A first year Engineering Education doctoral student at Purdue University. Ms. Trina L Fletcher, Purdue University, West LafayetteTrina Fletcher is an Engineering Education doctoral student at Purdue University. Her research focus includes process excellence and total quality management (TQM) methodologies as a way to improve engineering related activities within industry and education. She is also interested in research around recruiting and retaining underrepresented minorities and women in STEM. Prior to Purdue, she spent time in industry holding technical and operations-based roles and has experience with informal STEM community and outreach projects. She holds a BS degree in Industrial Technology and a MS degree in Engineering Management. Hispanic student numbers rose from 3 percent to 13 percent, Asian/Pacific Islander students rose from 2 percent to 6 percent, and the percentage of Black students rose from 9 percent to 14 percent. However, the faculty demographic has not kept pace with the increase in URM enrollment. The percentage of URM faculty has remained flat over the last 20 years, hovering at just a little over 5 percent.Researchers, educators, and practitioners believe that in order for students to succeed academically, they need role models and mentors with whom they can identify. Racial and ethnic diversity has both direct and indirect positive effects on the educational outcomes and experiences of students. The campus climate improves when the diversity of the student population matches that of the faculty. Students from majority groups equally benefit from learning and exchanging ideas in a multicultural environment, offering a wider range of research and a broader representation of alternative perspectives. Therefore, the shift in American demographics over the next ten years changes the question from whether colleges and universities want to support diversity in their faculty distribution to how colleges and universities will accommodate this necessity.Thus, this is a review of the literature on one demographic in engineering academe, the African American woman. African American women are at the intersection of two of the most pervasive prejudices in this country: racism and sexism. This review will unveil some of the unique challenges African American female engineering faculty due to the intersectionality of race and gender. In order, to increase the numbers, the engineering education community must first fully understand the barriers these women face.
Efforts dedicated towards broadening participation for Black and other underrepresented groups in engineering at post-secondary institutions has intensified in recent decades. However, Black women have not yet reached parity in undergraduate engineering degree attainment. To elucidate this trend, data from the U.S. Department of Education was analyzed to investigate postsecondary completion for Black women in engineering. Results indicate that the percentage of degrees awarded to Black women has slightly decreased during the last five years when compared to women of all races. However, the percentage of Black women obtaining engineering degrees has increased when compared to the general Black engineering population, with a larger percentage of Black women obtaining engineering degrees compared to their male counterparts than any other ethnicity. Thus, the purpose of this paper is to provide recommendations for research avenues that may strengthen knowledge around the enrollment and retention of Black women in engineering at post-secondary institutions.
She holds a PhD in Education, an MS in Materials Science and Engineering, and a BS in Mechanical Engineering. Her research is in three interconnecting areas: cross-disciplinary thinking, acting, and being; design cognition and learning; and theories of change in transforming engineering education.
The national imperative to increase the production of computer science and engineering professionals has garnered the attention of both public and private sectors of the economy. As such, private companies, such as Verizon have begun to fund what they call Innovation in Learning (VIL) initiatives that aim to increase participation in these fields. Initiatives such as these, also recognize the need to diversify the engineering workplace by focusing specifically on engaging, inspiring, and motivating underrepresented minority (URM) youth by exposing them to engineering and other STEM concepts. During summer 2017, a southeastern university participated in hosting one of the seventeen Verizon sponsored STEM Camps. The university hosted 144 URM middle school boys for three weeks on campus to explore engineering habits of mind, engineering design principles, and computer science application development fundamentals. The camp was primarily facilitated by fourteen student mentors. One of the principle elements of the camp was to have mentors that reflected the demographics of the student population. As such, the mentor demographics consisted of 12 URM male mentors and 2 URM female mentors. Upon conclusion of the summer camp all of the student mentors were asked to participate in an open-ended survey that inquired about their experiences as studentmentors. The research questions guiding this study were: What role does race and gender have on the development of student mentor relationships? What are the implications of those mentor relationships on STEM identity development of the student-mentors? These research questions were answered through the use of thematic analysis, yielding two main themes: 1) barriers and connections associated with race and gender and 2) development of role identity -specifically the sub-constructs of performance/competence and interest. The results of this study suggest that engaging in mentoring relationships, while motivated by altruistic desires, strengthened STEM role identity development of the student-mentors. Previous literature has demonstrated that salient STEM identity development can contribute to persistence in these fields. Promoting engagement in mentoring opportunities, like summer camps, could aid in increasing and sustaining URM STEM majors.
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