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1. Recognizing the funds of knowledge of first‐generation college students in engineering: An instrument development

   https://doi.org/10.1002/jee.20410  

   Verdín, Dina; Smith, Jessica M.; Lucena, Juan C. (July 2021, Journal of Engineering Education)

   Abstract BackgroundStudents who are the first in their families to attend college are an integral part of undergraduate engineering programs. Growing bodies of research argue that educators could better support these students if they understood the unique backgrounds, experiences, and knowledge they bring with them to higher education. Purpose/HypothesisThe purpose of this article is twofold. First, we identify salient funds of knowledge used by a group of first‐generation college students in their educational and work‐related experiences. Secondly, we use the funds of knowledge identified in our participants' experiences to create a survey instrument. Design/MethodA mixed methods approach was used. Ethnographic interview data of six first‐generation college students were used to hypothesize constructs and create survey items. Survey data were collected from 812 students. Exploratory and confirmatory factor analyses were used to verify the underlying theoretical structures among the survey items and hypothesized constructs. ResultsValidity evidence supported a 10‐factor model as opposed to the hypothesized 6‐factor model. The 10 latent constructs that make up the funds of knowledge instrument are as follows: tinkering knowledge from home, tinkering knowledge from work, connecting experiences, networks from family members, networks from college friends, networks from coworkers, networks from neighborhood friends, perspective taking, reading people, and mediating ability. ConclusionsRecognizing first‐generation college students' funds of knowledge is a first step to creating curricular spaces and experiences that better serve them. A survey scale allows educators to empirically examine how these accumulated bodies of knowledge are transmitted to capital, create advantages in engineering, and provides a useful tool to bridge students' knowledge in the classroom. 

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2. The power of interest: minoritized women’s interest in engineering fosters persistence beliefs beyond belongingness and engineering identity

   https://doi.org/10.1186/s40594-021-00292-1  

   Verdín, Dina (December 2021, International Journal of STEM Education)

   null (Ed.)

   Abstract Backgrounds This study examined how developing an engineering identity through the interplay between interest, recognition, and performance/competence beliefs and establishing a sense of belonging supported women’s persistence beliefs in engineering. Persistence belief in this study is captured through women’s certainty of graduating with an engineering degree. Students’ levels of motivation, affective states, and actions are based on what students believe to be true. Data were gathered from a survey administered to engineering students at nine institutions across the USA. Only female engineering students were used in the analysis. Students were further grouped into categories based on the representation of their race/ethnicity in engineering; 121 women were identified as minoritized in engineering, and 252 were identified as part of the majority group in engineering. Structural equation modeling was used to understand how the development of an engineering identity and modes of belonging (i.e., belonging in the major and in the classroom environment) supported women’s certainty to graduate with an engineering degree. All latent constructs were examined for measurement invariance; partial measurement invariance was achieved. Equality constraints on the structural paths of the model were not enforced to allow for differences across groups. Results Seeing oneself as an engineer (i.e., internal recognition) did not support minoritized women’s certainty to persist toward degree completion, whereas this internal recognition supported majority women’s persistence. Belonging in the major and belonging in the classroom environment did not support minoritized women’s certainty to persist. Establishing a sense of belonging in the classroom environment supported majority women’s certainty to persist. Minoritized women’s persistence toward degree completion was supported by their interest in engineering and their confidence in performing well in engineering coursework. However, interest in engineering was two times more influential toward minoritized women’s persistence than their performance competence beliefs. Conclusion These findings provide educators with a nuanced understanding of how identity development and modes of belonging differentially affect women’s persistence beliefs. These findings suggest that educators need to understand the powerful influence minoritized women’s interest in engineering has on their persistence beliefs and create mechanisms to continuously reinforce interest. 

