One of the primary aims of this action research study was to understand what happens when engineering faculty, staff, and faculty mentors engage in a professional development opportunity focused on improving instructional practices and faculty-student interactions. Since action research is…
One of the primary aims of this action research study was to understand what happens when engineering faculty, staff, and faculty mentors engage in a professional development opportunity focused on improving instructional practices and faculty-student interactions. Since action research is aimed at using innovation to engage with a local problem of practice, for this research a Teaching Community of Practice Virtual Book Study (TCPVBS) innovation was designed, implemented, and studied. This study utilized a qualitatively driven Mixed Methods Action Research (MMAR) approach. Using Communities of Practice and Expectancy Value Theory as the primary guiding theoretical frameworks, the TCPVBS innovation was designed to prioritize a learner-centered approach, fostering collaborative knowledge construction among participants on book study topics through learning materials designed to promote an inclusive lens. Participants in the study included faculty, faculty mentors, and staff at Southwest University, primarily in the College of Engineering. Data was collected in the form of pre- and post-surveys, meeting artifacts, a focus group, semi-structured individual interviews, and reflection journals. A thematic analysis was conducted using codebooks. The study concluded that a faculty book study was a valuable learning opportunity for teaching professional development. Further research is needed to understand how instructional practices and student outcomes are impacted by the TCPVBS innovation. Implications for future research related to engineering faculty culture and embedding an inclusive lens are presented and discussed.
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This is a study that demonstrates my growing understanding of the factors that influence Latinx engineering students’ sense of belonging in engineering. I conducted a literature review to help me gain perspectives from prior research on this topic. I wanted…
This is a study that demonstrates my growing understanding of the factors that influence Latinx engineering students’ sense of belonging in engineering. I conducted a literature review to help me gain perspectives from prior research on this topic. I wanted to investigate Latinx engineering students’ sense of belonging at Arizona State University. This interest was fueled by my own perspectives as an undergraduate first-generation Latina student. I was inspired by the Social Identity Development Theory described in “Becoming La Ingenieria” by Sarah L Rodriguez (2019). I found that science performance, science competence, and science identity recognition were important factors in engineering for Latinx students to thrive and succeed in their chosen major--engineering. Through the literature review, I found that Latinx engineering students need family support, faculty and staff to look up to, and ways to create authentic connections with near peers and professions. Student organization involvement such as in the Society of Hispanic Professional Engineers student chapter can help Latinx students grow their intersectional identities related to their identification as Latinx and as an engineer which then helped strengthen their sense of belonging in engineering. <br/><br/>I conducted a survey of Latinx engineering students at Arizona State University to better understand their perceptions on issues related to their sense of belonging and underlying factors of competence, recognition, and performance in engineering. However, due to the low participation, possibly due to the ongoing COVID-19 pandemic, I could not conduct statistical analyses that could lead inferences to the broad population of Latinx engineering students at ASU. <br/><br/>It is important to continue to create structures within university engineering programs and professional engineering societies to offer formal near-peer and professional mentorship of Latinx students. The integration of families from recruitment to graduation of Latinx engineering students may help build a more supportive structure for students to succeed. Research on the ways in which university faculty, staff, and near-peers can better support Latinx students will be essential to build classroom environments that help all students build a sense of belonging in engineering.
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To meet the increasing demands for more STEM graduates, United States (U.S.) higher education institutions need to support the retention of minoritized populations, such as first-generation Latinas studying engineering. The theories influencing this study included critical race theory, the theory…
To meet the increasing demands for more STEM graduates, United States (U.S.) higher education institutions need to support the retention of minoritized populations, such as first-generation Latinas studying engineering. The theories influencing this study included critical race theory, the theory of validation, and community cultural wealth. Current advising practices, when viewed through a critical race theory lens, reinforce deficit viewpoints about students and reinforce color-blind ideologies. As such, current practices will fail to support first-generation Latina student persistence in engineering. A 10-week long study was conducted on validating advising practices. The advisors for the study were purposefully selected while the students were selected via a stratified sampling approach. Validating advising practices were designed to elicit student stories and explored the ways in which advisors validated or invalidated the students. Qualitative data were collected from interviews and reflections. Thematic analysis was conducted to study the influence of the validating advising practices. Results indicate each advisor acted as a different type of validating “agent” executing her practices described along a continuum of validating to invalidating practices. The students described their advisors’ practices along a continuum of prescriptive to developmental to transformational advising. While advisors began the study expressing deficit viewpoints of first-generation Latinas, the students shared multiple forms of navigational, social, aspirational, and informational capital. Those advisors who employed developmental and transformational practices recognized and drew upon those assets during their deployment of validating advising practices, thus leading to validation within the advising interactions.
