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1. Development and Evaluation of Cybersecurity Education Games for High School Students

   Jin, Ge; Tu, M.; Kim, T.; Heffron, J.; White, J.; Trekles, A. (September 2018, International journal of engineering research & innovation)

   Cybersecurity workforce development is the key to protecting information and information systems, and yet more than 30% of companies are short on security expertise. To address this need, the current authors have developed four cybersecurity education games to teach social engineering, secure online behavior, cyber defense methods, and cybersecurity first principles. These games are intended to recruit the next generation cybersecurity workforce by developing an innovative cybersecurity curriculum and pedagogical methods to provide high school students with hands-on activities in a game-based learning environment. Purdue University Northwest (PNW) offered high school summer camps for 181 high school students in June of 2016 and June of 2017. Out of 181 high school participants, 107 were underrepresented minority students, including African Americans, Hispanics, Asians, and Native Americans. To evaluate the effectiveness of the cybersecurity education games, post-camp surveys were conducted with 154 camp participants. The survey results indicated that the games were very effective in cybersecurity awareness training. Furthermore, the cybersecurity education games were more effective for male students than female students in raising student interest in computer science and cybersecurity. 

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2. Pre-College Summer Program in Entrepreneurial and Design Thinking Influences STEM Success for African American Students

   https://doi.org/10.15695/jstem/v7i2.03  

   Jackson, Caesar R; Whittington, Dawayne; Bradley, Tanina (February 2024, The Journal of STEM Outreach)

   Shepherd, Virginia L; Chester, Ann; Bass, Kristin M (Ed.)

   Sustained innovation and economic strength of the U.S depends on a greater participation of underrepresented minorities in science, technology, engineering, and mathematics (STEM). University-based outreach programs that serve African American and other minority populations should do more to infuse invention education in activities that engage pre-college students from these groups to motivate them to pursue STEM degrees. The Research, Discovery, and Innovation (RDI) Summer Institute is a design and science entrepreneurship program that is offered at North Carolina Central University to high school seniors who have been accepted for admission to a STEM degree program at the university. This study found the RDI Summer Institute program to be effective based on proximal outcomes of gains in composite entrepreneurial thinking skills (entrepreneurial, managerial, engineering design, and technical skills) as perceived by the participants and measured by pre- and post-surveys. Eighty-seven percent of the pre-college participants were African Americans, showed high levels of creativity and innovativeness, and presented product ideas that were conscientious in meeting their community needs. Program impact was assessed based on near-term and distal academic outcomes in college through a rigorously designed quasi-experiment which compared 31 case-control matched pairs of students who had been RDI participants and non-RDI participants. A conditional logistic regression showed first-year retention in STEM degree programs for students who had been RDI participants was five times that of students who had been non-RDI participants. Additionally, first-year STEM retention in differential comparisons favored female students, students from very low/low SES households, and students from single parent households. Also, students who had been RDI participants performed higher in STEM gatekeeper courses, and a strong positive impact of the RDI Summer Institute program was associated with higher STEM persistence even two and three years after pre-college students participated. 

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3. Encouraging STEM Careers among Minoritized High School Students: The Interplay between Socio-Environmental Factors and Other Social Cognitive Career Constructs

   https://doi.org/10.3390/educsci14070789  

   Durham, Rachel E; Falk, Michael L; Daniels, Alexis G; Reigel, Allison; Sparks, Alisha; Williams, Margo; Yanisko, Emily J (July 2024, Education Sciences)

   Performance in math, particularly algebra, is a major barrier to student success and participation in STEM among under-represented minoritized students, particularly Black U.S. high school students. This research applies social cognitive career theory (SCCT) to measure the impacts of an afterschool algebra for engineering program on math self-efficacy and interest in STEM among high school students in a large urban district. To study the program’s effects, a mixed methods research design was used where schools were assigned to either treatment or control conditions. Students in treatment schools accessed algebra for engineering modules, STEM professional role model videos, and field trips, while students in control schools accessed role model videos and field trips only. Surveys measuring math self-efficacy and STEM interest, outcome expectations, and choice goals were completed by participants in both conditions at the beginning and end of two separate program years, 2021–2022 and 2022–2023. Across both years, quantitative results suggest some positive effects of participation, particularly for STEM choice goals, but benefits depend upon student participation levels. Qualitative data offer student voice around prior experiences in math and science and the development of postsecondary plans in STEM. In combination, the results suggest that for students who do not initially identify as STEM career-bound, afterschool programming may not necessarily promote preparation for STEM careers due to an accumulation of weak math and science school experiences and other socio-environmental influences. 

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4. Self-Efficacy Versus Gender: Project-Based Active Learning Techniques in Biomedical Engineering Introductory Computer Programming Courses

   https://doi.org/10.1115/1.4047924  

   Cyrus Rezvanifar, S.; Amini, Rouzbeh (November 2020, Journal of Biomechanical Engineering)

   null (Ed.)

   Abstract Engineering education has increasingly embraced active learning techniques within a variety of curricula. In particular, project-based active learning techniques have a significant potential to enhance students' learning experience. In this study, we implemented project-based techniques in biomedical engineering (BME) classes, and we investigated the effects of active learning on students' self-efficacy as an effective predictor of students' academic persistence and their career decision-making. Differences in self-efficacy were compared across genders. A high level of internal consistency was observed for both academic and career-oriented scales, as determined by Cronbach's alpha values of 0.908 and 0.862, respectively. While average scores of all survey questions indicated improvement in students' academic and career-oriented self-efficacy measures, significant improvements were observed in “clearer vision of programming application in engineering” and “BME careers,” as well as in “expectation of success in a future BME career that involves developing medical devices” after the completion of the project-based activity (p = 0.002, 0.023, and 0.034, respectively). For two of the survey questions, female students reflected a significantly lower “self-confidence about understanding the most complex course material” as well as a significantly lower “willingness to have a future career in BME that involves intensive computer programing” as compared to male students (p = 0.035 and 0.024, respectively). We have further discussed possible explanations for the observed differences and multiple potential ways to enhance gender equality in STEM fields from a self-efficacy standpoint. 

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5. Creating a Constructivist Learning Environment to Enhance Secondary Female Students’ Engagement in STEM Activities

   Shaoan Zhang, Daniel Unger (April 2022, 2022 AERA ANNUAL MEETING)

   Female students participate in STEM activities at a low rate compared to males. Educational researchers have called for studies which examine the factors that influence STEM participation. The purpose of this study is to examine how a unique learning structure built on the principals of constructive learning environments might impact students’ sense of belonging and encourage them to participate in more STEM activities. For this qualitative study, interviews were conducted with 12 mentor and 17 student participants. Findings indicated that a constructive learning environment enhanced students’ sense of belonging. Programs which enhance female students’ sense of belonging impact their confidence to participate in more STEM activities. This study contributes to research in learning environment theory and STEM education practice. 

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