Courses Bachelor Display 2020-2021
|Fundamentals of Engineering
Bart van Grinsven, Gabriëlle Tuijthof
For more information: email@example.com; firstname.lastname@example.org
|Language of instruction
1. Reproduce knowledge on the generic engineering design cycle and describing functional elements in devices, systems, products.
2. Understand, explain and use basic engineering principles and recognition of orders of magnitude.
3. Perform elementary modelling and basic calculations on mechanics, energy, electricity, fluids and heat transfer.
4. Define an engineering problem and explain the relationship with business processes both in written text and via graphic schemes.
5. Demonstrate understanding of engineering problems related to their societal and regional context to detect the most viable by searching and studying additional literature.
6. Adapt to new and emerging technologies and recognize innovative elements in a design.
PLEASE NOTE THAT THE INFORMATION ABOUT THE TEACHING AND ASSESSMENT METHOD(S) USED IN THIS COURSE IS WITH RESERVATION. THE INFORMATION PROVIDED HERE IS BASED ON THE COURSE SETUP PRIOR TO THE CORONAVIRUS CRISIS. AS A CONSEQUENCE OF THE CRISIS, COURSE COORDINATORS MAY BE FORCED TO CHANGE THE TEACHING AND ASSESSMENT METHODS USED. THE MOST UP-TO-DATE INFORMATION ABOUT THE TEACHING/ASSESSMENT METHOD(S) WILL BE AVAILABLE IN THE COURSE SYLLABUS.
This course introduces the fundamentals of engineering. It provides an overview of the various engineering fields, which are covered in the Business Engineering programme, such as systems engineering, electrical engineering, mechanical engineering, transport phenomena (heat and fluid), sensor and optical engineering with a specific focus on the open-ended and multidisciplinary nature of typical engineering problems and the underlying scientific principles. The students familiarize with the engineering design cycle, which consists of formulating a problem, setting design requirements, generating several concepts, selecting the optimal solution and realizing it. Upon completion, students will be able to identify and explain the elementary process steps in scientific instrumentation design, modelling and engineering. Special attention is paid to the underlying scientific principles and laws of the mentioned engineering fields as well as the elementary modelling steps of engineering systems. The course prepares students for later courses in which they continue the development of their engineering skills to assist selection of appropriate materials for a design and accompanying make production process decisions. In this light, students need to perform this with an understanding of the business and financial impact, but also the academic environment as well as ethics, safety and sustainability aspects. Finally, the course explains the transdisciplinary role of engineers in a rapidly changing globalising world.
The course follows the problem-based learning approach with a company visit, 6 lectures, 6 tutorials and 6 workshops.
Team report made according to a predefined format (30% of the final grade) and final individual exam consisting of multiple choice and open-ended questions (70% of the final grade).
* Moaveni S. (2016). Engineering Fundamentals: An Introduction to Engineering, SI Edition. Cengage Learning, 5th edition, ISBN 978-1-4390-6208-1
* Khandani S (2005), Engineering design process. View date: 1-5-2019
For basic sketching: http://www.delftdesigndrawing.com/ and https://sketching.nl/. View date: 23-04-2020
No prerequisites are required.
Engineering, modelling, calculations, unities, design
|Teaching methods (indicative; course manual is definitive)
|PBL / Lecture
|Assessment methods (indicative; course manual is definitive)
|Evaluation in previous academic year
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|This course belongs to the following programmes / specialisations