Unlock Explanations of Mechanical Engineering Queries : Page - 11

Course Code   :  EG7312

Course Title   :  systems engineering

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Waterfall Approach for Complex SystemsAnswers are expected to two questions. Answers to only two questions will be marked.  Attempted solutions that you do not wish to submit should be crossed out. If you do attempt more than two questions, and do not identify which two you want to be marked, only the first two in the answer book will be marked. For each question, the distribution of marks out of 20 is indicated in brackets. 1. Question ...

Learning Outcomes to Be AssessedThe learning outcomes that are assessed by this coursework are: 1. A systematic understanding of research methodology and practice. 2. The ability to interpret and critically appraise the research of others. 3. The ability to develop a research proposal with a clear aim, set of objectives and methodology 4. The ability to plan a meaningful and original research project Assignment B - Tasks to be undertaken:...

Teams and Learning through DoingThis is the first of the two stages involved in the design and make of a radio-controlled rover. This assessment involves: • Teams: The teams shall be composed of five students; • Learning through doing: this assignment will require a lot of learning to be done outside the lecture hall. Design context: You work as a designer in a company that has just received requirements for the design and manufa...

Sustainable Energy SourcesThis piece of coursework covers 80% of the marks for the entire EG5014 Advanced Sustainable Technology module. The word count for this assignment is in the region of 2500 words in addition to Appendices and labelled diagrams / sketches. Presentation: The quality of the presentation, cross-referencing of materials/images & references cited will be awarded. Task – Sustainable construction sources and require...

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Your submissionwill include a physical model (a specific designproductor objectthat representsyour findings)and a supporting text that reveals your research findings which explainswhat you have found about each culture; how their practices and representativeformsare applied tosite or object; how the twocultural expressionscompareor contrast;and describes your physical submissionin detail.Aims:•To demonstrate an understanding of how culture i...

Aims of this workAims of this work 1. To develop a systematic understanding and critical awareness of sustainable manufacturing systems, system design approaches and planning techniques applied to industry. 2. To enhance the acquisition of analytical knowledge and practical skills gained for analysing a complex manufacturing process or system and their integration using advanced computer design and modelling simulation tools. 3. To explore ...

ObjectiveThe following module learning outcomes and professional body learning outcomes are tested in this assessment: ·Describe and critically analyse quality management systems, product liability prevention programmes and implementation of quality tools and techniques, in manufacturing industry. The final report should bear the name of all group members, clearly specify their contribution and should be submitted by the group leader...

Objectives of the AssignmentOn successful completion of this module, student should be able to: 1. Critically evaluate and apply appropriate innovation and creativity tools and techniques to solve a technical problem to achieve a sustainable future. 2. Reflect objectively on your own career aspirations and potential professional development for the next 10 years to produce a suitable output for dissemination. As part of your continuing prof...

Design Constraints1. The maximum height of the fins Lf should not exceed 80 mm. 2. The minimum thickness of any fin is 2 mm 3. The minimum distance between any two fins is 3 mm 4. Material data is given in the table. Part 1. Two-dimensional heat sink analysis using numerical finite-difference method Using information provided in the “Problem Statement” section, “Design constraints&aci...

Module Learning OutcomesThis Assignment assesses the following module Learning Outcomes (from Definitive Module Document): 1. Explore the principal materials and processes used in vehicle body manufacturing and other automotive applications. 2. Distinguish the properties and service requirements of automotive materials and the reasons for their selection. 3. Assess recyclability of automotive materials, taking account of economic and legisl...

Submission Guidelines1.The coursework should be your own work and should be properly type-written in your own words. Marks will be reduced for the typo-errors and missing units. The assignment will be checked for plagiarism using TURN-IT-IN software. Any plagiarism or copying from others will be dealt through the university’s plagiarism procedures. Similarity (plagiarism) level higher than 10% is highly suspicious. 2. The whole report s...

Studio room is designed to be maintained at 24qC and 50% relative humidity and experiences a sensible cooling load of 60 kW and a latent load of 40 kW. The air conditioning system is equipped with a cooling coil followed by a heating coil. The cooling coil has been selected to provide fully saturated outlet air at 8qC. Determine the following:i. The supply air conditionsii. The supply air flow rateiii. The amount of reheating providedA Psychrome...

Question: Module Learning Outcomes The following module learning outcomes and professional body learning outcomes are tested in this assessment: (LO1) Define and analyse engineering fluid flow problems using the Navier Stokes equations. Simplify flow problems and solve them exactly. (SM1m, SM2m, G1)(LO2) Construct appropriate solid models for CFD analysis, setup the solution domain and generate suitable surface and volume grids via meshing t...

1. The Bode plot of a mechanical plant is shown in Fig. 1. (a) What will be this mechanical plant’s steady-state output if it is subjected to an input of r(t) = 2sin(5t) – 6cos(20t + ?)?   (b) A unity feedback system is implemented on this mechanical plant. i. Determine if the system is stable. ii. Determine the system’s steady-state error when subjected to a unit step input.  iii. Determine the system’s...

Steady-state output with given inputThe Bode plot of a mechanical plant is shown in Fig. 1. (a) What will be this mechanicalplant’s steady-state output if it is subjected to an input of r(t) = 2sin(5t) –6cos(20t+ ?)? (b) Aunity feedback system is implemented on this mechanical plant. i.Determine if the system is stableii.Determine the system’ssteady-state error when subjected toa unit step input iii.Determine the system’s...