perceptions of their future. The sample size of respondents was 843; data cleaning and deletion of missing data (65cases; 7.7%) resulted in a final sample size of 778(92.3% of the original data). This included328 second year, 294 third year and 156 fourth year students. Statistical analyses and modeling included bivariate correlational analysis, MANOVA and MANCOVA. Results indicated significant correlation between goal orientation, agency, and time-oriented motivation. Furthermore, differences in these constructs between academic years and personality type influenced the relationship. FTP differed between sophomores and seniors, with seniors having higher scores, suggesting motivation increases as time in the program increases. Personality significantly influenced these relationships in different ways but had the strongest effect on agency. The findings that certain types of people are not only motivated to go into civil engineering but believe their major will make a difference in the world, have implications for educational practice. Results align with current literature but also shed light onto the effects of personality on time-oriented motivation and agency, expanding theory in engineering education. Further research is needed to determine if the effects of personality hold true for other engineering and science majors. 

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5. Civil engineering students as avoidant actors: Using culturally relevant problem‐solving to increase critical action attitudes

   https://doi.org/10.1002/jee.20507  

   Drake, Riley; Poleacovschi, Cristina; Faust, Kasey M.; True‐Funk, Arie; Kaminsky, Jessica (April 2023, Journal of Engineering Education)

   Abstract BackgroundCivil engineers design systems that have the potential to impact existing oppressive societal conditions. Critical action—the ability to recognize and act against oppressive conditions—is an obligation for civil engineers committed to building a more just world. Purpose/HypothesisHistory reveals that civil engineers often do not take critical action and accrediting bodies (e.g., ABET) have responded by creating requirements to consider social factors and contexts. Considering these endeavors, we ask: To what extent do civil engineering students demonstrate critical action attitudes when prompted by engineering problem‐solving? In what ways does culturally relevant problem‐solving influence critical action attitudes? Design/MethodEmploying transformative action as a theoretical framework, we assessed students' responses to a design question on three levels that perpetuate or disrupt oppression (avoidant, destructive, and critical action). The empirical study used qualitative and quantitative analysis to examine survey responses of 375 civil engineering undergraduate students across 12 US universities. ResultsThe results showed that engineering students largely avoided discussing taking critical action, remaining focused on technical and nontechnical factors that evaded acknowledgement of sociopolitical factors. Nevertheless, when exposed to culturally relevant problem‐solving, students showed a statistically significant increase in both critical and destructive action responses. ConclusionsWe posit that students' exposure to culturally relevant problem‐solving can enhance students' critical action attitudes. The results call on the need for civil engineering educators to cultivate culturally relevant problem‐solving in civil engineering curriculum. 

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