Encouraging a supportive learning environment in chemical engineering education
- Conference
- Location
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Montreal, Quebec, Canada
- Publication Date
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June 22, 2025
- Start Date
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June 22, 2025
- End Date
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August 15, 2025
- Conference Session
- Tagged Divisions
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Equity and Culture & Social Justice in Education Division (EQUITY)
- Tagged Topic
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Diversity
- Page Count
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12
- Permanent URL
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https://peer.asee.org/56344
Paper Authors
Nagma Zerin
The Johns Hopkins University
orcid.org/0000-0002-7876-8488
Dr. Zerin is a Lecturer in the Chemical and Biomolecular Engineering (ChemBE) department at the Johns Hopkins University. She was born and brought up in Bangladesh. She completed her Bachelor's and Master's in Chemical Engineering from the University of Waterloo in Canada and her Ph.D. degree in Chemical Engineering from the Pennsylvania State University.
Her current research interests include understanding the mindsets of engineering students and creating an inclusive classroom.
Melo-Jean Yap The Johns Hopkins University
Dr. Melo-Jean Yap is the Senior Education Research Consultant at The Johns Hopkins University's Center for Teaching Excellence and Innovation.
Hexin Bi The Johns Hopkins University
Abstract
The purpose of this practice paper is to discuss the pedagogical practices that were applied in a chemical engineering classroom to promote a supportive learning environment. Chemical engineering is a challenging major. Due to the rigorous nature of the curriculum, it can be hard to navigate for many undergraduate students. A supportive learning environment could make the journey easier for many students, especially those from marginalized backgrounds for whom curriculum difficulty might be combined with feelings of isolation. To create a supportive classroom, we implemented some interventions in an elective course in the Chemical and Biomolecular Engineering (ChemBE) department of our institution, which is a private university with high research activity in an urban metropolitan city in the Mid-Atlantic region of the United States. Some of the interventions included emphasizing the importance of mutual respect and learning in the syllabus, supportive and flexible teaching, use of real-life examples, and promotion of cooperative learning. Group debates were included as part of cooperative learning, which focused on discussions on the ethical and social implications of various biotechnologies such as gene editing, human-animal chimera, brain organoids, and so on. Qualitative analysis of the reflections from 20 students (collected from two semesters of the course offering) suggested that supportive and effective teaching along with a well-structured course positively impacted students’ learning experiences, feelings about the major, and peer interactions. Most of the interventions that we used can be implemented by any engineering educator, which could aid in transforming the culture and environment of engineering education in general. We are continuing this work to upgrade our quantitative analysis to assess the sense of belonging of students specifically in classroom as well as in major. This work is currently supported through an internal grant.
Zerin, N., & Yap, M., & Bi, H. (2025, June), Encouraging a supportive learning environment in chemical engineering education Paper presented at 2025 ASEE Annual Conference & Exposition , Montreal, Quebec, Canada . https://peer.asee.org/56344
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