Engineering by investigation  

Unit Information This unit introduces students to: the fundamentals of experimental practice and computing through to the appropriate reporting of findings; different forms of basic instrumentation and measurement devices; development of basic coding practice and structure; basic electronics required to acquire signals through a data acquisition device; how errors can be identified and quantified; academic / technical report writing professional practice, including the presentation of data and the identification of health and safety requirements. Using a number of different laboratory experiments and supporting lecture / seminar content, the aims of the unit are to enable students to: identify and utilise appropriate measurement tools; utilise a given instrumentation chain to record data of an appropriate sample rate and quality; quantify sources of error; utilise computer programming to analyse and present data; develop representative computational models of underpinning theoretical science; communicate findings through a report concisely; evaluate differences in theory and practice; engage with the health and safety process and the role of risk assessments; critically evaluate written work through a peer and self-assessment structure. engage in reflective practice Your learning on this unit At the end of this unit student will be able to: 1. Prepare: Undertake basic hazard identification and engage with laboratory risk assessments 2. Develop: Formulate algorithmic solutions and use computer programming to solve engineering problems and analyse data 3. Apply: Use electronic principles to process signals and interface with sensors 4. Analyse: Identify and quantify sources of error, recognising the impact on choice of measurement tool 5. Communicate: Structure a written report following outlined reporting standards, including appropriate use of tables and figures, to present a coherent story.
Presential
English
Engineering by investigation
English

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