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An Analysis of Arizona's Political Influence on K-12 STEM Education and Its Impact on Latino Undergraduates in STEM Majors

Description
The aim of this study is to analyze the impact Arizona legislation has had on STEM education access, specifically for Latino students. Using socio-ecological systems theory, this study explores the relation between the macro and exo-systemic context of education legislation and the micro-systemic context of being a STEM undergraduate at

The aim of this study is to analyze the impact Arizona legislation has had on STEM education access, specifically for Latino students. Using socio-ecological systems theory, this study explores the relation between the macro and exo-systemic context of education legislation and the micro-systemic context of being a STEM undergraduate at a state university. In order to understand how STEM education is affected, legislation was analyzed through the Arizona Legislative Database. Additionally, current STEM undergraduates were interviewed in order to discover the factors that made them successful in their majors. Data from the interviews would demonstrate the influence of the Arizona legislation macro and exo-systems on the microsystemic portion of Latinos and their access to STEM education. A total of 24 students were interviewed as part of this study. Their responses shed light on the complexities of STEM education access and the importance of mentorship for success in STEM. The overall conclusion is that more efforts need to be made before STEM education is readily available to many, but the most effective way to achieve this is through mentorship.
ContributorsHernandez-Gonzalez, Rosalia (Author) / Herrera, Richard (Thesis director) / Casanova, Saskias (Committee member) / School of Politics and Global Studies (Contributor) / School of Life Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2017-05

Electricity & the Arts: Creative Thesis Projects

Description
Engineering, and more specifically, electrical engineering can be a difficult topic to explain through spoken communication. Along with taking years of education to learn and understand necessary topics, the field is riddled with jargon and items that may take lectures to explain. However, this type of education may not be

Engineering, and more specifically, electrical engineering can be a difficult topic to explain through spoken communication. Along with taking years of education to learn and understand necessary topics, the field is riddled with jargon and items that may take lectures to explain. However, this type of education may not be feasible for a younger or inexperienced audience. Therefore, engineers must find new ways to explain such difficult topics, especially in an attempt to garner interest in children, for example, through art.
ContributorsHedges, Madison (Author) / Aukes, Daniel (Thesis director) / Weeks, Eric (Committee member) / Barrett, The Honors College (Contributor) / Engineering Programs (Contributor) / School of Earth and Space Exploration (Contributor)
Created2023-12
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Exploring Undergraduate Students’ Experiences With Depression in Active Learning Science Courses

Description

There is increasing interest in understanding how active learning affects students’ mental health as science courses transition from traditional lecture to active learning. Prior research has found that active learning can both alleviate and exacerbate undergraduate mental health problems. Existing studies have only examined the relationship between active learning and

There is increasing interest in understanding how active learning affects students’ mental health as science courses transition from traditional lecture to active learning. Prior research has found that active learning can both alleviate and exacerbate undergraduate mental health problems. Existing studies have only examined the relationship between active learning and anxiety. No studies have examined the relationship between active learning and undergraduate depression. To address this gap in the literature, we conducted hour-long exploratory interviews with 29 students with depression who had taken active learning science courses across six U.S. institutions. We probed what aspects of active learning practices exacerbate or alleviate depressive symptoms and how students’ depression affects their experiences in active learning. We found that aspects of active learning practices exacerbate and alleviate students’ depressive symptoms, and depression negatively impacts students’ experiences in active learning. The underlying aspects of active learning practices that impact students’ depression fall into four overarching categories: inherently social, inherently engaging, opportunities to compare selves to others, and opportunities to validate or invalidate intelligence. We hope that by better understanding the experiences of undergraduates with depression in active learning courses we can create more inclusive learning environments for these students.
ContributorsAraghi, Tala (Author) / Cooper, Katelyn (Thesis director) / Brownell, Sara (Committee member) / Busch, Carly (Committee member) / Barrett, The Honors College (Contributor) / School of Life Sciences (Contributor)
Created2022-05

A Practical Application of Culturally Responsive Pedagogy in Computer Science

Description
Culturally responsive teaching refers to an approach to teaching and learning that facilitates the achievement of all students by including content that is relatable to all cultures, and creating a culturally-supported and learner-centered environment. The CSE 110 course at ASU would greatly benefit from the incorporation of culturally relevant learning,

Culturally responsive teaching refers to an approach to teaching and learning that facilitates the achievement of all students by including content that is relatable to all cultures, and creating a culturally-supported and learner-centered environment. The CSE 110 course at ASU would greatly benefit from the incorporation of culturally relevant learning, as it would help them thrive in their chosen field of study while being able to uphold and value cultural relevance. The incorporation of culturally relevant pedagogy would further help students from marginalized communities feel more accepted and capable to thrive in STEM education. We began our research by first understanding the foundations of culturally responsive pedagogy, including how it is currently being used in classrooms. Concurrently, we studied the CSE 110 curriculum to see where we can implement this teaching strategy. Our research helped us develop a set of worksheets. In the second semester of our research we distributed these worksheets and a set of control worksheets. Students were randomly assigned to an experiment or control group each of the four weeks of the study. We then analyzed this information to quantitatively see how culturally responsive pedagogy affects their outcomes. To follow up we also conducted a survey to get some qualitative feedback about student experience. Our final findings consisted of an analysis on how culturally responsive pedagogy affects learning outcomes in an introductory computer science course.
ContributorsMane, Rhea (Author) / Tripathi, Tejal (Co-author) / Sathe, Isha (Co-author) / Tadayon-Navabi, Farideh (Thesis director) / Nkrumah, Tara (Committee member) / Barrett, The Honors College (Contributor) / Computer Science and Engineering Program (Contributor)
Created2024-05
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The New Open Stacks

Description

From Transforming Print: Collection Development and Management for Our Connected Future, edited by Lorrie McAllister and Shari Laster (Chicago: American Library Association, 2021).

ContributorsMcAllister, Lorrie (Author)
Created2021