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1. Two Decades of Education and Public Outreach with Chicago Public Schools

   https://doi.org/10.22323/1.395.1367  

   Dwarkadas, Vikram (July 2021, 37th International Cosmic Ray Conference (ICRC2021))

   null (Ed.)

   Over the past two decades, I have been actively involved in teaching astronomy and astrophysics to Chicago Public School (CPS) students and their teachers, in collaboration with various groups as well as by myself. Valuable resources that we have created for schools include the Multiwavelength Astronomy Website, with modules for infrared, optical, ultraviolet, X-ray and gamma-ray astronomy. The content of each lesson is derived from interviews with scientists, archived oral histories, and/or memoirs. Lessons are evaluated by a science educator and at least one subject matter expert before being produced for the web. They are supplemented by NASA media, archival material from the University of Chicago Library and other archives, and participant contributed photographs, light curves, and spectra. Summer programs provided training to CPS teachers to use the resources in their classrooms. Currently, I lead the Chicago Area Research Mentoring (CHARM) initiative. In the past academic year I worked with a class of 17 diverse 11th grade honors students at the University of Chicago Charter School, Woodlawn. Through frequent lectures (∼ every 4 weeks), these students were exposed to astrophysical topics and concepts not normally covered in a school curriculum. CHARM aims to develop the student's critical thinking, introduce them to astrophysical research methods and techniques, and prepare them for a career in science, technology, engineering and mathematics (STEM), particularly a research-oriented one. In this article, I highlight some projects, educational resources, results achieved, and lessons learned along the way. 

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2. Characterizing Student Development Progress: Validating Student Adherence to Project Milestones

   https://doi.org/10.1145/3478431.3499373  

   Erickson, Bradley; Heckman, Sarah; Lynch, Collin F. (February 2022, roceedings of the 53rd ACM Technical Symposium on Computer Science Education V. 1 (SIGCSE 2022))

   As enrollment in CS programs have risen, it has become increasingly difficult for teaching staff to provide timely and detailed guidance on student projects. To address this, instructors use automated assessment tools to evaluate students' code and processes as they work. Even with automation, understanding students' progress, and more importantly, if students are making the 'right' progress toward the solution is challenging at scale. To help students manage their time and learn good software engineering processes, instructors may create intermediate deadlines, or milestones, to support progress. However, student's adherence to these processes is opaque and may hinder student success and instructional support. Better understanding of how students follow process guidance in practice is needed to identify the right assignment structures to support development of high-quality process skills. We use data collected from an automated assessment tool, to calculate a set of 15 progress indicators to investigate which types of progress are being made during four stages of two projects in a CS2 course. These stages are split up by milestones to help guide student activities. We show how looking at which progress indicators are triggered significantly more or less during each stage validates whether students are adhering to the goals of each milestone. We also find students trigger some progress indicators earlier on the second project suggesting improving processes over time. 

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3. Promoting underrepresented minority students’ interest in computer science: Motivation and sustained interest

   Hur, J. (March 2023, Society for Information Technology & Teacher Education International Conference)

   To promote interest in computer science (CS) among minority high school students from low-income families, we offered a one-month Summer Academy followed by a semester-long online group project. A group of 31 minority students from Alabama’s Black Belt areas participated in the program. The purpose of this study was two-fold. First, we examined factors affecting students’ motivation for learning CS. Second, we explored the program’s impact on student's future interest in learning CS. We conducted an individual Zoom interview with all participants, and they were also invited to complete a pre-and post-survey. We also observed classroom teaching during the Summer Academy and facilitated online Zoom meetings in the fall semester on a monthly basis. The findings revealed that early exposure to CS and family encouragement motivated students to explore the field of CS. Students found MIT App Inventor learning, meeting with guest speakers, and group projects most valuable, which positively affected students’ motivation to continue to learn CS. 

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4. Factors Affecting Project Selection in an Open Source Capstone

   https://doi.org/10.1145/3502718.3524760  

   Braught, Grant; Siddiqui, Farhan (January 2022, 27th ACM Conference on on Innovation and Technology in Computer Science Education)

   Free and Open Source Software (FOSS) projects operate transparently, providing excellent educational opportunities for computing students to acquire and practice both technical and softer skills that are in high demand. Humanitarian Free and Open Source Software (HFOSS) projects are FOSS projects that broadly but intentionally aim to improve the human condition. This paper analyzes data from five years of a two-semester capstone experience in which students consider a number of FOSS and/or HFOSS projects and choose one to engage with. Findings support assertions that projects with humanitarian goals are preferred by both women and students with lower confidence in their software development and teamwork skills. The data analysis is suggestive that African American, Black and Hispanic (ABH) students may also show preferences for projects with humanitarian goals. An exploratory analysis of pre-course survey data adds additional insight into how gender, race/ethnicity, student confidence and perceptions of community may influence project selection, helping to identify important directions for further investigation. Collectively the results presented here reinforce suggestions that incorporating HFOSS, or more generally computing with social value, holds potential for broadening participation in computing. 

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5. A Program to Engage Undergraduate and High School Students in Community-Based Research

   Bello, K. O.; Aqlan, F.; Wood, D.; Brockman, J. B.; Marie, H.; Meyers, K.; Lapsley, D. (June 2023, 2023 ASEE Annual Conference & Exposition)

   Community-based research (CBR) is a practice that engages researchers in collaborative, change-oriented, and inclusive projects in the community. One common example of CBR is university-community collaboration in which students and researchers come up with ideas, perspectives, and knowledge at each stage of the project with the goal to address community needs. The community is mainly involved in identifying the research questions for the projects and making decisions about how the results of the research-focused projects will be implemented. This paper presents a replication of a model focused on university-community collaboration, student engagement and Science, Technology, Engineering, and Math (STEM) attraction and retention using three research-focused projects addressing community needs. The three projects are (1) empathic design project aimed at improving quality greenspaces and pedestrian streetscape experience, (2) food justice project to study the disparities in food access between local regions, and (3) analyzing water quality in a local creek. The projects provided a unique opportunity for students to directly experience and contribute to the research process. In addition, students worked closely with their academic peers and community partners who served as collaborators and mentors. The study reports on the impact of the program on student learning and tendency to stay back in the community. The program's collaborative nature and its effect on students' satisfaction while working on specific projects are also examined. Furthermore, the program helped develop and sustain university-community partnerships. The community stakeholders participating in focus groups were satisfied with the process of identifying community projects and also expressed their satisfaction with the students’ work. 

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