Talking through the problems: a study of discourse in peer-led small groups

Repice, Michelle D.; Sawyer, R. Keith; Hogrebe, Mark C.; Brown, Patrick; Luesse, Sarah B.; Gealy, Daniel J.; Frey, Regina F.

doi:10.1039/c5rp00154d

Cited by 30 publications

(37 citation statements)

References 41 publications

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“…Repice and coworkers observed small groups working to solve chemistry problems and note, ''students engage in joint decisionmaking by taking turns, questioning and explaining, and building on one another's ideas'' (Repice et al, 2016). Clearly, students in our experimental group could see the value in the practice of professional skills with peers in enhancing their learning.…”

Section: Paper Chemistry Education Research and Practicementioning

confidence: 99%

Cooperative learning in organic chemistry increases student assessment of learning gains in key transferable skills

Canelas

Hill

Novicki

2017

Chem. Educ. Res. Pract.

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Science and engineering educators and employers agree that students should graduate from college with expertise in their major subject area as well as the skills and competencies necessary for productive participation in diverse work environments. These competencies include problem-solving, communication, leadership, and collaboration, among others. Using a pseudo-experimental design, and employing a variety of data from exam scores, course evaluations, and student assessment of learning gains (SALG) surveys of key competencies, we compared the development of both chemistry content knowledge and transferable or generic skills among students enrolled in two types of large classes: a lecture-based format versus an interactive, constructive, cooperative learning (flipped classroom) format. Controlling for instructor, as well as laboratory and recitation content, students enrolled in the cooperative learning format reported higher learning gains than the control group in essential transferable skills and competency areas at the end of the term, and more growth in these areas over the course of the term. As a result of their work in the class,

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Section: Paper Chemistry Education Research and Practicementioning

confidence: 99%

Cooperative learning in organic chemistry increases student assessment of learning gains in key transferable skills

Canelas

Hill

Novicki

2017

Chem. Educ. Res. Pract.

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“…While our use of the term "conceptual explanation" is similar to how Repice et al (2016) use it to describe students making meaning and making sense around numbers, equations, and diagrams, our definition differs, mainly because of the differences in the disciplinary subject matter being discussed in our respective studies. We define conceptual explanations as stretches of talk in which one or more students in the group produced a hypothesis of physiological functioning that was not simply fact based but drew upon a conceptual understanding of the human body as a system.…”

Section: Discussionmentioning

confidence: 99%

“…The kind of task that questions prompt students to undertake may also affect discussion quality. Repice et al (2016) found in PLTL groups that a data-analysis prompt (as opposed to other kinds of prompts, especially those that focused primarily on calculations) guided students into a mode of discourse that led to conceptual explanations. This mode of discourse included students asking one another what the authors defined as "open questions," which were those that tended to facilitate or draw out further elaboration of ideas rather than focus attention on a specific item of content or procedure.…”

Section: Theoretical Frameworkmentioning

confidence: 97%

“…We wanted to explore what provokes the sorts of explanations that we are most interested in seeing, that is, explanations that go beyond statements of basic facts and into disciplinary reasoning. Eliciting such reasoning is one of the major underlying motivations behind group learning pedagogies, as described by Repice et al (2016) in their study of student discussions during peer-led team learning (PLTL). They noted that when solving problems in an introductory chemistry course that primarily involved calculations, data analysis, or model building, students' statements that described pertinent concepts or realworld connections were the smallest proportion of their discourse.…”

Section: Theoretical Frameworkmentioning

confidence: 99%

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Factors Influencing Quality of Team Discussion: Discourse Analysis in an Undergraduate Team-Based Learning Biology Course

Leupen

Kephart

Hodges

2020

LSE

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Group activities as part of active-learning pedagogies are thought to be effective in promoting student learning in part because of the quality of discussion they engender in student teams. Not much is known, however, about which instructional factors are most important in achieving productive conversation or how these factors may differ among different collaborative pedagogies. We explored what provokes meaningful group discussions in a university physiology course taught using team-based learning (TBL). We were most interested in discussions that evoke explanations that go beyond statements of basic facts and into disciplinary reasoning. Using transcribed conversations of four randomly selected teams three times throughout the semester, we analyzed three distinct discursive phenomena—conceptual explanations, re-evaluations, and co-construction—that occurred in productive conversations. In this paper, we provide examples from student discussions showing the role of each of these elements in moving students toward conceptual understanding. These phenomena were more likely to occur in response to higher-order questions in Bloom’s taxonomy. Preclass preparation and student accountability as part of TBL may be important factors in this finding. We share implications for practice based on our results.

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“…The work of the students was facilitated with pre-leaders and instructors. The small group learning setting is very beneficial [13].…”

Section: Introductionmentioning

confidence: 99%

Low Field NMR Determination of pKa Values for Hydrophilic Drugs for Students in Medicinal Chemistry

et al. 2017

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For an interdisciplinary approach on different topics of medicinal and analytical chemistry, we applied a known experimental pKa value determination method on the field of the bench top nuclear magnetic resonance (NMR) spectrometry of some known biologically active pyridine-based drugs, i.e., pyridoxine hydrochloride, isoniazid, and nicotine amide. The chemical shifts of the aromatic ring protons in the 1 H NMR spectrum change depending on the protonation status. The data were analyzed on dependence of the chemical shifts by different pH (pD) environments and then the pKa values were calculated. The pKa values obtained were in agreement with the literature data for the compounds, searched by the students on web programs available at our university. The importance of the pKa values in protein-ligand interactions and distribution etc. of drugs was brought up to the students' attention. In addition, by the use of a free web application for pKa values prediction, students calculated the predicted modeled pKa value. The experimental and in-silico approaches enhance the tool box for undergraduate students in medicinal chemistry.

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Talking through the problems: a study of discourse in peer-led small groups

Cited by 30 publications

References 41 publications

Cooperative learning in organic chemistry increases student assessment of learning gains in key transferable skills

Cooperative learning in organic chemistry increases student assessment of learning gains in key transferable skills

Factors Influencing Quality of Team Discussion: Discourse Analysis in an Undergraduate Team-Based Learning Biology Course

Low Field NMR Determination of pKa Values for Hydrophilic Drugs for Students in Medicinal Chemistry

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