Building Whole Black Youth: A Case of a Culturally Relevant STEM Educator at the Hit Makers Summer Camp

Tikyna Monique Dandridge (16819092)

11 August 2023

<p>This dissertation research used an embedded qualitative case study research design to investigate a single educator’s actions in teaching Black youth engineering and computing in a culturally appropriate and accessible manner. Historically, the engineering discipline has preserved and upheld Eurocentric standards for how learners should think and practice, perpetuating the marginalization of racially and ethnically diverse learners, such as Black American children. Such standards have excluded and pushed out diverse learners, and it is not uncommon for Black youth seeking entry into precollege engineering pathways to make trade-offs that require them to compromise their culture, linguistic practices, literacy practices, histories, and authentic selves in order to succeed. Given the educational debt that persists in K-12 education for Black American learners, approaches that are meaningful, engaging, and culturally oriented should align with teaching engineering and computing alongside Black Americans' historical and current racial inequities, injustices, and disenfranchisement. The research problem addressed in this dissertation study is the significance and influence of the culturally centered and community servant facilitator who teaches with relevance to the development of the whole Black child's mind, body, and soul while developing their knowledge in engineering and computing.</p><p>This project was founded on an asset-focused culturally relevant pedagogy to reveal how a Black STEM educator’s teaching supported the STEM learning of Black youth at an intentionally designed informal summer camp— Hit Maker Summer Camp (Hit Makers). Hit Makers was purposefully designed by a collaborative group of educators, directors, researchers, and artists at the intersection of engineering, computing, hip-hop culture, dance, and Makerspace culture for 28 Black youth learners who resided in a mid-sized Midwestern city. This study investigated the teaching practices enacted by the STEM educator that led the Black youth learners to become more academically, socio-politically, and culturally engaged in STEM. The facilitator’s beliefs, role, ethos, and influence were investigated using a data corpus that included a single narrative interview, in-field observations by the researcher, facts gathered from ongoing conversations (2019 - 2022), and video and audio recordings of the facilitator while teaching.</p><p>A qualitative embedded case study design was employed for this research. Data collection occurred continuously from July 2019 to February 2022, utilizing a range of methods including in-situ field observations, video and audio recordings, and a formal online interview. The findings of this study underscore the influence of Black STEM educators' beliefs and previous instructional approaches on their teaching practices within the context of Hit Makers Summer Camp. Notably, the enacted teaching practices demonstrated a significant alignment with the tenets of culturally relevant pedagogy, particularly in the domains of academic success and cultural competence. Although the alignment with sociopolitical consciousness within the pedagogical framework was less pronounced, it is evident that the educator’s teaching philosophies were deeply entrenched in their own sociopolitical awareness. The study's findings empower educators in precollege engineering education to transcend traditional teaching paradigms by unraveling the interplay between pedagogical philosophies and culturally resonant practices, offering a tangible blueprint for fostering deeper connections with students, promoting diversity, and dismantling barriers to empower historically underrepresented Black students to excel in STEM.</p>

Engineering education

engineering educational research

Precollege STEM preparation

Black youth

Development and Initial Validation of an Innovation Assessment

Wheadon, Jacob D.

06 July 2012

In the past two decades, there has been an increased demand for more innovative individuals and organizations. In response to this need, a number of groups have begun to teach innovation courses to improve people's innovation skills. While many of these groups report success in helping people become more innovative, there is no way to test the effectiveness of the innovation courses. This study describes the development and initial validation of an innovation test instrument. It demonstrates how the author identified the content domain of the test and created test items. Then it describes initial validation testing of the instrument. This study found that this assessment is a good first step in creating an innovation assessment that covers more of the full process of innovation than previous tests. It still needs further validation and improvement to make strong claims about its ability to determine the effectiveness of an innovation course.

innovation

assessment

validity

creativity

Educational Methods

Engineering Education

An Investigation of the Impact of a Flipped Classroom Instructional Approach on High School Students' Content Knowledge and Attitudes Toward the Learning Environment