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3. Recognizing Engineering Students’ Funds of Knowledge: Creating and Validating Survey Measures

   Verdin, Dina; Smith, Jessica; Lucena, Juan (January 2019, Review & directory - American Society for Engineering Education)

   This research base paper examines students who are the first in their families to attend college. Our research seeks to understand the role students’ funds of knowledge makes in first-generation college students’ undergraduate experience. Funds of knowledge are the set of formal/informal knowledge and skills that students learn through family, friends, and communities outside of academic institutions. This paper reports funds of knowledge themes relevant to first-generation college students in engineering and the process of gathering validity evidence to support the funds of knowledge themes. Using ethnographic and interview data, six themes emerged: connecting experiences, community networks, tinkering knowledge, perspective taking, reading people, and mediational skills. Pilot data collected at two institutions were used to run exploratory factor analysis to verify the underlying theoretical structures among the themes. Results of the exploratory factor analysis found that almost all items reliably loaded onto their respective constructs. The funds of knowledge identified in this study are not an exhaustive account, nevertheless uncovering these hidden assets can support first-generation college students to see their experiences as equally valuable knowledge in engineering. We are currently in an ongoing process of collecting a second dataset to perform a confirmatory factor analysis, i.e., the next phase of the validation process for survey instrument development. 

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4. Broadening Participation of First-Generation College Students in Engineering – Backgrounds, Experiences and Strategies for Success

   Smith, Jessica M.; Verdin, Dina; Lucena, Juan (January 2019, Review & directory - American Society for Engineering Education)

   First-generation college students have entered the spotlight of educational research and reform. This shift in perspective has been covered in popular media, for example, in The Chronicle of Higher Education’s series entitled “Engine of Inequality,” which analyzes the challenges facing first-generation college students. However, engineering programs have been slower in responding to this new emphasis on first-generation college students, perhaps assuming that the lack of success of underrepresented groups is a result of deficiencies in the students’ background and preparation. Our research challenges this assumption by explicitly investigating the connections between first-generation engineering students’ success and their experiences within higher education, using a large-scale quantitative survey. Whereas the deficiency perspective focuses on what these students lack and how they need to change themselves in order to adapt to engineering undergraduate curricula, this study seeks to understand how first-generation college student’s funds of knowledge (i.e., family and cultural knowledge developed by growing up in poor and/or working households) can be leveraged in their engineering work and the factors that contribute to their success in engineering. Using ethnographic data of first-generation college students in engineering, from prior work, seven themes were created to capture aspects of students’ funds of knowledge. The themes were classified as follows: community networks, lived experiences, tinkering knowledge from home, tinkering knowledge from work, perspective taking, reading people, and translation among people. To date, the funds of knowledge themes have been validated, at the first level, using exploratory factor analysis with a broad range of engineering students from first-years to fourth-year of higher at two institutions, one in the Midwest and one in the mountain region. Convenience sampling was used to test and validate the funds of knowledge survey constructs. We are currently in our second data collection process. The large-scale survey will be administered to upperclassman and alumni at five participating institutions across the United States, i.e., in a large public polytechnic, small selective private polytechnic, large land grant, large sub-urban public, and large public universities. 

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5. Examining an NSF S-STEM Community College program through an Identity Lens

   Edwards, Jan; Mazilu, Ana (June 2025, https://peer.asee.org/)

   S-STEM scholarships are provided to academically talented low-income engineering students with the intent of increasing retention as well as successful transfer and subsequent graduation rates for a bachelor's degree in an Engineering or Computer Science (ECS) field. Since the spring of 2020, 71 unique students have been awarded scholarships. At this time, there are 22 active scholars, 34 have already successfully transferred to complete their ECS degree and a quarter of those scholars have since graduated. Beyond the financial support, NSF S-STEM programs center on providing academic, social and professional development. In addition, the research component of this program at a midwestern HSI community college is exploring the following questions: Do students recognize themselves as engineers prior to transfer? Do students feel a sense of belonging in their Engineering and Computer Science programs? Does being an NSF S-STEM Scholar impact either of these outcomes? The importance of developing a strong engineering identity as an indicator of persistence to degree completion has been the focus of considerable research over the last fifteen years. However, there is limited understanding of how community college experiences influence engineering identity development. Since the spring of 2020, students have been completing surveys during the first six weeks of the fall semester and during the last four weeks of the spring semester. Engineering identity was explored with questions centered on interest, recognition and competence as well as self-efficacy in skills such as tinkering, design and experimentation. Sense of belonging indicators were examined in terms of inclusion, sense of belonging to the community and sense of belonging to their major. This paper will provide quantitative analysis of the data examining outcomes based on demographics including ethnicity, gender, scholar status and length of time in the program. 

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