Engineering Education Commons^™

Overview Of Standards For Technological And Engineering Literacy (Other), Philip Reed, Tyler Love, Scott Bartholomew, Kelly Dooley

STEMPS Faculty Publications

In 2020, the International Technology and Engineering Educators Association (ITEEA) published Standards for Technological and Engineering Literacy: The Role of Technology and Engineering in STEM Education (STEL) [1]. These standards open with a clear rationale why all Pk-12 students should study technology and engineering:

Technology and engineering are pervasive in all aspects of our lives. Every human activity is dependent upon the products, systems, and processes created to help grow food, provide shelter, communicate, work, and recreate. As the world grows more complex, it is increasingly important for everyone to understand more about technology and engineering [1, p. 1].

The …

Insights From Two Decades Of P-12 Engineering Education Research, Cary I. Sneider, Mihir K. Ravel

Journal of Pre-College Engineering Education Research (J-PEER)

The 21st century has seen a growing movement in the United States towards the adoption of engineering and technology as a complement to science education. Motivated by this shift, this article offers insights into engineering education for grades P-12, based on a landscape review of 263 empirical research studies spanning the two decades from January 2000 to June 2021. These insights are organized around three core themes: (1) students’ understandings, skills, and attitudes about engineering and technology; (2) effective methods of P-12 engineering education; and (3) benefits of P-12 engineering education. The insights are captured in the form of evidence-based …

Seventh-Grade Students' Use Of Heat Transfer Conceptions During An Engineering Design-Based Stem Integration Curriculum, Emilie A. Siverling, Tamara J. Moore

Integrated Engineering Department Publications

As the integration of STEM becomes increasingly important in pre-college education, it is important to study models of STEM integration. One model, engineering design-based STEM integration, has shown promising results in terms of student science content learning. This study’s purpose was to explore one student team’s use of heat transfer conceptions as they participated in an engineering design-based STEM integration curriculum. A case study research design, along with procedures from qualitative content analysis, were used to identify scientific and alternative conceptions that the seventh-grade students communicated during the unit. The main result is that the students spoke and wrote about …

Continued Efforts In Ti Arm M4 Microcontroller Curricula Developments And Assessments Between Three Different Institutions And Programs, Steve C. Hsiung, Lijian Xu, Feng Jao, Yonghui Wang, Suxia Cui

Engineering Technology Faculty Publications

This project is a continuation in efforts to upgrade the curricula in microcontroller related courses that are facing difficulties in the disappearing and lack technical supports in hardware and software of 68XXX and 80XXX microcontrollers. Through the study of a NSF supported project "Transform the Innovated Design and Development of an Embedded Design Training System and Associated Support Curricula into a Commercial Available Product" that interviewed 130 faculty/teachers/students across the U.S. has revealed on finding newly available microcontrollers is an urgent issue in the academic communities. Based on the supports on hardware and software and function libraries, the TI ARM …

Fostering Giftedness And Creativity: Implementing Engineering By Design In Kuwait, Nathan Mentzer, Philip A. Reed, Meshari Alnouri, Mohammad Barbarji

STEMPS Faculty Publications

The article offers information on a partnership between the International Technology & Engineering Educators Association (ITEEA) and the Sabah Al Ahmad Center for Giftedness and Creativity (SACGC) to support innovation and design education. The partnership is aimed towards the implementation of the Engineering byDesign (EbD) curriculum and contribute towards building a Kuwaiti society that fosters giftedness and creativity.

Teachers’ Incorporation Of Argumentation To Support Engineering Learning In Stem Integration Curricula, Corey A. Mathis, Emilie A. Siverling, Aran W. Glancy, Tamara J. Moore

Journal of Pre-College Engineering Education Research (J-PEER)

One of the fundamental practices identified in Next Generation Science Standards (NGSS) is argumentation, which has been researched in P-12 science education for the previous two decades but has yet to be studied within the context of P-12 engineering education. This research explores how elementary and middle school science teachers incorporated argumentation into engineering design-based STEM (science, technology, engineering, and mathematics) integration curricular units they developed during a professional development program. To gain a better understanding of how teachers included argumentation in their curricula, a multiple case study approach was conducted using four STEM integration units. While evidence of argumentation …

Reconceptualizing Pedagogical And Curricular Knowledge Development Through Making, Steven Greenstein, Justin Olmanson

Department of Teaching, Learning, and Teacher Education: Faculty Publications

While making is typically tethered to narratives of entrepreneurship and business, it can provide a gateway to meaningful interaction and deepened understanding of both content and pedagogy. In this article we provide descriptions of two courses—one each at the pre-service and in-service levels—that engage teachers in making and design practices that we hypothesized would inform their pedagogical and curricular thinking. With a focus on the design of new tools to support teaching and learning through the use of human-centered design practices and digital fabrication technologies, these courses have teachers exploring at the intersection of content, pedagogy, and making. Specifically, they …

Teacher Beliefs About Motivating And Teaching Students To Carry Out Engineering Design Challenges: Some Initial Data, James P. Van Haneghan, Susan A. Pruet, Rhonda Neal-Waltman, Jessica M. Harlan

Journal of Pre-College Engineering Education Research (J-PEER)