Bell, Matthew R

01 March 2015

The idea of the “flipped classroom” is a relatively new concept in education that has become increasingly popular. Instructors who flip their classrooms reverse the roles of school work and homework by recording video lectures for students to watch before coming to class. Students then work on their homework in the classroom while the instructor is present to help them. Very little research has been done on the effectiveness of the flipped classroom to determine if students can perform better on exams by learning in a flipped classroom environment, especially for high school demographics. The purpose of this research is to add to the body of knowledge and help provide data to investigate how well students learn physics content by using the flipped classroom in a high school physics class and identify students' attitudes towards the flipped classroom. Seven periods of Physics with Technology at Lone Peak High School in Highland, UT were used in this study. Three of the classes were randomly assigned to be “flipped” while the other four were taught using what is considered a “traditional” method of instruction of physics, which is based on a guided inquiry method. The pacing and content was matched each day and all classes participated in the same labs, homework, quizzes and tests. The defining difference is the method which the content is covered. The flipped classes watched video lectures at home to learn the majority of the content, then did what is traditionally known as “homework” in class with the teacher present to help. In this study, it was found that there was no statistically or practically significant difference in mean test scores for the first three units in a high school Physics with Technology class. Student responses on a survey also showed very little statistically different in the students' attitudes towards the classroom environment in either instructional method.

flipped classroom

inverted

instruction

education

Educational Methods

Engineering Education

Students' Perspective on the Purposes of Engineering Higher Education: A longitudinal qualitative case study of the U.S. and England

Abdalla, Alaa

28 August 2023

University education across history and contexts aimed for a myriad of purposes, from the advancement of knowledge to educating citizens and contributing to the social good. With the rise of universities functioning in a market economy, and navigating higher education institutions' public role, some of the university purposes are constantly debated, and often without accounting for the students' perspectives. The purpose of this qualitative multi-case study is to explore the students' perspectives on the purpose of enrolling in a higher education institution and obtaining an engineering higher education degree. Each case is focused on a higher education institution, for a total of four institutions across the U.S. and England. The embedded units of analysis focus on twenty (20) undergraduate chemical engineering students' narratives from the time they enroll in those institutions to the time they graduate to answer the following two main research questions: RQ 1: What are the perspectives of undergraduate engineering students towards the purpose of higher education? RQ 2: How, if at all, do undergraduate engineering students' perspectives of the purpose of higher education change throughout their degree? The Capabilities Approach is used as the main theoretical framing. The framework is concerned with the question of what a person is able to do and be. It also provides a perspective on thinking about the purposes of education in terms of instrumental, intrinsic, and social values. Results show a variety of perspectives and reasons why students pursue an engineering degree, mainly expressed in terms of career-driven purposes and personal-driven purposes. Fulfilling being good at math and science, seeking a job for purposes beyond individualistic reasons, and personal growth were some of the common purposes mentioned by the students. In addition, more students than not maintained a fixed perspective throughout their undergraduate years. This research is set to address the problem of the neglect of the students' voices in the literature and to address the lack of research on longitudinal studies, higher education, and capabilities approach within the engineering education space. / Doctor of Philosophy / University education across history and contexts aimed for a myriad of purposes, from the advancement of knowledge to educating citizens and contributing to the social good. With the rise of universities functioning in a market economy, and navigating the institutions' public role, some of the university purposes are constantly debated, and often without accounting for the students' perspectives. The purpose of this dissertation is to explore the students' perspectives on the purpose of enrolling in a higher education institution and obtaining an engineering higher education degree. I focused my study on four institutions across the U.S. and England. Within each institution, I interviewed undergraduate chemical engineering students from the time they started their degree till the time they graduated to answer the following main research question: RQ: What are the perspectives of undergraduate engineering students towards the purpose of higher education? To help position the study, I used the Capabilities Approach framework. The framework is concerned with the question of what a person is able to do and be. It also provides a perspective on thinking about the purposes of education in terms of different values including seeking knowledge for the sake of knowledge and helping in the community. Results show a variety of perspectives and reasons why students pursue an engineering degree. Fulfilling being good at math and science, seeking a job for purposes beyond individual reasons, and personal growth were some of the common purposes. In addition, more students than not maintained a fixed perspective on why they chose to enroll in university throughout their undergraduate years. This research is set to amplify students' voices and add to longitudinal research studies in the engineering education literature space.

