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Rogers, Helen L.; Hitt, Sarah J.; Allan, Dave G. – Journal of Problem Based Learning in Higher Education, 2021
NMITE's Master's in Integrated Engineering (MEng) was created with a unique philosophy of integrating not only traditionally separate strands of engineering, but also of integrating engineering with other disciplines such as arts, humanities, and business. This broad and deep integration is made possible by adopting the principles and practices of…
Descriptors: Problem Based Learning, Curriculum Design, Engineering Education, Interdisciplinary Approach
Sánchez-Cambronero, Santos; Lozano-Galant, Jose A.; Castilla, Francisco J.; Poveda, Elisa; Galán, Álvaro; Porras, Rocio; Gallego, Inmaculada; López-Moya, Raul – Journal of Civil Engineering Education, 2021
This article presents the application of the problem-based learning (PBL) methodology for introducing the civil engineering task of bridge design and construction to high school students with a multidisciplinary approach. The materials (toy construction system) and methodology of the workshop are first presented. Then, three examples of arch…
Descriptors: Problem Based Learning, Civil Engineering, Engineering Education, High School Students
Gonczi, Amanda L.; Maeng, Jennifer L. – Science Activities: Projects and Curriculum Ideas in STEM Classrooms, 2020
Problem-based learning (PBL) instruction tasks students with solving a real-world, relevant problem and provides a motivating context for learning science content. It also affords a natural opportunity for students to intentionally engage in a variety of engineering practices and components of engineering design if the problem scenario…
Descriptors: Problem Based Learning, Engineering Education, Physical Sciences, Scientific Concepts
Hu, Yuqi; Li, Chunli – Journal of Chemical Education, 2020
Relying on the National-Local Joint Engineering Laboratory and National Chemical Design Competition for college students, a multidimensional education mode presented here combines the advantages of problem-based learning (PBL) and "Conceive-Design-Implement-Operate" (CDIO) approaches, while also overcoming the restrictions of PBL and…
Descriptors: Problem Based Learning, Teaching Methods, Undergraduate Students, Chemical Engineering
Natarajan, Sukumar; McCullen, Nick; Lo, Steve; Coley, David; Arja, Omaimah Ali; Moran, Francis – International Journal of Technology and Design Education, 2021
Engineering is a practical discipline, dedicated to the solution of problems through the sound application of principles derived from the natural sciences and mathematics. Engineering pedagogy has therefore to balance the need for learners to gain a deep understanding of the theoretical basis of the problem domain whilst grasping its practical…
Descriptors: Engineering Education, Instructional Design, Theory Practice Relationship, Problem Solving
John Mitchell; Emanuela Tilley – Journal of Problem Based Learning in Higher Education, 2024
This paper will present the argument that while Problem Based Learning (PBL) (or its variant Project Based Learning, PjBL) provides significant benefits and advantages to student learning in of itself, the full benefit of PBL is only completely realised as part of an "integrated" curriculum that provides a variety of learning…
Descriptors: Foreign Countries, College Faculty, Engineering Education, Educational Researchers
Santos, José; Escórcio, Patrícia – European Journal of Engineering Education, 2022
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…
Descriptors: Civil Engineering, Engineering Education, Construction (Process), Construction Management
Higuera-Martínez, Oscar Iván; Corazza, Giovanni Emanuele; Fernández-Samacá, Liliana – European Journal of Engineering Education, 2022
This article presents how Problem- and Project-Based Learning (PBL) in engineering education can exploit the theoretical framework of the Space-Time (ST)-Continuum, according to which educational contexts can be classified in terms of the tightness vs. looseness of the relevant conceptual space S and available time T. By crossing these two…
Descriptors: Problem Based Learning, Engineering Education, Teaching Methods, Intervention
Lindsay, Euan D.; Morgan, James R. – European Journal of Engineering Education, 2021
CSU Engineering is the new civil engineering school at Charles Sturt University in Australia. Established at an institution that has not previously offered Engineering, CSU Engineering has taken the opportunity to design and implement a radically different model for its degree, drawing upon the frontier trends and themes in engineering education…
Descriptors: Engineering Education, Problem Based Learning, Workplace Learning, Online Courses
Mitchell, John E.; Nyamapfene, Abel; Roach, Kate; Tilley, Emanuela – European Journal of Engineering Education, 2021
Many traditional engineering schools are struggling to balance the calls to provide an innovative engineering education that meet the demands of graduates and their employers with the constraints and momentum of their existing curriculum. In this paper we present the conceptual design behind a framework that integrates existing discipline-specific…
Descriptors: Research Universities, Problem Based Learning, Engineering Education, Teaching Methods
Burrow, Lauren; Cross, Chrissy – Science and Children, 2019
Created by Tufts University through a National Science Foundation (NSF)-funded project, the Novel Engineering website explains that "Novel Engineering is an integrated approach to teaching engineering and literacy" (2018) that asks teachers to support students' engagement in a project-based endeavor of problem-and-solution processes and…
Descriptors: Teaching Methods, Engineering Education, Student Projects, Problem Based Learning
Bartholomew, Scott R. – Technology and Engineering Teacher, 2017
Interest in Technology and Engineering Education (TEE) has recently revolved around working to define/redefine who we are, and who we are not; while others in TEE are not interested in a change of identity. An emphasis on design, design education, and design assessment may help clarify the discussion surrounding the future direction of TEE.…
Descriptors: Technology Education, Engineering Education, Design, Elementary Secondary Education
Zalewski, Janusz; Novak, Gregor; Carlson, Randall E. – Education Sciences, 2019
This paper is an overview of approaches to teaching physics courses delivered to students of engineering disciplines. It addresses, first, the history of teaching physics to engineering students starting in the early 20th century, then reviews the main issues presented and discussed over the last decade in a series of conferences on Physics…
Descriptors: Physics, Science Instruction, Engineering Education, Undergraduate Students
Cian, Heidi; Marshall, Jeff; Cook, Michelle – Science Teacher, 2019
The "Framework" (NRC 2012) and "Next Generation Science Standards" (NGSS Lead States 2013) require science teachers to think differently. Specifically, NGSS's performance expectations now require that three domains (disciplinary core ideas (DCI), crosscutting concepts (CCC), and scientific and engineering practices (SEP)) be…
Descriptors: Science Instruction, Teaching Methods, Standards, Science Teachers
Aaron M. Kyle; Michael Carapezza; Christine Kovich – Journal of STEM Outreach, 2018
Increased emphasis on K-12 engineering education, including the advent and incorporation of the NGSS in many curricula, has spurred the need for increased engineering learning opportunities for younger students. This is particularly true for students from underrepresented minority populations or economically disadvantaged schools, who…
Descriptors: Summer Programs, Design, Engineering Education, Laboratory Procedures