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1. Refining Instructional Modules for Engineering Lab Writing Using a Community of Practice Approach

   Riley, Charles; Kim, Dave; Lulay, Ken; Lynch, John D.; St.Clair, Sean (June 2023, ASEE annual conference exposition)

   Laboratory report writing instructional modules have been developed and refined using a community of practice (CoP) approach. Supported by the National Science Foundation Improving Undergraduate STEM Education initiative, researchers at three institutions have refined and reorganized a series of scaffolded laboratory writing modules based on the work of faculty and graduate students at a CoP meeting. This paper documents the process used at the CoP meeting where draft modules were made available and a model laboratory session was considered. Other published laboratory report writing resources were evaluated alongside the draft modules to determine areas of overlap and novelty and to ensure the completeness of the revised modules. The process of revising instructional modules was valuable for both the quality of the modules and the development of the community of practice. The modules are now organized into two guides, published at http://labs.wsu.edu/engineeringlab-report-writing/. An Instructor’s Guide to Engineering Lab Writing, targets instructors and provides model lab writing and data analysis learning outcomes for consideration when planning a laboratory session, as well as approaches for course organization and teaching to support lab writing outcomes. A library of lab report types and a model rubric for lab report scoring complete the instructor-oriented resource. A Student’s Guide to Engineering Lab Writing, supports students who are learning lab report writing for the first time or are advancing as technical writers. It is organized according to traditional lab report format and is aligned with the learning outcomes in the instructor modules. The content in the student-oriented modules is scaffolded to support continuous development. The modules are arranged in order of increasing cognitive difficulty, first addressing formatting conventions and arrangement, then section contents and methods of data analysis, and finally effective methods of interpretation, reasoning, and conclusion writing. This paper demonstrates the mutually reinforcing nature of collaboratively developed instructional material and the growth of a community of practice. The CoP approach to structuring a meeting was effective for gathering targeted and relevant feedback in a short period of time as well as for developing the CoP itself. The instructional modules revised at the CoP meeting were significantly improved creating a sense of ownership and inclusion by those participating in the meeting. They are now publicly available to serve a growing community of practice focused on engineering lab writing. 

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2. Undergraduates’ perspectives on readiness, writingtransfer, and effectiveness of writing instructions in engineering lab report writing

   St.Clair, Sean; Kim, Dave; Riley, Charles E. (June 2021, 2021 ASEE Annual Conference Proceedings)

   Engineering undergraduates’ academic writing experiences prior to entry-level engineering lab courses can be classified into three different groups: a group with both rhetorically-focused writing (e.g., first-year-composition) and technical writing courses; a group with only rhetorically-focused writing courses; and a group with no rhetorically-focused writing or technical writing courses. Using a lens of transfer theories that explain how much knowledge from one context is used or adapted in new contexts, these three groups can be called concurrent, vertical, and absent transfer groups respectively. This study, which is part of a larger project developing and implementing writing-focused modules in engineering labs, aims to investigate undergraduates’ perspectives on readiness, writing transfer, and effectiveness of writing instructions in engineering lab report writing through a student survey. End-of-term online surveys (n = 40) of undergraduates in entry-level engineering lab courses were collected from three distinctive universities: an urban, commuter, public research university; an urban, private, teaching-focused university; and a rural, public, teaching-focused university. The survey questions have three parts: 1) student perspectives in writing in engineering disciplines; 2) how students use prior writing knowledge when writing lab reports in engineering lab courses; and 3) how engineering lab course writing instructions impact students’ engineering lab report writing. Findings suggest that the three transfer groups present statistical distinctions on the readiness of writing engineering lab reports (concurrent group as the highest and absent group as the lowest). The three groups also show different perspectives on how their freshmen writing courses contributed their engineering lab report writing. The concurrent transfer group believed freshmen writing instruction regarding “focus on purpose” contributed most when they write lab reports, while the greatest number of vertical transfer group students mentioned “knowledge about format and structure” was most helpful. Many absent transfer students valued “identifying problems or questions” instructed from their freshmen writing-intensive philosophy course as the content they used most when writing lab reports. Ultimately, the analysis of the data suggested that despite their perceived preparedness for writing lab reports, most of the students felt their skills improved as a result of engaging in lab report writing activities. 

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3. Undergraduates’ Perspectives on Readiness, Writing Transfer, and Effectiveness of Writing Instructions in Engineering Lab Report Writing

   St.Clair, Sean; Kim, Dave; Riley, Charles (June 2021, 2021 ASEE Annual Conference Proceedings)

