Although undergraduate research experience has proven to have positive effects on student outcomes, such opportunities are not always widely available. Options can be especially limited for early-career engineering students who have limited research experience. One approach to addressing this issue is to partner engineering instructors with active…

Transdisciplinary learning--where students develop and apply knowledge from multiple disciplines to solve open-ended problems--is necessary to prepare students for the most pressing real-world problems. Because transdisciplinary education often requires reimagining the content and design of undergraduate science courses, it can be a challenge for…

This paper highlights the design process and implementation for an "all majors" undergraduate course that allows students a chance to reconnect with the natural world. During this course students explore a wide range of biological and physical science based topics that seek to highlight human intervention and our impacts on the planet.…

An interdisciplinary approach to problem solving, planning, and implementation is the key to Xerox Corporation's development program for new engineers. The three major phases of the program are discussed. (JN)

Core concepts can be integrated throughout lower-division science and engineering courses by using a series of related, cross-referenced laboratory experiments. Starting with butane combustion in chemistry, the authors expanded the underlying core concepts of energy transfer into laboratories designed for biology, physics, and engineering. This…

We describe the design and implementation of our Hierarchical Learning Ensemble (HLE) model, a pedagogy that assembles interdisciplinary teams of graduate, undergraduate, and secondary-level students to solve science and engineering problems. Our goal is to sensitize undergraduates to working in heterogeneous groups and thus better prepare them…

Explains a component of an introductory genetics course that exposes students to bioethical issues and the social responsibilities of scientists. Students engage in discussion in an interdisciplinary format. (DDR)

As the evidence of the benefits of multidisciplinary education accumulates many schools and instructors are finding ways of hybridizing courses to include substantial components of what are otherwise distinct sciences. Often, such course development is done with an eye toward industry, which requires a workforce capable of synthesizing varied…

Describes an engineering course for education and other nonscience majors. In this course, students integrate basic principles of applied physical science and engineering to solve authentic design problems. Discusses the nature of the interactive and problem-based instructional format and its effects on developing students' scientific inquiry…