Your search keyword '"Brock Couch"' showing total 3 results

1. Exploring the Role of Disciplinary Knowledge in Students' Covariational Reasoning during Graphical Interpretation

Author

Nigar Altindis, Kathleen A. Bowe, Brock Couch, Christopher F. Bauer, and Melissa L. Aikens

Abstract

This study investigates undergraduate STEM students' interpretation of quantities and quantitative relationships on graphical representations in biology (population growth) and chemistry (titration) contexts. Interviews (n = 15) were conducted to explore the interplay between students' covariational reasoning skills and their use of disciplinary knowledge to form mental images during graphical interpretation. Our findings suggest that disciplinary knowledge plays an important role in students' ability to interpret scientific graphs. Interviews revealed that using disciplinary knowledge to form mental images of represented quantities may enhance students' covariational reasoning abilities, while lacking it may hinder more sophisticated covariational reasoning. Detailed descriptions of four students representing contrasting cases are analyzed, showing how mental imagery supports richer graphic sense-making. In the cases examined here, students who have a deep understanding of the disciplinary concepts behind the graphs are better able to make accurate interpretations and predictions. These findings have implications for science education, as they suggest instructors should focus on helping students to develop a deep understanding of disciplinary knowledge in order to improve their ability to interpret scientific graphs.

Published

2024

2. The Development and Validation of the Mutation Criterion Referenced Assessment (MuCRA)

Author

Chloe Wasendorf, Joshua W. Reid, Rebecca Seipelt-Thiemann, Z. T. Grimes, Brock Couch, Nick T. Peters, Julia Massimelli Sewall, Audrey L. McCombs, Patrick I. Armstrong, and Nancy Boury

Abstract

Most biology undergraduates learn about mutations in multiple classrooms throughout their college career. Understanding personalised genome test results, genome editing controversies, and the appearance of new variants of viruses or antibiotic resistant bacteria all require foundational knowledge about mutations. However, the abstract nature of molecular processes surrounding mutations makes them one of the more difficult topics for students to understand and apply. Instructors need valid assessment tools to document student understanding and tailor their instructional methods to address student knowledge gaps. We describe here the development and validation of the Mutations Criterion Referenced Assessment (MuCRA). This formative assessment was developed through an iterative process involving expert feedback and student responses to both open-ended and multiple-choice questions. The final MuCRA is composed of 10 multiple-choice questions aligned with three learning objectives. The item difficulty for each question was between 0.32-0.65, while the discrimination index ranged from 0.31-0.75 and the reliability (KR20) for the MuCRA was 0.69. The congruence analyses demonstrated distractors are capturing student misconceptions in 9/10 questions. These data indicate that the MuCRA can be used to reliably assess student learning and common misconceptions about mutations.

Published

2024

3. Using Network Analyses to Understand the Intersection between Small Group Dynamics and Socioscientific Issue Discussion

Author

Brock Couch

Abstract

Since socioscientific issues (SSI) are scientific issues situated in the larger society, it is important for many students to understand and effectively communicate information surrounding them. In-class small groups have been used by science instructors to provide students the opportunity to discuss and negotiate difficult SSI. However, learning about SSI in these small groups can be influenced by numerous factors beyond just the content. Therefore, it is important to gain a greater understanding of how these factors are impacting small group and individual responses to SSI. Because of the interactional nature of small groups, social network analysis (SNA) can be used to capture the structure of interactions between individuals, while also gaining an understanding of the flow of information between individuals. In Chapter One, this dissertation sets out the case for using social network analysis to understand the intersection between SSI and small groups. This dissertation is in an alternative format structure in which Chapters Two through Four are presented as individual manuscripts for publication. Chapter Two presents a systematic literature review that looks at how education research literature is using SNA to understand student discourse. The goal of this review was to better understand how social network methodologies have been applied in education research to highlight the usefulness of SNA in understanding discourse interactions particularly between students in small group settings. This review showed that SNA has only begun to be used to study discourse in education contexts, with the majority of those studies being conducted in online environments. Chapter Three is a cross-sectional survey study that looked at the connection between undergraduates' acceptance of SSI and the sources they use to gain information on these SSI. From this survey, it was shown that undergraduates differed in their acceptance of various SSI and the sources from which they gathered information about these SSI. When comparing groups derived from cluster analysis, undergraduates indicated that they were using similar information sources, even though they differ on their acceptance of SSI. This may highlight that students are receiving siloed information from their information sources. In Chapter Four, a longitudinal analysis of small-group discussion on SSI was conducted to gain an understanding of how small-group dynamics impact the learning outcomes of group work. This study found that interactions within groups varied across the semester, with groups becoming less collaborative toward the end of the semester. It also found that all groups used supportive statements to move group conversations forward. The contribution of new knowledge to the conversation varied by group and week of the semester. [The dissertation citations contained here are published with the permission of ProQuest LLC. Further reproduction is prohibited without permission. Copies of dissertations may be obtained by Telephone (800) 1-800-521-0600. Web page: http://www.proquest.com/en-US/products/dissertations/individuals.shtml.]

Published

2022