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1. Engaging girls in learning engineering through building ubiquitous intelligent systems

   M. Yang, B. Tiwari (January 2022, Proc. IEEE Int’l Conf. Teaching, Assessment, and Learning (TALE))

   Women make up only 28% of the workforce in STEM fields. It’s important to engage more girls in learning STEM; however, girls’ interests in STEM careers keep declining. It is well studied that the lack of sense of belonging underlies gender differences in STEM differentiation and achievement. Researchers have found that secondary girls’ sense of belonging declines as they age. To enhance secondary female students’ interests and self-concept in computing and engineering fields, the UNLV ITEST project sets the focus on engaging Girls in Ubiquitous Intelligence and Computing (GUIC) through a constructivist learning environment. In the GUIC Summer Camp, 40 secondary female students will take three-week training courses in Arduino & Internet of Things and Robotics Design and conduct two-week engineering project development in tiered teams co-mentored by STEM teachers and college student mentors. Based on the active learning method, the training courses are designed with interactive lectures and hands-on labs/activities. The engineering projects in ubiquitous intelligent systems are designed to connect computing & engineering concepts with real-world problems. Project demo results and students’ feedbacks have confirmed the effectiveness of the project activities in enhancing female students’ interests and self-efficacy in learning engineering and STEM. The unique constructivist learning environment is helpful in improving female students’ sense of belonging in STEM. 

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2. Understanding STEM Outcomes for Autistic Middle Schoolers in an Interest-Based, Afterschool Program: A Qualitative Study

   https://doi.org/10.1007/s11165-024-10158-5  

   Murthi, Kavitha; Chen, Yu-Lun; Martin, Wendy; Riccio, Ariana; Patten, Kristie (January 2024, Research in Science Education)

   Abstract Current research underscores that there are only a few evidence-based programs that teach STEM (science, technology, engineering, and mathematics) as part of their curriculum, especially for autistic students. Even fewer programs focus on engineering and design learning. Hence, we developed an informal afterschool maker program to develop autistic and non-autistic students’ interests in engineering to understand their experiences learning STEM concepts and values while applying the engineering mindset to develop projects. This qualitative study aimed to explore and understand students’ experiences participating in STEM activities in the maker club. We interviewed twenty-six students (seventeen autistic and nine non-autistic), nine teachers, and thirteen parents representing diverse cultural and socio-economic backgrounds across three public middle schools in a large urban metropolitan city between 2018 and 2019. Our thematic analysis yielded four themes:(1) active participation in STEM; (2) curiosity about STEM topics, concepts, and practices, (3) capacity-building to engage in STEM learning; and 4) understanding of the importance of STEM education in daily life.The results of this study enabled us to understand that students were deeply engaged with the content and curriculum of our program, expanded their knowledge base about scientific concepts, used engineering-specific scientific terminologies, and engaged with the engineering design process to conceptualize, test, improvise, and problem-solve. Furthermore, this afterschool engineering education program created a safe, nurturing, and stimulating environment for students to build engineering readiness skills. 

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3. Evaluation of STEM Engagement Activities on the Attitudes and Perceptions of Mechanical Engineering S-STEM Scholars

   https://doi.org/10.1115/1.4051715  

   Zhu, Liang; Sun, Shuyan; Timmie Topoleski, L. D.; Eggleton, Charles; Ma, Ronghui; Madan, Deepa (December 2021, Journal of Biomechanical Engineering)

   null (Ed.)

   Abstract Since 2009, the mechanical engineering (ME) scholarship-science technology engineering and mathematics (S-STEM) Program at the University of Maryland Baltimore County (UMBC) has provided financial support and program activities to ME undergraduate students aiming at improving their retention and graduation rates. The objective of this study is to identify program activities that were most effective to help students for improvements. Current ME S-STEM scholars were asked to complete a survey that measures their scientific efficacy, engineering identity, expectations, integration, and sense of belonging, as well as how program activities impact their attitudes and perceptions. Analyses of 36 collected surveys showed that scholars reported high levels of engineering identity, expectations, and sense of belonging. However, further improvements were needed to help students in achieving scientific efficacy and academic integration into the program. Results demonstrated that pro-active mentoring was the most effective method contributing to positive attitudes and perceptions. The implemented S-STEM research-related activities and internship were viewed favorably by the scholars in helping them establish their scientific efficacy and engineering identity, and understand their expectations and goals. Community building activities were considered helpful for them to integrate into campus life and improve their sense of belonging to the campus and program. Scholars identified mentoring, research related activities, internships, and social interaction with faculty and their peers as important factors for their retention and graduation. Although the sample size was small in the study, we believe that the cost-effective activities identified could be adopted by other institutions to further improve students' retention and graduation rates in engineering programs. 

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4. Global Impact of Experiment-centric Pedagogy and Home-based, Hands-on Learning Workshop at a Historically Black University

   Owolabi, O. A. (July 2021, 2021 ASEE Virtual Annual Conference Content Access)

   null (Ed.)

   With support from the National Science Foundation, an evidence-based experimental centric pedagogy (ECP) is being implemented across STEM disciplines at an historically black university. This is the first of its kind, where the ECP is being extended to several STEM disciplines after its successful implementation in electrical engineering to promote motivation and enhance academic achievement of minority students. One of the project objectives is to organize workshops whereby STEM faculty in biology, chemistry, physics, civil engineering, computer science, industrial engineering and transportation systems will learn how to develop and implement ECP as an active learning pedagogy. This paper highlights the strategies used for planning, publicity, implementation, and assessment of the workshop conducted in Summer 2020. Due to the ongoing pandemic, the workshop was held virtually with 360 participants registering globally. The workshop’s focus was developing and implementing inexpensive home-based hands-on learning activities. Workshop assessment revealed that participants expressed positive outcomes, 84% reported that they believe the workshop was a good use of their time and 83% said they plan to implement what they had learned at the workshop in their own practice, affording the participants more opportunities to include home-based hands-on learning in their curriculum. This project seeks not only to increase public scientific literacy, but to also contribute to the development of a diverse, globally competitive STEM workforce. 

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5. Changemakers: Influences on Engagement in STEM Curricula Among Underrepresented Youth

   https://doi.org/10.12973/ejper.5.2.103  

   Konowitz, Lily; Lund*, Terese; Lincoln, Brenna; Reed, Madeline; Liang, Belle; Barnett, Mike; Blustein, David (December 2022, European Journal of Psychology and Educational Research)

   Despite the desirability of working in science, technology, engineering, and math (STEM), Black and Latinx people are underrepresented in these fields. Sustaining engagement in STEM is central to addressing the representation gap. This qualitative study examined whether and how a STEM-based after-school program (Changemakers) impacted students’ sense of engagement in STEM. Changemakers incorporates the basic tenets of STEM engagement and a purpose curriculum to increase students' sense of engagement. Purpose is an aspiration towards future-oriented goals, active engagement with one’s goals, and intention to contribute to the world. The sample was composed of students, ages 15-17 years old (N=10, 5=M; 5=F), from a public, low-income high school. Findings suggested that three elements helped engage participants with STEM material: challenging and novel curriculum, experiential learning, and supportive relationships. These findings underscore additional STEM programs can enhance their student’s learning and connection to the field by ensuring that their program encapsulates these identified components. 

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