Biomedical engineering (BME) is a multidisciplinary, constantly advancing field; as such, undergraduate programs in BME must continually adapt. Elective courses provide opportunities for students to select topic areas relevant to their interests or future careers. Specifically, laboratory courses allow experiential learning in specialized topics…

The unique characteristics of the training needed for today's biomedical engineers can represent a challenge in curriculum design. Practical experiential learning for biomedical engineering undergraduates is important to prevent under-developed professional skills. In this teaching tips article, we provide an example of how to incorporate…

Integrated science, technology, engineering, and mathematics (STEM) curricula have taken center stage in the recent education reforms. However, the challenge in teaching STEM curricula lies in finding ways to develop students' content knowledge and plan suitable learning activities and instructional strategies. This paper is focused on the…

Building Information Modelling (BIM) has changed the way many civil engineers organise and execute their job in recent years. Many universities around the world have been adapting their curricula to include BIM education. However, this adaptation has been incomplete, occurring only in a small number of subjects. To fill this gap, this paper…

Through the project-based instruction (PBI) method, this paper described the design, implementation, and assessment of a technical communication course for engineering graduate students. The paper first addressed an increasing demand of engineering students with great communication skills through analyzing the existing literature and industry…

In this paper, we address the societally important issue of developing a more equitable approach to preK-12 engineering education. Our primary emphasis is on K-8 grades--a time when first impressions of engineering may be developed. Calls for increased participation by all students, including those who have been historically marginalized, motivate…

This article is the first of a two-part series about Engineering for All (EfA), a $1.7M National Science Foundation-funded project, which introduces middle school students to engineering, not only as a career path, but as an endeavor with potential for doing social good. Engineering for All opens students' eyes to the role engineers play in…

Most science curricular reform efforts are designed by administrators or science education experts. It is less common for teachers to work collaboratively across disciplines to create, implement, and disseminate an integrated STEM curriculum developed for noncollege-bound students that ended up being popular across student populations at the…

This is the second of two articles about the National Science Foundation-funded Engineering for All (EfA) program which focuses on engineering as a potential social good, revisits major Technology and Engineering (T&E) themes (design, modeling, systems, resources, and human values) in two authentic social contexts (Food and Water), and uses…

Given the current emphasis on science, technology, engineering, and math (STEM) education and its key attributes, middle school is an optimal time to implement STEM-based curricula. However, the interdisciplinary and open-ended nature of STEM projects often makes implementation difficult. In this article, we describe a professional development…

In 2011 a new national curriculum for the education of engineers was established in Norway. The objective of the curriculum is to ascertain that engineering education is professionally oriented, integrated, research-based and has a high academic standard. Institutions are instructed to facilitate a holistic approach to the engineering profession,…

Synchrophasors, widely used in the monitoring and analysis of power systems, evolved from the phasor method presented by Charles Proteus Steinmetz in 1893. The phasor method is a mathematical method for solving linear sinusoidal steady-state circuits and time-varying electromagnetic fields. This paper traces the history and diffusion of the phasor…

This paper presents a new method to improve the quality in technical education in order to meet the industry expectations. The quality of education and training being imparted in the technical education institutions varies from excellent to poor, with some institutions comparing favourably with the best in the world. Few others are suffering from…

Although it is helpful to identify a list of concepts to categorize and communicate the big ideas of engineering, it is important to determine how best to incorporate them into instruction. Concept mapping is a well-established learning and assessment tool that can be used by technology and engineering teachers. Maps can trace levels of…

In this article we describe a curricular strategy that improves the full range of skillsets critical to capstone success. Improved Capstone (ICap) was developed and implemented across the thermo-fluids topical area in the undergraduate Mechanical Engineering Technology Program at the University of Hartford. ICap experiential courses sequentially…