   Engineering undergraduates’ academic writing experiences prior to entry-level engineering lab courses can be classified into three different groups: a group with both rhetorically-focused writing (e.g., first-year-composition) and technical writing courses; a group with only rhetorically-focused writing courses; and a group with no rhetorically-focused writing or technical writing courses. Using a lens of transfer theories that explain how much knowledge from one context is used or adapted in new contexts, these three groups can be called concurrent, vertical, and absent transfer groups respectively. This study, which is part of a larger project developing and implementing writing-focused modules in engineering labs, aims to investigate undergraduates’ perspectives on readiness, writing transfer, and effectiveness of writing instructions in engineering lab report writing through a student survey. End-of-term online surveys (n = 40) of undergraduates in entry-level engineering lab courses were collected from three distinctive universities: an urban, commuter, public research university; an urban, private, teaching-focused university; and a rural, public, teaching-focused university. The survey questions have three parts: 1) student perspectives in writing in engineering disciplines; 2) how students use prior writing knowledge when writing lab reports in engineering lab courses; and 3) how engineering lab course writing instructions impact students’ engineering lab report writing. Findings suggest that the three transfer groups present statistical distinctions on the readiness of writing engineering lab reports (concurrent group as the highest and absent group as the lowest). The three groups also show different perspectives on how their freshmen writing courses contributed their engineering lab report writing. The concurrent transfer group believed freshmen writing instruction regarding “focus on purpose” contributed most when they write lab reports, while the greatest number of vertical transfer group students mentioned “knowledge about format and structure” was most helpful. Many absent transfer students valued “identifying problems or questions” instructed from their freshmen writing-intensive philosophy course as the content they used most when writing lab reports. Ultimately, the analysis of the data suggested that despite their perceived preparedness for writing lab reports, most of the students felt their skills improved as a result of engaging in lab report writing activities. 

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4. Undergraduates’ Perspectives on Readiness, Writing Transfer, and Effectiveness of Writing Instructions in Engineering Lab Report Writing

   St. Clair, Sean; Kim, Dave; Riley, Charles (July 2021, ASEE Annual Conference proceedings)

   Engineering undergraduates’ academic writing experiences prior to entry-level engineering lab courses can be classified into three different groups: a group with both rhetorically-focused writing (e.g., first-year-composition) and technical writing courses; a group with only rhetorically-focused writing courses; and a group with no rhetorically-focused writing or technical writing courses. Using a lens of transfer theories that explain how much knowledge from one context is used or adapted in new contexts, these three groups can be called concurrent, vertical, and absent transfer groups respectively. This study, which is part of a larger project developing and implementing writing-focused modules in engineering labs, aims to investigate undergraduates’ perspectives on readiness, writing transfer, and effectiveness of writing instructions in engineering lab report writing through a student survey. End-of-term online surveys (n = 40) of undergraduates in entry-level engineering lab courses were collected from three distinctive universities: an urban, commuter, public research university; an urban, private, teaching-focused university; and a rural, public, teaching-focused university. The survey questions have three parts: 1) student perspectives in writing in engineering disciplines; 2) how students use prior writing knowledge when writing lab reports in engineering lab courses; and 3) how engineering lab course writing instructions impact students’ engineering lab report writing. Findings suggest that the three transfer groups present statistical distinctions on the readiness of writing engineering lab reports (concurrent group as the highest and absent group as the lowest). The three groups also show different perspectives on how their freshmen writing courses contributed their engineering lab report writing. The concurrent transfer group believed freshmen writing instruction regarding “focus on purpose” contributed most when they write lab reports, while the greatest number of vertical transfer group students mentioned “knowledge about format and structure” was most helpful. Many absent transfer students valued “identifying problems or questions” instructed from their freshmen writing-intensive philosophy course as the content they used most when writing lab reports. Ultimately, the analysis of the data suggested that despite their perceived preparedness for writing lab reports, most of the students felt their skills improved as a result of engaging in lab report writing activities. 

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5. Effectiveness of Transfer Focused Writing Pedagogy on Undergraduates’ Lab Report Writing in Entry-Level Engineering Laboratory Courses at Three Universities

   Kim, D. (January 2023, The Proceedings of 2023 ASEE Annual Conference and Exhibitions)

   This study focuses on the effectiveness of learning transfer-focused or transfer-focused lab report writing instructional modules on engineering undergraduates’ lab report writing in entry-level engineering laboratory courses. The modules are novel due to their shared language to describe and reinforce foundational writing terms used by the writing faculty and are ready for immediate use by engineering lab instructors. Three different universities, consisting of a polytechnical university, a liberal arts-anchored private university, and a branch campus of a research-one land grant university, participated. Student lab report samples from six various sophomore-level engineering courses were collected. For the control group, none of the participating lab instructors accessed the transfer-focused modules (academic years of 2019-2020 and 2020-2021); sixty-four control group lab report samples were collected (n = 64). In the academic year 2021-2022, the lab instructors had access to the transfer-focused modules via the web to be encouraged to update their lab instructions; the experimental group lab report samples were collected from forty-two students (n = 42). Using defined writing outcomes, a panel of engineering lab instructors assessed the participating students’ early (one of the first reports in the class) and late lab reports (written near the end of the course). The lab report assessment analysis indicates that only 30% of the control group students could write their early lab reports at a satisfactory level, while 60% of the experimental group students reached a satisfactory level in their early labs. For both early and late lab reports, the experimental group students outperformed most outcomes over the control group. The notably improved outcomes were related to audience awareness, data presentation, data analysis, and data interpretation. The transfer-focused lab report writing pedagogy enhanced engineering undergraduates’ ability to engage in critical thinking practices, including analysis, interpretation, and evaluation of their lab data/products. Additionally, students appeared to improve their awareness of a technical audience, expecting engineering language, styles, and conventions commonly shared by writers in engineering. 

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