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ABSTRACT Argumentation is vital in the development of scientific knowledge, and students who can argue from evidence and support their claims develop a deeper understanding of science. In this study, the Argument-Driven Inquiry instruction model was implemented in a two-semester sequence of introductory biology laboratories. Student’s scientific argumentation sessions were video recorded and analyzed using the Assessment of Scientific Argumentation in the Classroom observation protocol. This protocol separates argumentation into three subcategories: cognitive (how the group develops understanding), epistemic (how consistent the group’s process is with the culture of science), and social (how the group members interact with each other). We asked whether students are equally skilled in all subcategories of argumentation and how students’ argumentation skills differ based on lab exercise and course. Students scored significantly higher on the social than the cognitive and epistemic subcategories of argumentation. Total argumentation scores were significantly different between the two focal investigations in Biology Laboratory I but not between the two focal investigations in Biology Laboratory II. Therefore, student argumentation skills were not consistent across content; the design of the lab exercises and their implementation impacted the level of argumentation that occurred. These results will ultimately aid in the development and expansion of Argument-Driven Inquiry instructional models, with the goal of further enhancing students’ scientific argumentation skills and understanding of science. 

A significant challenge physics faculty face teaching introductory labs is engaging students in authentic science practices. Another has been highlighted given the current global pandemic—how to engage students in our laboratory courses while maintaining appropriate social distancing and hygiene standards. We have chosen to answer these challenges by transforming our labs…twice. We discuss the rationale behind the first transformation to a practice-focused curriculum. In March 2020 we needed to transform our labs again, this time to accommodate online learning. This paper discusses two chief questions: “What are we doing to engage students in science practices?” and “How did we make all of this work online?” 

This study reports the development, validation, and implementation of a practical exam to assess science practices in an introductory physics laboratory. The exam asks students to design and conduct an investigation, perform data analysis, and write an argument. The exam was validated with advanced physics undergraduate students and undergraduate students in introductory physics lecture courses. Face validity has been established by administering the practical in 65 laboratory sections over the course of three semesters. We found that the greatest source of variability in this exam was due to instructor grading issues and discuss the implications of this result for our ongoing assessment efforts.