Recent reports indicate that there are less than 1900 (0.6%) Native American undergraduate and graduate engineering students nationwide (Yoder, 2016). Although Native Americans are underrepresented in the field of engineering, there is very little research that explores the contributing factors. The purpose of our exploratory research is to identify the barriers, supports, and personal strengths that Native American engineering students identify as being influential in developing their career interests and aspirations in engineering. Informed by research in Social Cognitive Career Theory (SCCT; Lent, Brown, & Hackett, 1994, 2000), we conducted an online survey to assess the motivational variables that guide the career thinking and advancement of students preparing to enter the field of engineering. Instrumentation included Mapping Vocational Challenges (Lapan & Turner, 2000, 2009, 2014), Perceptions of Barriers (McWhirter, 1997), the Structured Career Development Inventory (Lapan & Turner, 2006; Turner et al., 2006), the Career-Related Parent Support Scale (Turner, Alliman-Brissett, Lapan, Udipi, & Ergun, 2003), and the Assessment of Campus Climate for Underrepresented Groups (Rankin, 2001), which were used to measure interests, goals, personal strengths and internal and external barriers and supports. Participants (N=23) consisted of graduate (≈25%) and undergraduate (≈75%) Native American engineering students. Their survey responses indicated that students were highly interested in, and had strong self-efficacy for, outcome expectations for, and persistence for pursuing their engineering careers. Their most challenging barriers were financial (e.g., having expenses that are greater than income, and having to work while going to school just to make ends meet) and academic barriers (e.g., not sufficiently prepared academically to study engineering). Perceptions of not fitting in and a lack of career information were also identified as moderately challenging barriers. Students endorsed a number of personal strengths, with the strongest being confidence in their own communication and collaboration skills, as well as commitment to their academic and career preparation. The most notable external support to their engineering career development was their parents’ encouragement to make good grades and to go to a school where they could prepare for a STEM career. Students overall found that their engineering program climates (i.e., interactions with students, faculty, staff, and program expectations of how individuals treat each other) were cooperative, friendly, equitable, and respectful. Study results are interpreted in light of SCCT and recommendations for future research and practice in engineering education are provided.
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The structure of educational inequity: Adolescents’ access to parent education through friendship networks and its impact on academic outcomes
Parents and friends are important influences on adolescents’ academic outcomes. We examine whether and how adolescents’ social networks compensate for or enhance the effects of their parents’ education on academic outcomes. Among a large ethnoracially diverse sample of high school students in the Southwestern (
- NSF-PAR ID:
- 10447404
- Publisher / Repository:
- Wiley-Blackwell
- Date Published:
- Journal Name:
- Social Development
- Volume:
- 31
- Issue:
- 1
- ISSN:
- 0961-205X
- Page Range / eLocation ID:
- p. 27-51
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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Abstract The current study used survey data from 786 African American mother–adolescent (
M = 12.29 years; 48% female) dyads to examine profiles of 7th‐grade parental educational involvement and their associations with adolescents' 11th‐grade academic performance, academic self‐concept, and educational aspirations. Using latent profile analyses, four patterns emerged: (a) Low Involvers; (b) Helpers, Low Providers; (c) Providers, Low Helpers; and (d) More Involved Helpers and Providers. The More Involved Helpers and Providers had adolescents with higher grades than the Helpers, Low Providers and the Low Involvers. The Providers, Low Helpers also had adolescents with higher educational aspirations than other profiles except for the More Involved Helpers and Providers. Findings suggest multiple pathways through which African American parents can enhance adolescents' academic outcomes. -
There is a critical need for more students with engineering and computer science majors to enter into, persist in, and graduate from four-year postsecondary institutions. Increasing the diversity of the workforce by inclusive practices in engineering and science is also a profound identified need. According to national statistics, the largest groups of underrepresented minority students in engineering and science attend U.S. public higher education institutions. Most often, a large proportion of these students come to colleges and universities with unique challenges and needs, and are more likely to be first in their family to attend college. In response to these needs, engineering education researchers and practitioners have developed, implemented and assessed interventions to provide support and help students succeed in college, particularly in their first year. These interventions typically target relatively small cohorts of students and can be managed by a small number of faculty and staff. In this paper, we report on “work in progress” research in a large-scale, first-year engineering and computer science intervention program at a public, comprehensive university using multivariate comparative statistical approaches. Large-scale intervention programs are especially relevant to minority serving institutions that prepare growing numbers of students who are first in their family to attend college and who are also under-resourced, financially. These students most often encounter academic difficulties and come to higher education with challenging experiences and backgrounds. Our studied first-year intervention program, first piloted in 2015, is now in its 5th year of implementation. Its intervention components include: (a) first-year block schedules, (b) project-based introductory engineering and computer science courses, (c) an introduction to mechanics course, which provides students with the foundation needed to succeed in a traditional physics sequence, and (d) peer-led supplemental instruction workshops for calculus, physics and chemistry courses. This intervention study responds to three research questions: (1) What role does the first-year intervention’s components play in students’ persistence in engineering and computer science majors across undergraduate program years? (2) What role do particular pedagogical and cocurricular