Hello everyone,

I am a civil engineering student in Greece and I need someone to solve 2 coursework for me, the first one I can do partly by myself and what I need to be done is to write a report and do some calculations of area we measured with my colleagues. Second coursework is from a subject called structures, and it is related about physics and it is needed to calculate some bending points. Due date is 19th of August, and I will provide information for both courseworks down below. Waiting for your answers ASAP.

Kind regards,

Mateja

ENGINEERING SCHOOL

BEng (Hons) Civil Engineering and Construction (MC)

Level 4 – Spring 2021

Submission instructions

Question paper to be attached to answer paper.

Module code

4ME704

Module title

SITE SURVEYING (MC)

Module leader/ Assignment tutor

Spyridon Sypsas / Elli-Konstantina Mylona

Assignment number

01- Resit

Assignment title

Linear survey and levels

Weighting

60% CW

Handout date

23 / 07 / 2024

Submission date

19 / 08 / 2024

Introduction

Surveying techniques are of concern to many built environment practitioners – either for recording existing topographical and built features or for setting out new work. This module offers you a combination of theory based and practical fieldwork to develop a sound knowledge of the essential surveying procedures and recording protocols, linking traditional manual techniques to applications, so that you can feel confident in the modern workplace. The relevant mathematical skills will be introduced and developed contextually. Final survey drawings will be produced and annotated and you will carry out simple setting out activities using industry best practice.

The present assessment sheet covers the following learning outcomes:

1. Carry out a topographical survey using surveying instruments, record findings and use fieldwork data to produce a scaled survey drawing.

2. Accurately carry out levelling exercises.

3. Undertake simple setting – out exercises and discuss the accuracy achieved, the likely sources of errors and the steps taken to minimize the errors.

Thus, students will be given a specific set of customer requirements and appropriate actions should be taken in order to carry out the procedure of Topographical Survey of a project that covers the given requirements. At the end, a Technical Report has to be given in order to describe the actions that have been taken in order to overcome the intermediate stages of Topographical Survey. Also, detailed Topographical Drawings will be included at the Technical Report.

Engineering Design Scenario and Customer Requirements:

The Ministry of Energy Environment and Climate Change asked from Mediterranean College to be their Technical Consultant in a big project of the re-construction of the College’s surrounded area. Before any preliminary design or calculations carried out, a scaled drawing of the area is required, which must include level information (key spot levels) as well. As this drawing is required for the feasibility stage (i.e. start of the development of a project), and the surrounded area of the college is not large, it would be practical and economical to carry out this survey using linear surveying techniques.

1. You have to make a preliminary hand drawing (crocki) of the area that the government want to survey.

2. Choose the appropriate control stations, from which the main topographic features will be surveyed (building corners, trees, paved areas, footpaths, etc) and record the main dimensions between the stations.

3. Detail points will then be surveyed from the main control stations, using the standard booking system to produce clear and precise sketches. You have to set a local coordinate system. Set coordinates of your first control station as (1000m, 2000m,10m) and then using the above control stations make a close type traverse so to find all the rest coordinates and levels.

4. Finally, make a contour map in AutoCAD file (.dwg) of the chosen area.

5. Calculations should be followed by a Technical report about 1500 – 1700 words in length, conforming to the appropriate assignment standards. It is recommended to divide the Technical report into sections by using titles and sub-titles and a robust conclusion. Reference sources can be freely drawn on. Additional supporting data (e.g. surveying record sheets, sketches, etc) should be included within your Appendices, but must be suitably explained and referenced in the main text.

Assessment Declarations for the Technical Report – Topics to be Covered:

Principles of linear measurement

Control stations, techniques for detail acquisition, slope and plan distances, standard recording techniques, accuracy and sources of error, corrections to measurements.

Principles of levelling

Types and use of levelling equipment, booking and reducing protocols (manual and spreadsheet), arithmetic checks, accuracy and sources of error, adjustments and corrections, contouring.

Angular Measurement

Types of theodolite, temporary adjustments, horizontal and vertical angular measurement, minimizing errors.

Recording and Presenting Information

Manual recording of survey data, spatial and dimensional interpretation of survey results, accuracy checks, presentation formats and conventions.

Surveying work will be completed in a maximum of one block (Traverse and levelling). The field works will be carried out in groups, the numerical data are universal, but all other work is to be independent.

This is an individual not a group project. Each student will submit his/her own Topographical Design and Technical Report. It is acceptable and advisable to discuss the design with other students but do not copy their files or ideas as that could be considered as plagiarism.

