In many mechanical engineering undergraduate curriculums, there are topics that are vital to the students' future careers in the manufacturing and design workforce that are not taught in-depth. As one of those topics, Geometric Dimensioning and Tolerancing, or GD&T, is vital to companies who develop and manufacture products because it allows…

In 2014, the UCL Faculty of Engineering Sciences introduced the Integrated Engineering Programme -- a revision of eight existing degree programmes across a range of engineering disciplines. Centred on a thread of authentic project-based activities, the programme aimed to enhance the students' understanding of key theoretical concepts and heighten…

Recent changes have been made in Science, Technology, Engineering, and Mathematics (STEM) education in the United States with the goal of increasing the number of students pursuing degrees and careers in STEM. The Next Generation Science Standards (NGSS) integrate new science and engineering standards in an attempt to achieve this goal and are the…

This paper presents a design project and its assessment in an undergraduate control theory course. In the project, students mathematically modeled the thermal dynamics of a glass incubator and its heat source. Based on these models, they designed a lag compensator to keep the incubator temperature in a safe range when the external temperature…

Students are attracted to innovation and entrepreneurship. However, it is challenging for them to take courses in I&E due to their already busy curriculums. This paper describes the "New Venture Design Experience," a one-year interdisciplinary program that pairs core and elective courses between the colleges of Engineering and…

For many years, educators have been developing tools and techniques to improve the learning process in higher education; however, the vast majority of these do not focus directly on deep learning. In this work, an innovative teaching/learning tool is presented which focuses on deep learning of some engineering skills and principles. The tool is…

In-class example problems that students work out on their own using active problem-solving are typically well received and help the students better learn the material; however, they are difficult to enact in large classes with limited resources due to the number of questions received and the speed at which different students work through the…

This paper examines the effects of hands-on learning in an undergraduate circuits class that is taught to non-majors; i.e., students outside of electrical and computing engineering. The course, ECE3710, is taught in a blended format facilitated by the video lectures prepared for two Massive Open Online Courses developed for the Coursera Platform.…

Engineering students benefit from an active and interactive classroom environment where they can be guided through the problem solving process. Typically faculty members spend class time presenting the technical content required to solve problems, leaving students to apply this knowledge and problem solve on their own at home. There has recently…

Creativity, invention, and innovation are values championed as central pillars of engineering education. However, university environments that foster open-ended design-build projects are uncommon. Fabrication and prototyping spaces at universities are typically "machine shops" where students relinquish actual fabrication activities to…