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Working with participants in schools for highly gifted students, this study asked adolescents to create a digital story to address the prompt, "How has your life changed since coming to this school?" Participant interviews were conducted in an attempt to…
Working with participants in schools for highly gifted students, this study asked adolescents to create a digital story to address the prompt, "How has your life changed since coming to this school?" Participant interviews were conducted in an attempt to determine how gifted students view their educational experiences and how those experiences influence the current development of self-identity. Digital story creation and photo elicitation methods were chosen in an effort to remove researcher bias and allow participant voices to be heard more accurately. Parent and educator interviews were also conducted. Data analysis was completed using narrative construction methods. Findings include several themes among participant self-identity influences including how labels affect participant's view of themselves, perfectionism and competitive drive function in each gifted child, necessity of intellectual challenge, appropriate learning environment helps to create self-confidence and self-identity, and grades are more important than learning for knowledge.
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Chemistry as a subject is difficult to learn and understand, due in part to the specific language used by practitioners in their professional and scientific communications. The language and ways of representing chemical interactions have been grouped into three modes…
Chemistry as a subject is difficult to learn and understand, due in part to the specific language used by practitioners in their professional and scientific communications. The language and ways of representing chemical interactions have been grouped into three modes of representation used by chemistry instructors, and ultimately by students in understanding the discipline. The first of these three modes of representation is the symbolic mode, which uses a standard set of rules for chemical nomenclature set out by the IUPAC. The second mode of representation is that of microscopic, which depicts chemical compounds as discrete units made up of atoms and molecules, with a particular ratio of atoms to a molecule or formula unit. The third mode of representation is macroscopic, what can be seen, experienced, or measured directly, like ice melting or a color change during a chemical reaction. Recent evidence suggests that chemistry instructors can assist their students in making the connections between the modes of representation by incorporating all three modes into their teaching and discussions, and overtly connecting the modes during instruction. In this research, chemistry teachers at the community college level were observed over the course of an entire semester, to evaluate their instructional use of mode of representation. The students of these teachers were tested prior to and after a semester's worth of instruction, and changes in the basic chemistry conceptual knowledge of these students were compared. Additionally, a subset of the overall population that was pre- and post-tested was interviewed at length using demonstrations of chemical phenomenon that students were asked to translate using all three modes of representation. Analysis of the instruction of three community college teachers shows there were significant differences among these teachers in their instructional use of mode of representation. Additionally, the students of these three teachers had differential and statistically significant achievement over the course of the semester. This research supports results of other similar studies, as well as providing some unexpected results from the students involved.
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A sample of 127 high school Advanced Placement (AP) Calculus students from two schools was utilized to study the effects of an engineering design-based problem solving strategy on student performance with AP style Related Rate questions and changes in conceptions,…
A sample of 127 high school Advanced Placement (AP) Calculus students from two schools was utilized to study the effects of an engineering design-based problem solving strategy on student performance with AP style Related Rate questions and changes in conceptions, beliefs, and influences. The research design followed a treatment-control multiple post-assessment model with three periods of data collection. Four high school calculus classes were selected for the study, with one class designated as the treatment and three as the controls. Measures for this study include a skills assessment, Related Rate word problem assessments, and a motivation problem solving survey. Data analysis utilized a mixed methods approach. Quantitative analysis consisted of descriptive and inferential methods utilizing nonparametric statistics for performance comparisons and structural equation modeling to determine the underlying structure of the problem solving motivation survey. Statistical results indicate that time on task was a major factor in enhanced performance between measurement time points 1 and 2. In the experimental classroom, the engineering design process as a problem solving strategy emerged as an important factor in demonstrating sustained achievement across the measurement time series when solving volumetric rates of change as compared to traditional problem solving strategies. In the control classrooms, where traditional problem solving strategies were emphasized, a greater percentage of students than in the experimental classroom demonstrated enhanced achievement from point 1 to 2, but showed decrease in achievement from point 2 to 3 in the measurement time series. Results from the problem solving motivation survey demonstrated that neither time on task nor instruction strategy produced any effect on student beliefs about and perceptions of problem solving. Qualitative error analysis showed that type of instruction had little effect on the type and number of errors committed, with the exception of procedural errors from performing a derivative and errors decoding the problem statement. Results demonstrated that students who engaged in the engineering design-based committed a larger number of decoding errors specific to Pythagorean type Related Rate problems; while students who engaged in routine problem solving did not sustain their ability to correctly differentiate a volume equation over time. As a whole, students committed a larger number of misused data errors than other types of errors. Where, misused data errors are the discrepancy between the data as given in a problem and how the student used the data in problem solving.
