Chemical engineers must learn to connect concepts across vastly different scales, spanning from molecular structures to industrial processes. Here, we explore the use of a virtual-reality simulation with a companion video of an experiment to help undergraduate students connect nanoscale fundamentals to macroscale engineering observations.

Construction planning is vital to civil engineering projects, involving task coordination, resource estimation, and risk assessment. Traditional educational methods in Engineering management courses frequently lack real-world feedback, hindering understanding of students. To bridge this gap, this study aims to propose an educational approach…

Distance learning has become a necessity and a common practice, using electronic devices and the Internet to facilitate online classes and exams. One course in undergraduate electrical engineering is the Digital Signal Processing (DSP) course, which requires exposure to theoretical concepts as well as simulations. In this paper, we propose a…

We present a two-week active learning chemical engineering hackathon event specifically designed to teach undergraduate chemical engineering students of any skill level data science through Python and directly apply this knowledge to a real problem provided by industry. The event is free and optional to the students. We use self-evaluation surveys…

Worked examples can help novice learners develop early schemata from an expert's solution to a problem. Nonetheless, the worked examples themselves are no guarantee that students will explore these experts' solutions effectively. This study explores two different approaches to supporting engineering technology students' learning in an…

Practical activities are at the core of learning in both engineering and science education programs. Hence, such activities are included as important practical learning experiences in each of these fields. During such learning experiences students are confronted by many different entities, from simple equipment to advanced instrumentation, all of…

Mathematics plays a crucial role in engineering education. Students who are good at math are often advised to consider engineering as a career. In this study, engineers, mathematics teachers, and engineering professors were asked about the type of mathematics representative of engineering, whether the engineering problems created by math…

This study proposed a framework for Virtual Peer Learning by testing Peer Learning Model to engineering students at a university in Manila during the second semester of school year 2021-2022. Guided Peer Discussions method was applied using Virtual Think-Pair-Share and Virtual Gallery Walk as teaching strategies. Convergent-parallel mixed method…

Background: Engineering students will be responsible for building new technologies that either mitigate or exacerbate future sustainability problems. Engineering educators are thus tasked with educating engineering students on the knowledge, attitudes, and behaviors that will make them change makers of the future. Purpose: The purpose of this…

This study examined the effects of the engineering design-based activities developed in the context of aircraft engineering on the engineering design process (EDP) skills of students. Through the notebooks that the students provided during the implementation process, their EDP skills for each engineering design phase (identification of the…

In this classroom activity, students consider geographic context--features like mountains, rainforest, and rivers--in order to assess their influence on transport mode selection, speed, weight limit, and cost. Cost of transport, in turn, has significant effects on the local economy. Students will learn that people in a place must import anything…

Teamwork has been described as a leadership-coupled professional competency in postsecondary engineering education. It has been listed among the most critical professional skills by engineering industries and professional organizations. Here, a mixed-method case study is reported, which used Visual Thinking Strategies alongside a group project in…

This exploratory study compares how young people (ages 15-16) learn circuitry concepts and layout design principles important to electrical engineering using one of two educational circuitry toolkits: paper circuits and traditional solderless breadboards. Paper-based prototyping kits are representative of a trend that incorporates new materials…

Background: For engineers who aim to address sustainability challenges, participating in transdisciplinary teams is key. Yet developing transdisciplinary knowledge, including systems thinking, metacognition, and empathic thinking, is not well supported in traditional engineering programs. Purpose: The extent to which selected learning activities…

Background: The complexity and diversity of problems and concepts in different engineering subjects represent a great challenge for students. Traditional approaches to teaching statics are ineffective in helping some students overcome the learning barriers that underlie learning statics and developing problem-solving skills. Purpose: This article…