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This Complete Research paper will describe the implementation of an introductory course (ENGR194) for first semester engineering students. The course is meant to improve retention and academic success of engineering first-year students in the College of Engineering at the University of Illinois at Chicago. The implementation of this course is part of an ongoing National Science Foundation (NSF) Scholarships in Science, Technology, Engineering, and Math (S-STEM) project. This paper reports on the impact of combinatorial enrollment in ENGR194 and a previously described two-week Summer Bridge Program (SBP) offered only for entering S-STEM scholars before their first semester. To measure the impact of this course on student retention and academic success, various evaluation metrics are compared for three separate Comparison Groups (C-Groups) of students. The results show that the ENGR194 course had a significant positive impact on the first-year retention rate. The results also revealed that students who participated in both ENGR194 and SBP (C-Group 1) made changes to their declared majors earlier than students who had only taken ENGR 123 or neither of the courses (C-Groups 2 and 3 respectively). Furthermore, students in C-Group 1 received better grades in math and science than their peers, and students in C-Groups 1 and 2 had significantly higher GPAs than their peers in C-Group 3. 

This work-in-progress research paper explores the way in which low-socioeconomic status (SES), first-year undergraduate engineering students develop their engineering identity. Identification with the field of engineering, or engineering identity development, is an ongoing process for students. While scholars have used retrospective studies to understand the developmental aspect of this process, a longitudinal study that follows students' engineering identity development could provide an advantageous viewpoint. In this study, we investigate the engineering identity profiles of incoming low-SES, high-achieving engineering students. We interviewed 13 students using a protocol focused on understanding the students' engineering identity profiles before entering engineering school. An integrated model of engineering identity development was used to frame the research and guide the analysis. Our preliminary results show existing pre-college identity-related patterns across students as well as initial ways of identifying with their major and engineering as a field. This work has contributions to research in the areas of engineering identity development as well as broadening understanding of engineering students who are both low-income and high-achieving. Our work has practical implications for academic and professional support programs for low-income engineering students and programs that aim to support engineering identity development. 

This paper provides detailed information for a poster that will be presented in the National Science Foundation (NSF) Grantees Poster Session during the 2020 ASEE Annual Conference & Exposition. The poster describes the progress and the state of an NSF Scholarships in Science, Technology, Engineering, and Math (S-STEM) project. The objectives of this project are to 1) enhance student learning by providing access to extra- and co-curricular experiences, 2) create a positive student experience through mentorship, and 3) ensure successful student placement in the STEM workforce or graduate school. S-STEM Scholars supported by this program receive financial, academic, professional, and social development via various evidence-based activities integrated throughout their four-year undergraduate degrees beginning during the summer prior to starting at the University. The paper describes the characteristics (demographics, high school GPA, ACT/SAT scores, etc.) of the Scholars supported by the S-STEM grant. The paper also provides information about the completed tasks of the project to date. The completed tasks include a system for recruiting academically talented and economically disadvantaged students, a Summer Bridge Program (SBP), a first semester introductory engineering course, and a system to recruit and maintain faculty mentors. The ongoing tasks include the execution of a service learning project course and a system for recruiting industry mentors. This paper reports detailed assessment and evaluation data about different project tasks and the academic success metrics of the Scholars. It also lists a set of recommendations based on the lessons learned in this S-STEM project.