As understanding of STEM education pedagogy deepens, traditional lecture-based courses evolve to include new philosophies, such as active learning, project-based learning, and inquiry-based learning (IBL). Additionally, hands-on educational experiences at the early stages of an undergraduate program are seminal in propelling students into the…

A Computer-Aided Learning Package as Inquiry-Guided Learning (CALP/IGL) was implemented in a cooling tower experiment for 43 students enrolled in four sections of the Unit Operations Laboratory course in the chemical engineering program at Qatar University. The impact of this approach on the attainment of learning outcomes was evaluated. Results…

Project-Enhanced learning is an excellent way to facilitate student-centered learning along with traditional lecture-based learning. In this Class and Home problem, an example of Project-Enhanced learning is provided that can be used in the Mass and Energy Balances (MEB) course. The students solve this problem as part of a group while receiving…

Cross-disciplinary fields such as biotechnology require chemical engineers and non-engineers to routinely work together, thus creating a need for non-engineers to learn chemical engineering. But limited knowledge on non-engineers' learning preferences and the lack of pedagogical methods to teach non-engineers restricts the opportunities available…

This report evaluates the use of active, open-ended research problems taken from the instructor's laboratory and assigned as mid-semester projects in Transport Phenomena. Projects are structured in a POGIL [process oriented guided inquiry learning] format and designed to engage students by providing them the opportunity to impact real research…

Heat and temperature concepts are found at all levels in the science curricula and are well-known for creating conceptual difficulties for learners. Students have difficulty understanding concepts related to heat, temperature, and thermal radiation. Inquiry-based pedagogies that can foster the learning of these difficult concepts are needed.…

With the advance of engineering education research and scholarship, there has been an increased focus on amending chemical engineering courses to increase student learning, engagement and enjoyment. These approaches are often incorporated in project-based courses such as capstone design courses and laboratory courses, providing opportunities to…

The LearnChemE site (www.LearnChemE.com), which provides teaching/learning resources for chemical engineering courses for both faculty and students, is described. The site provides resources to help faculty implement active learning and flipped classrooms. The site also helps students supplement their textbooks and classroom materials. The…

Typically the material and energy balance (MEB) course is taught at a freshman or sophomore level. Success in this early course is generally believed to be a metric for future success within the chemical engineering curriculum. However, the complexities and dynamics of the course stem from not only the difficulty of the subject matter, but also…

This profile describes the AIChE Concept Warehouse (CW) website, a community developed, web-based tool to decrease instructional barriers and to help faculty implement concept-based active learning in class. The CW provides three distinct but complementary functions: (a) a content repository, (b) an audience response system and learning management…

This study aims to describe a novel teaching mode that allows for direct instructor-student and student-student discussions of material balance concepts by means of active learning. The instructor explains the concepts during class time while using a remotely controlled laboratory system that is projected on a screen with real-time access to the…

Despite the instinctive perception of mass and heat transfer principles in daily life, productive learning in this course continues to be one of the greatest challenges for undergraduate students in chemical engineering. In an effort to enhance student learning in classroom, we initiated an innovative active-learning method titled…

Active learning in class helps students develop deeper understanding of chemical engineering principles. While the use of multiple-choice ConcepTests is clearly effective, we advocate for including student writing in learning activities as well. In this article, we demonstrate that word clouds can provide a quick analytical technique to assess…

Changes in student perceptions to a novel technology-based, active-learning pedagogy using a custom, sophisticated, personal response system called WISE were studied over the first five years it was used. Students tended to view active learning more favorably over time, particularly in regards to statements that required them to be interpretive of…

The delivery of a material and energy balances course is enhanced through a series of in-class and out-of-class exercises. An active learning classroom is achieved, even at class sizes over 150 students, using multiple instructors in a single classroom, problem solving in teams, problems based on YouTube videos, and just-in-time teaching. To avoid…