Marking Criteria

The marking of this assessment will be based on the following requirements:

1. Evidence of your survey work, including:

– a sketch showing the control stations (with measured lengths between them) within the designated area of land, including appropriate references for orientation;

– all survey record sheets (linear and levelling) that you have personally completed (at least 3) – the idea is that you swap roles within the practical work to that each person experiences each role (20%).

2. A suitably scaled A2 drawing showing the control stations and the main topographical features, including the spot levels.

The drawing will be in a suitable format for a professional drawing office, i.e. it should have borders, a completed title block, a north point and standard symbols. Leave on all construction lines that show how the final details were established. The drawing must be produced on AutoCAD (20%).

3. The main body of the report must address the following:

– The equipment used, method / sequence of work (including the positioning of control stations, linear surveying and grid levelling), surveying techniques used (25%).

– Accuracy of equipment used / accuracy achieved (including arithmetic check for levelling), possible sources of error and best practice techniques used to reduce error, corrections applied to measurements (25%).

– Overall reflection of standard of work undertaken to meet the brief and how improvements could be made if the task was repeated (10%).

Submission Declarations

All submissions must be handed in to the teaching team in the workshop on or before the date of submission. There is no automatic right to late submission.

Reading Materials

Module lecture and support notes

1. Τοπογραφία 1 , Κ Δανιήλ (Λαμία,2000)

2. -Τοπογραφικές εφαρμογές. Ντίνης, Ορέστης – Θωμάς (Αθήνα 2006)

3. Επίσκεψη στην Βιβλιοθήκη της Σχολής

4. Irvine, W., 2006. Surveying for Construction. 5th edition. London: McGraw-Hill Publishing Company.

5. Muskett, J., 1995. Site Surveying. 2nd edition. London: Blackwell Science.

6. Bannister, A. & Baker, R., 1994. Solving problems in surveying. 2nd edition. Harlow: Longman.

7. Uren, J. & Price, W.F., 2010. Surveying for engineers. 5th edition. Basingstoke: Palgrave Macmillan.

Note: These sources are guides only to commonly available material. Students will also be expected to consult other relevant source material according to the nature of the project.

Performance Criteria

According to the following marking scale, a mark of 40% is required as a minimum pass for this assessment.

% mark

Mark Descriptors

Class

70-100%

Excellent

Outstanding; high to very high standard; a high level of critical analysis and evaluation, incisive original thinking; commendable originality; exceptionally well researched; high quality presentation; exceptional clarity of ideas; excellent coherence and logic. Trivial or very minor errors. For the highest marks (90 – 100%): an exceptional standard of work illustrating thorough and in-depth understanding, communicated with exceptional authority.

First

60-69%

Very good

A very good standard; a very good level of critical analysis and evaluation; significant originality; well researched; a very good standard of presentation; commendable clarity of ideas; thoughtful and effective presentation; very good sense of coherence and logic; Minor errors only.

Second

Div 1

50-59%

Good

A good standard; a fairly good level of critical analysis and evaluation; some evidence of original thinking or originality; quite well researched; a good standard of presentation; ideas generally clear and coherent, some evidence of misunderstandings; some deficiencies in presentation.

Second

Div 2

40-49%

Satisfactory

A sound standard of work; a fair level of critical analysis and evaluation; little evidence of original thinking or originality; adequately researched; a sound standard of presentation; ideas fairly clear and coherent, some significant misunderstandings and errors; some weakness in style or presentation but satisfactory overall.

Third

35-39%

Unsatisfactory

Overall marginally unsatisfactory; some sound aspects but some of the following weaknesses are evident; inadequate critical analysis and evaluation; little evidence of originality; not well researched; standard of presentation unacceptable; ideas unclear and incoherent; some significant errors and misunderstandings. Marginal fail.

Marginal

Fail

21-34%

Poor

Below the pass standard; a poor critical analysis and evaluation; virtually no evidence of originality; poorly researched; presentation unacceptable and not up to graduate standard; ideas confused and incoherent, some serious misunderstandings and errors. A clear fail, short of pass standard.

Fail

1-20%

Very poor

Well below the pass standard; a poor critical analysis and evaluation; no evidence of originality; poorly researched; standard of presentation totally unacceptable; ideas confused and incoherent, some serious misunderstandings and errors. A clear fail well short of the pass standard.

NS

Non-submission

No work has been submitted.

Z

Academic offence notation

Applies to proven instances of academic offence.

1

image1.jpeg

image2.jpeg