Capabilities approach

higher education

qualitative case study

longitudinal engineering education

Design Justice in Community-Oriented Engineering Pedagogy and Practice

Reyna, Michael S

01 June 2022

While engineering service-learning projects are seen as a favorable way for students to reinforce curricular learning while gaining cultural awareness, the outcomes of these projects center student benefits over partner community wellbeing. For these projects, and in other engineering contexts, various scholar-activists have conceptualized numerous principles and methods to center justice and equity in engineering outcomes. This research project and its associated intervention involved collecting scholarship and methods in engineering and social justice, and attempted to integrate these ideas into the practices of a local humanitarian service-learning engineering team. The collected scholarship centered around the topics of Design Justice, feminist qualitative science & technology studies, and Latin American decolonial theory. In partnership with the Engineers Without Borders Cal Poly Local projects team, following the frameworks of critical participatory action research and community autoethnography, the author spent time with the team to build relationships and facilitated presentations, dialogues, and activities around the collected scholarship. Two sets of semi-structured interviews were conducted before and after the intervention, and qualitative data was analyzed using iterative thematic inquiry. This project found that a local humanitarian engineering-service learning environment was a suitable space to advocate alternative design principles and methods, and that students expressed a desire to learn more about these topics, as well as utilize and share these resources with their friends and in other contexts such as their professional careers. Students experienced moderate amounts of success in using the collected scholarship to modify their project practices, specifically their plans for community assessment. These results imply that other spaces and organizations with an explicit focus on service or social justice may be ideal environments to attempt to implement alternative design principles, and that more efforts to enable students to learn about and share alternative principles could have lasting effects.

Design Justice

Engineering Pedagogy

Service-Learning

Interdisciplinary

Engineering Education

A Study of Non-computing Majors' Growth Mindset, Self-Efficacy and Perceived CS Relevance in CS1

Yoo, Jae Hyuk

01 September 2021

As the demand for programming skills in today’s job market is rapidly increasing for disciplines outside of computing, CS courses have experienced spikes in enrollment for non-majors. Students in disciplines including art, design and biological sciences are now often required to take introductory CS courses. Previous research has shown the role of growth mindset, self-efficacy and relevance in student success within CS but such metrics are largely unknown for non-majors. In this thesis, we surveyed non-majors in CS1 at Cal Poly, San Luis Obispo during the early and late weeks of the quarter to gain insights on their growth mindset, their self-efficacy and the perceived relevance of the course to their lives. In our analysis, we discovered that non-majors’ levels of growth mindset and of self-efficacy decreased throughout the duration of CS1 with additional differences by gender. However, non-majors largely found that the material covered in CS1 was highly relevant to their academic and professional careers despite being challenged by it. These findings provide important insights into the experiences of non-majors learning to code and can help better serve a more diverse population of students.

Growth Mindset

Self-Efficacy

Perceived Relevance

CS Education

Engineering Education

Module 03: Orthographic Views, Dimensioning, and Section Views

Craig, Leendert

01 January 2022

https://dc.etsu.edu/engr-1110-oer/1003/thumbnail.jpg

dimensioning

section views

engineering

orthographic views

Engineering

Engineering Education

Module 04: Introduction to AutoCAD (including Layers and Colors)

Craig, Leendert

01 January 2022

https://dc.etsu.edu/engr-1110-oer/1004/thumbnail.jpg

engineering

AutoCAD

layers

colors

oer

Engineering

Engineering Education

Module 08: Chamfer, Fillets, Mirrors, and Blocks

Craig, Leendert

01 January 2022

https://dc.etsu.edu/engr-1110-oer/1008/thumbnail.jpg

engineering

OER

chamfers

fillets

mirrors

blocks

Engineering

Engineering Education

Module 12: Sheet Metal Modeling

Craig, Leendert

01 January 2022

https://dc.etsu.edu/engr-1110-oer/1012/thumbnail.jpg

engineering

OER

sheet metal modeling

Engineering

Engineering Education