- Award ID(s):
- 1734044
- PAR ID:
- 10099255
- Date Published:
- Journal Name:
- Review & directory - American Society for Engineering Education
- ISSN:
- 0092-4326
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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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.more » « less
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Abstract Background Students 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/Hypothesis The 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/Method A 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.
Results Validity 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.
Conclusions Recognizing 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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First-generation college students in engineering accumulate bodies of knowledge through their working-class families. In our ethnographic data of first-generation college students, we identified tinkering knowledge from home and from work, perspective taking, mediational ability, and connecting experiences as knowledge sources brought to engineering. The purpose of this paper was to understand how first-generation college students’ accumulated bodies of knowledge (i.e., funds of knowledge) support their beliefs about performing well in engineering coursework, feeling a sense of belonging in the classroom, and certainty of graduating. Data for this study came from a survey administered in the Fall of 2018 from ten universities across the US. In this study, only the sample of students who indicated their parents had less than a bachelor’s degree (n = 378) were used. A structural equation modeling technique was employed to examine several interconnected research questions pertaining to funds of knowledge, performance/competence beliefs, classroom belongingness, and certainty of graduating with an engineering degree. Our analysis demonstrates that the accumulated bodies of knowledge obtained through tinkering at home, tinkering at work, and the skill of being a mediator served to scaffold concepts that students were currently learning in engineering. There was a negative direct relationship between students’ ability to make connections between their home activities to scaffold what they are currently learning and their certainty of graduating with an engineering degree. However, first-generation college students’ perceptions of performing well in their engineering coursework and their sense of belonging in the classroom positively supported their certainty of graduating thus emphasizing the importance of connecting students’ funds of knowledge to engineering coursework and classroom instruction. Implications for possible approaches towards connecting first-generation college students’ funds of knowledge to engineering coursework and classroom culture are discussed.more » « less
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Abstract Background Identifying as an engineer is essential for belonging and student success, yet the social context and professional norms make it more difficult for some students to establish an identity as an engineer.
Purpose/Hypothesis This study investigated whether first‐generation college students' funds of knowledge supported their engineering role identity.
Design/Methods Data came from a survey administered across the United States western, southern, and mountain regions in the fall semester of 2018. Only the sample of students who indicated they were the first in their families to attend college was used in the analysis (
n = 378). Structural equation modeling was used to understand how first‐generation college students' funds of knowledge supported their engineering role identity; measurement invariance was examined to ensure that the model was valid for women and men alike.Results First‐generation college students' funds of knowledge individually supported the components of the engineering role identity development process. Tinkering knowledge from home and perspective‐taking helped inform interest and performance/competence beliefs. First‐generation college students' bids for external recognition were supported through their mediational skills, their connecting experiences, and their local network of college friends. The bundle of advice, resources, and emotional support from family members was the only fund of knowledge that directly supported students' perceptions of themselves as engineers.
Conclusions The relationships we established between first‐generation college students' funds of knowledge and emerging engineering role identities call for engineering educators to integrate students' funds of knowledge into engineering learning and to broaden disciplinary norms of what counts as engineering‐relevant knowledge.
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This analysis reveals the informal instrumental and socio-emotional support that non-traditional (e.g. Latinx, Black, Indigenous, lower-income, and first-generation) college students receive from family members to combat experiences of marginalization and contribute towards their self-efficacy. Family support can be particularly important for underrepresented undergraduate Science, Technology, Engineering, and Math (STEM) students who have been shown to have higher risks of dropping out of their program and experience lower levels of success indicators (e.g. sense of belonging, self-concept, and STEM identity) compared to their white and Asian peers. Therefore, it is important to further investigate the nuances of family support contributing to non-traditional student retention and success. Utilizing a phenomenological approach, we used open-ended questions during focus groups with community college transfer students to gain their experiences with challenges and feelings of belonging in college and STEM. This article investigates the value family support holds for students in surviving STEM challenges by extending family to include romantic partners and extended family as well as applying the funds of knowledge framework to community college transfer students.more » « less