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The purpose of this study is to portray kindergarten teachers' developmentally appropriate practices in order to authenticate the essential component of play. Recently, student achievement has been the primary focus in Early Childhood Education, and play is seen as an…
The purpose of this study is to portray kindergarten teachers' developmentally appropriate practices in order to authenticate the essential component of play. Recently, student achievement has been the primary focus in Early Childhood Education, and play is seen as an action that precludes academic learning. This is a qualitative study of teachers' perceptions and teaching practices through observations, interviews, surveys, and journal reflections. The study found that participant kindergarten teachers: (1) have a developing understanding of the positive impact play has on student development, yet they are not aware of how to successfully implement play in their classroom; (2) tend to be more work driven than play driven in their daily activities; and (3) perceive play occurrs when manipulatives are made available for student use, however, the activities are largely teacher-directed in contrast to student initiated play. In summary, participant kindergarten teachers were found to be hesitant to let their control shift to child-initiated learning. There are gaps between teacher knowledge of how child initiated play impacts learning and the actual classroom implementation of child initiated play. Teachers need further development to understand how to use materials to integrate play into daily lessons. It is important to widely disseminate and support the use of Early Childhood National Board Standards regarding play in kindergarten classrooms. Kindergarten teachers require professional development that permits the integration of knowledge of play and the implementation of play in an increasingly accountability driven environment. Keywords: Play; Perceptions of play; Learner-Centered; Developmentally Appropriate Practice (DAP); National Board Certification National Board Certified Teacher (NBCT); National Board for Professional Teaching Standards (NBPTS); English Language Learners (ELL); English Language Development (ELD)
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Collaborative learning is a common teaching strategy in classrooms across age groups and content areas. It is important to measure and understand the cognitive process involved during collaboration to improve teaching methods involving interactive activities. This research attempted to answer…
Collaborative learning is a common teaching strategy in classrooms across age groups and content areas. It is important to measure and understand the cognitive process involved during collaboration to improve teaching methods involving interactive activities. This research attempted to answer the question: why do students learn more in collaborative settings? Using three measurement tools, 142 participants from seven different biology courses at a community college and at a university were tested before and after collaborating about the biological process of natural selection. Three factors were analyzed to measure their effect on learning at the individual level and the group level. The three factors were: difference in prior knowledge, sex and religious beliefs. Gender and religious beliefs both had a significant effect on post-test scores.
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Females and underrepresented ethnic minorities earn a small percentage of engineering and computer science bachelor's degrees awarded in the United States, earn an even smaller proportion of master's and doctoral degrees, and are underrepresented in the engineering workforce (Engineering Workforce…
Females and underrepresented ethnic minorities earn a small percentage of engineering and computer science bachelor's degrees awarded in the United States, earn an even smaller proportion of master's and doctoral degrees, and are underrepresented in the engineering workforce (Engineering Workforce Commission, [2006], as cited in National Science Foundation, 2012; United States Department of Education, [2006], as cited in National Science Foundation, 2009a; United States Department of Education, [2006], as cited in National Science Foundation, 2009b). Considerable research has examined the perceptions, culture, curriculum, and pedagogy in engineering that inhibits the achievement of women and underrepresented ethnic minorities. This action research study used a qualitative approach to examine the characteristics and experiences of Latina students who pursued a bachelor's degree in the Ira A. Fulton Schools of Engineering at Arizona State University (ASU) as part of the 2008 first-time full-time freshman cohort. The researcher conducted two semi-structured individual interviews with seven undergraduate Latina students who successfully persisted to their fourth (senior) year in engineering. The researcher aimed to understand what characteristics made these students successful and how their experiences affected their persistence in an engineering major. The data collected showed that the Latina participants were motivated to persist in their engineering degree program due to their parents' expectations for success and high academic achievement; their desire to overcome the discrimination, stereotyping, and naysayers that they encountered; and their aspiration to become a role model for their family and other students interested in pursuing engineering. From the data collected, the researcher provided suggestions to implement and adapt educational activities and support systems within the Ira A. Fulton Schools of Engineering to improve the retention and graduation rates of Latinas in engineering at ASU.
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Students may use the technical engineering terms without knowing what these words mean. This creates a language barrier in engineering that influences student learning. Previous research has been conducted to characterize the difference between colloquial and scientific language. Since this…
Students may use the technical engineering terms without knowing what these words mean. This creates a language barrier in engineering that influences student learning. Previous research has been conducted to characterize the difference between colloquial and scientific language. Since this research had not yet been applied explicitly to engineering, conclusions from the area of science education were used instead. Various researchers outlined strategies for helping students acquire scientific language. However, few examined and quantified the relationship it had on student learning. A systemic functional linguistics framework was adopted for this dissertation which is a framework that has not previously been used in engineering education research. This study investigated how engineering language proficiency influenced conceptual understanding of introductory materials science and engineering concepts. To answer the research questions about engineering language proficiency, a convenience sample of forty-one undergraduate students in an introductory materials science and engineering course was used. All data collected was integrated with the course. Measures included the Materials Concept Inventory, a written engineering design task, and group observations. Both systemic functional linguistics and mental models frameworks were utilized to interpret data and guide analysis. A series of regression analyses were conducted to determine if engineering language proficiency predicts group engineering term use, if conceptual understanding predicts group engineering term use, and if conceptual understanding predicts engineering language proficiency. Engineering academic language proficiency was found to be strongly linked to conceptual understanding in the context of introductory materials engineering courses. As the semester progressed, this relationship became even stronger. The more engineering concepts students are expected to learn, the more important it is that they are proficient in engineering language. However, exposure to engineering terms did not influence engineering language proficiency. These results stress the importance of engineering language proficiency for learning, but warn that simply exposing students to engineering terms does not promote engineering language proficiency.
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