Erskine Fellow at the Uni- versity of Canterbury in New Zealand. His research involves the rheology of complex fluids, especially traditional and renewable energy fluids and materials, polymers, and colloids. His educational interests include developing problems from YouTube videos, active learning, learning analytics, and interactive textbooks. His interactive textbooks for Material and Energy Balances, Spreadsheets, and Thermody- namics are available from zyBooks.com. His website is: https://www.utoledo.edu/engineering/chemical- engineering/liberatore/ ©American Society for Engineering Education, 2023 Reproducible High Reading Participation and Auto-Graded Homework
directconnection between the students’ home neighborhoods and the data being collected, fostersstudent investment and curiosity in their analysis.KeywordsAir quality, modelingMotivationIn chemical engineering curricula, it can often be difficult to identify relevant and meaningfulexamples that relate beyond the realm of traditional process engineering. Environmentally-oriented coursework often employs examples within the natural world’s subsystems (i.e., theatmosphere, hydrosphere, lithosphere, and biosphere) to demonstrate principles of masstransport, material and energy balances, and chemical kinetic phenomena. Notably, climate andatmospheric systems have provided a consistently topical and well-documented source ofinformation from which inspiration for
, and A. Rodriguez "Evaluating the benefits of addinginteractive elements to traditional print mechanical engineering textbooks," ASEE AnnualConference and Exposition, Aug. 2022.[23] M.W. Liberatore, "An Interactive Web Native Textbook for Material and Energy Balances,"ASEE Annual Conference & Exposition, Jun. 2016.[24] BrailleTranslator, "Braille Translator," Published May 2018. [Online]. Available:https://www.brailletranslator.org/. [Accessed February 1, 2023].[25] 3D Printing Rocks, "Image to Lithophane," Published 2009. [Online]. Available:https://3dp.rocks/lithophane/. [Accessed February 2, 2023].
in chemical engineering. From 2005 to 2015, he served on the faculty at the Colorado School of Mines. In 2018, he served as an Erskine Fellow at the Uni- versity of Canterbury in New Zealand. His research involves the rheology of complex fluids, especially traditional and renewable energy fluids and materials, polymers, and colloids. His educational interests include developing problems from YouTube videos, active learning, learning analytics, and interactive textbooks. His interactive textbooks for Material and Energy Balances, Spreadsheets, and Thermody- namics are available from zyBooks.com. His website is: https://www.utoledo.edu/engineering/chemical- engineering/liberatore
score), incoming declared major(which is declared at the time of matriculation), undergraduate academic performance (first-yearGPA), grades in Materials and Energy Balances (MEB), and postsecondary degree completion.The institutional data about student identity is limited to binary gender, which does notadequately capture the full spectrum of both gender identity and expression. Both gender identityand expression may be distinct from biological sex. This particular institution is predominantlywhite ( 80%) and somewhat selective (interquartile range of ACT scores is 25-31). We had accessto all student records dating back to 2011. To ensure that we had complete records for all studentsincluded in our analysis, we only included records for
obtained her BS in Chemical Engineering at NC State in 1986 and her Ph.D. in Chemical Engineering from Carnegie Mellon University in 1991. A faculty member at NC State since 2000, Dr. Bullard’s research interests lie in the area of educational scholarship, including teaching and advising effectiveness, academic integrity, chemical engineering instruction, and organizational culture.Prof. Joshua A. Enszer, University of Delaware Dr. Joshua Enszer is an associate professor in Chemical and Biomolecular Engineering at the University of Delaware. He has taught core and elective courses across the curriculum, from introduction to engineering science and material and energy balances toDr. Allison Godwin, Purdue University