The present study examines middle school teachers’ beliefs about seven learning outcomes related to a project that involves developing and examining the effects of a set of engineering design modules constructed for use by middle school math and science teachers. Overall, the teachers involved in the intervention appear to believe they have the instructional skills, professional development, and resources to carry out the modules. Teachers from all of the schools (both intervention and comparison schools) for the most part valued the outcomes as important. Results of the study indicate that, although teachers believe they value and can obtain most of …

Leading Large-Scale Change In An Engineering Program, Cheryl Allendoerfer, Rebecca Bates, Jennifer Karlin, Ron Ulseth, Dan Ewert

Integrated Engineering Department Publications

While many efforts have been made to improve technical and professional skills in engineering graduates, there has been little comprehensive change in the pedagogy of most engineering education institutions in the U.S. Many of these efforts involve changing only one or two aspects of the curriculum, and therefore are less likely to make significant changes in the student learning outcomes. For better success, engineering curricular changes will need to address the entire education system. In order to see real, sustainable improvement in engineering education practice, both the behaviors of the participants and the systems within which these participants act must …

Ethical Reasoning Development In Project-Based Learning, Elizabeth Pluskwik, Puteri S. Megat Hamari

Integrated Engineering Department Publications

This paper will describe the method of ethics instruction in a specific project-based learning program with the aim to improve the current level of moral reasoning skills in the engineering students enrolled in the program. The Accreditation Board for Engineering and Technology (ABET) and the National Society of Professional Engineers (NSPE) have endorsed efforts to improve the teaching of ethics in the engineering curriculum. Criterion 3-f of the ABET outcomes,specifically calls for student attainment of an understanding of ethical and professional responsibility. In response, engineering educators seek to develop curriculum to improve moral reasoning skills, which should lead to increased …

Defining Characteristics Of An Integrated Stem Curriculum In K-12 Education, Vinson Robert Carter

Graduate Theses and Dissertations

The purpose of the study was to obtain consensus concerning the defining characteristics of integrated STEM (Science, Technology, Engineering, and Mathematics) curriculum. This study utilized a three round modified Delphi study to solicit recommendations from experts of STEM education in order to: 1) create a set of categorical and defining curricular components needed to develop and implement appropriate integrated STEM curriculum; 2) identify the characteristics that set integrated STEM education curriculum apart from single-discipline curricula; 3) discuss the components necessary to gauge whether an initiative, project, or curriculum should be referred to as integrated STEM education; and 4) examine whether …

A Comparison Study Of Project-Based-Learning In Upper-Division Engineering Education, Ron Ulseth, Bart Johnson, Rebecca Bates

Integrated Engineering Department Publications

A new model for engineering education was launched in January 2010 in northeastern Minnesota. The Iron Range Engineering (IRE) model is a project-based-learning (PBL) methodology that focuses on producing graduates with integrated technical and professional knowledge and competencies. A unique and important element of the IRE model has 100% of IRE student learning taking place in the context of industry projects. Students at IRE are upper-division engineering students who transferred from Minnesota community college lower-division engineering programs. To understand the impact that IRE methodology may have on preparing engineers with the competencies needed for the future workplace, a comparison study …

The Iron Range Engineering Pbl Curriculum: How Students Adapt To And Function Within Pbl, Rose M. Marra, Betsy Palmer, Ron Ulseth, Bart Johnson

Integrated Engineering Department Publications

Iron Range Engineering is a unique complete-PBL curriculum for upper division students. Rather than studying about engineering in traditional engineering courses, IRE students solve complex and ill-structured industry problems in mining, milling, and manufacturing industries. To support students’ transition to PBL and to facilitate deep approaches to learning technical and professional competencies required for the engineers of the future, faculty have created a variety of structures. This paper describes IRE’s PBL implementation and reports the results of a qualitative study of their students.

Entrepreneurship In The Iron Range Engineering (Ire) Model, Dan Ewert, Ron Ulseth, Bart Johnson, Jeff Wandler, Andrew Lillesve

Integrated Engineering Department Publications

The aim of this paper is to describe a new model for engineering education that has entrepreneurship, in its many form, as a focus. Issues involved with integrating student-based entrepreneurship into the educational process are also described.

Developing A New Program In Marine Engineering Technology, Anthony Dean, Gary Crossman, Alok Verma

Engineering Technology Faculty Publications

The Department of Engineering Technology, in the Batten College of Engineering and Technology at Old Dominion University, in conjunction with members of its advisory board and other industry representatives have begun a sustained effort to promote and develop a strong course of study in Marine Engineering Technology. Located in Norfolk, Virginia, Old Dominion University, and particularly the Department of Engineering Technology, is uniquely positioned to develop such a program. With strong ties to the world's largest Naval Base and superlative shipbuilding, maintenance and repair facilities, early qualitative research indicated high interest for development of such a program in support of …

A Comparison Between Frequent Out-Of-Class Assignments And Frequent In-Class Assessments Relative To Student Performance In A Sophomore Level Electrical Circuit Analysis Course, Isaac Flory, Christian Hearn

Engineering Technology Faculty Publications

Two parallel sections of a sophomore level circuit analysis course in Electrical Engineering Technology were structured to provide insight to the marginal utility of out-of-class assignments versus in-class assessments in academic performance. Student distributions for each section, the classroom model, the composition of the common tests and exam, and grading formats are discussed. The data presented and the conditions of the resulting observations indicate the model which favored out-of-class assignments led to improved test scores.