support structures play in students’ successes? And (3) What role do various student socio-demographic and experiential factors play in the effectiveness of first-year interventions? To address these research questions and therefore determine the formative impact of the firstyear engineering and computer science program on which we are conducting research, we have collected diverse student data including grade point averages, concept inventory scores, and data from a multi-dimensional questionnaire that measures students’ use of support practices across their four to five years in their degree program, and diverse background information necessary to determine the impact of such factors on students’ persistence to degree. Background data includes students’ experiences prior to enrolling in college, their socio-demographic characteristics, and their college social capital throughout their higher education experience. For this research, we compared students who were enrolled in the first-year intervention program to those who were not enrolled in the first-year intervention. We have engaged in cross-sectional 2 data collection from students’ freshman through senior years and employed multivariate statistical analytical techniques on the collected student data. Results of these analyses were interesting and diverse. Generally, in terms of backgrounds, our research indicates that students’ parental education is positively related to their success in engineering and computer science across program years. Likewise, longitudinally (across program years), students’ college social capital predicted their academic success and persistence to degree. With regard to the study’s comparative research of the first-year intervention, our results indicate that students who were enrolled in the first-year intervention program as freshmen continued to use more support practices to assist them in academic success across their degree matriculation compared to students who were not in the first-year program. This suggests that the students continued to recognize the value of such supports as a consequence of having supports required as first-year students. In terms of students’ understanding of scientific or engineering-focused concepts, we found significant impact resulting from student support practices that were academically focused. We also found that enrolling in the first-year intervention was a significant predictor of the time that students spent preparing for classes and ultimately their grade point average, especially in STEM subjects across students’ years in college. In summary, we found that the studied first-year intervention program has longitudinal, positive impacts on students’ success as they navigate through their undergraduate experiences toward engineering and computer science degrees.more » « less
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In this research-based paper, we explore the relationships among Rice University STEM students’ high school preparation, psychological characteristics, and career aspirations. Although greater high school preparation in STEM coursework predicts higher STEM retention and performance in college [1], objective academic preparation and college performance do not fully explain STEM retention decisions, and the students who leave STEM are often not the lowest performing students [2]. Certain psychosocial experiences may also influence students’ STEM decisions. We explored the predictive validity of 1) a STEM diagnostic exam as an objective measure of high school science and math preparation and 2) self-efficacy as a psychological measure on long-term (three years later) STEM career aspirations and STEM identity of underprepared Rice STEM students. University administrators use diagnostic exam scores (along with other evidence of high school underpreparation) to identify students who might benefit from additional support. Using linear regression to explore the link between diagnostic exam scores and self-efficacy, exam scores predicted self-efficacy a semester after students’ first semester in college; exam scores were also marginally correlated with self-efficacy three years later. Early STEM career aspirations predicted later career aspirations, accounting for 21.3% of the variance of career outcome expectations three years later (β=.462, p=.006). Scores on the math diagnostic exam accounted for an additional 10.1% of the variance in students’ three-year STEM career aspirations (p=.041). Self-efficacy after students’ first semester did not predict future STEM aspirations. Early STEM identity explained 28.8% of the variance in three-year STEM identity (p=.001). Math diagnostic exam scores accounted for only marginal incremental variance after STEM identity, and self-efficacy after students’ first semester did not predict three-year STEM aspirations. Overall, we found that the diagnostic exam provided incremental predictive validity in STEM career aspirations after students’ sixth semester of college, indicating that early STEM preparation has long-lasting ramifications for students’ STEM career intentions. Our next steps include examining whether students’ diagnostic exam scores predict STEM graduation rates and final GPAs for science and math versus engineering majors.more » « less
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Parents and friends can help facilitate the academic engagement of newcomer immigrant youth during the early post‐migration years. Using an accelerated longitudinal design and the integrative risk and resilience framework, we examined how parent home involvement and friendships were directly and indirectly associated with the development of newcomer immigrant youths' academic engagement. We used data from three waves (Years 3–5) of the Longitudinal Immigrant Student Adaptation study where a culturally diverse group of immigrant youth (
N = 354, ages 10–17,M timeinUS = 3.98 years,SD = 1.39) in the United States reported on their perceptions of parent home involvement (educational values and communication) and friendship (educational values and academic support) in Year 3 and on their academic engagement (behavioural and emotional) across 3 years. Findings showed high‐stable behavioural and emotional engagement and direct positive associations between perceptions of parent home involvement and initial levels of behavioural and emotional engagement and between perceptions of friend educational values and initial levels of emotional engagement. Additionally, perceptions of parents' educational values indirectly contributed to initial levels of emotional engagement through positive associations with perceptions of friends' educational values. These findings can inform family–school partnerships and school‐interventions targeting newcomer immigrant youths' engagement.
