Academic Handbook Physics and Engineering Mobility Courses
Cornerstone of Engineering I Course Descriptor
Last modified on December 18th, 2023 at 12:55 pm
| Course Code | LENGR4117 | Discipline | Engineering |
| Credit Points | 15 | US Credits | 4 |
| FHEQ Level | 4 | Date Approved | August 2022 |
| Core Attributes | |||
| Pre-Requisites | N/A | ||
| Co-Requisites | N/A | ||
Course Overview
This course introduces students to the engineering design process and algorithmic thinking, using a combination of lectures and hands-on projects while encouraging critical thinking. It offers students an opportunity to develop creative problem-solving skills used in engineering design, to structure software, and to cultivate effective written and oral communication skills.
Course Aims
- Discover how to implement programming and execution of a design through the interactive design process using authentic hands-on design projects.
- Integrate value-sensitive design (qualitative assessment of design impact on users and society), ethical principles, and professional responsibilities into engineering design.
- Develop problem-solving skills in algorithmic thinking through computer programming.
Learning Outcomes
On successful completion of the course, students will be able to:
Knowledge and Understanding
| K1a | Demonstrate an understanding of the engineering design process. |
| K2a | Research the scientific principles, technical background required to understand the problem to be solved, and benchmark existing or related products. |
| K3a | Produce original, clear, sophisticated, and persuasive treatments of complex topics. |
Subject Specific Skills
| S1a | Implement the desired design solutions using appropriate engineering techniques. |
| S2a | Analyse and interpret computational and experimental results as part of engineering practice. |
| S3a | Demonstrate the concept of engineering design by using modern drawing and or sketching software tools and the principles of orthographic projection. |
Transferable and Professional Skills
| T1a | Communicate effectively with specialist and non-specialist audiences. |
| T2a | Apply problem-solving skills to the conception of a particular solution. |
Teaching and Learning
Teaching and learning strategies for this course will include:
A minimum of 40 contact hours, typically to include interactive group teaching, co-curriculars, individual meetings, in-class presentations and exams.
Course information and supplementary materials are available on the University’s Virtual Learning Environment (VLE).
Students will receive individualised developmental feedback on their work for this course.
Students are required to attend and participate in all the formal and timetabled sessions for this course. Students are also expected to manage their directed learning and independent study in support of the course.
Assessment
Formative
Students will be formatively assessed in class through class activities, and during office hours. Formative assessments are ones that do not count towards the final grade but will provide students with developmental feedback.
Summative
| AE: | Assessment Activity | Weighting (%) | Online submission | Duration | Length |
| 1 | Design Projects | 30 | No | 15-25 hours to
Complete |
N/A |
| 2 | Written Examination | 20 | No | 1hr45min | N/A |
| 3 | Written Examination | 20 | No | 1hr45min | N/A |
| 4 | Portfolio | 30 | Yes | 10-20 hours to
Complete |
N/A |
Further information on the structure of summative assessment elements can be found in the Summative Assessment Briefs.
Feedback
Students will receive feedback in a variety of ways: written (including via email correspondence); oral (within office hours or on an ad hoc basis) and indirectly through class discussion.
Feedback on examinations is provided through generic internal examiners’ reports and are made available to the student on the VLE.
For all other summative assessment methods, feedback is made available to the student either via email, the VLE or another appropriate method.
Indicative Reading
Note: Comprehensive and current reading lists for courses are produced annually in the Course Syllabus or other documentation provided to students; the indicative reading list provided below is used as part of the approval/modification process only.
Books
- “Cornerstone of Engineering”, TopHat
Electronic Resources
- matlab
- solidworks
- AutoCAD
- TOP HAT VLE
- Arduino IDE
- CLion / C++ complier
Indicative Topics
C++ Arduino Excel AutoCAD & Orthography Technical Communication
- C++ and Arduino Programming
- AutoCAD and solidworks design skills
- Orthography Technical Communication
- Creative self-led design projects
| Title: LENGR4117 Cornerstone of Engineering I Course Descriptor
Approved by: Academic Board Location: Academic Handbook/Programme Specifications and Handbooks/Mobility Courses |
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| Version Number | Date Approved | Date Published | Owner | Proposed Next Review Date | Modification (As per AQF4) & Category Number |
| 1.2 | January 2022 | January 2022 | Dr Susan Freeman | September 2027 | Category 1: Corrections/clarifications to documents which do not change approved content. |
| 1.0 | August 2022 | August 2022 | Dr Susan Freeman | August 2027 | |