BRIDGING BORDERS English for Students of Civil Engineering Author lect. Sabina Mulej February 2019 Title Bridging Borders Subtitle English for Students of Civil Engineering Author lect. Sabina Mulej (University of Maribor, Faculty of Civil Engineering, Transportation Engineering and Architecture) Review Lucija Hanžič, PhD (The University of Queensland, Faculty of Engineering, Architecture and Information Technology) assist. prof. Rok Kamnik, PhD (University of Maribor, Faculty of Civil Engineering, Transportation Engineering and Architecture) Language editing lect. Tatjana Županek (University of Maribor, Faculty of Mechanical Engineering) Technical editor Jan Perša, MEng (University of Maribor Press) Cover designer Jan Perša, MEng (University of Maribor Press) Graphic material Author Izdajatelj / Co-published by Založnik / Published by Univerza v Mariboru, Faculty of Civil Engineering, Univerzitetna založba Univerze v Mariboru Transportation Engineering and Architecture Slomškov trg 15, 2000 Maribor, Slovenija Smetanova ulica 17, 2000 Maribor, Slovenia http://press.um.si, zalozba@um.si http://fgpa.um.si, fgpa@um.si Edition 1st Publication type e-book Available at http://press.um.si/index.php/ump/catalog/book/382 Published Maribor, February 2019 © University of Maribor, University Press Al rights reserved. No part of this book may be reprinted or reproduced or utilized in any form or by any electronic, mechanical, or other means, now known or hereafter invented, including photocopying and recording, or in any information storage or retrieval system, without permission in writing from the publisher. CIP - Kataložni zapis o publikaciji Univerzitetna knjižnica Maribor 811.111'276.6:69(075.8)(076) MULEJ, Sabina Bridging borders [Elektronski vir] : English for students of civil engineering / author Sabina Mulej. - 1st ed. - El. knjiga. - Maribor : Univerzitetna založba Univerze, 2019 Način dostopa (URL): http://press.um.si/index.php/ump/catalog/book/382 ISBN 978-961-286-232-9 (pdf) doi: 10.18690/978-961-286-232-9 COBISS.SI-ID 95980033 ISBN 978-961-286-232-9 (PDF) DOI https://doi.org/10.18690/978-961-286-232-9 Price Free copy For publisher full prof. Zdravko Kačič, PhD, University of Maribor rector BRIDGING BORDERS ENGLISH FOR STUDENTS OF CIVIL ENGINEERING S. Mulej Bridging Borders English for Students of Civil Engineering SABINA MULEJ Abstract Students of civil engineering are aware that the knowledge of English is absolutely necessary in the modern world. They want to communicate with people from al over the world and use literature in English, both at their study and work. Present materials want to lead students toward these goals and are meant for 30 lectures in one semester. Keywords: • civil engineering • technical vocabulary • exercises • text comprehension • grammar • CORRESPONDENCE ADDRESS: Sabina Mulej, Lecturer, University of Maribor, Faculty of Civil Engineering, Transportation Engineering and Architecture, Sametanova ulica 17, 2000 Maribor, Slovenia, e-mail: sabina.mulej@um.si. DOI https://doi.org/10.18690/978-961-286-232-9 ISBN 978-961-286-978-961-286-232-9 Dostopno na: http://press.um.si. BRIDGING BORDERS ENGLISH FOR STUDENTS OF CIVIL ENGINEERING S. Mulej Table of Content INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1 Civil engineering studies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 2 Course Content . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 UNIT 1: ENGINEERING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 1 Civil engineering jobs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 2 Branches of engineering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 3 Working as an engineer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 4 Present tenses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 5 Expressing future . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 UNIT 2: MATHEMATICS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 1 Numbers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 2 Basic processes of arithmetic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 3 Shapes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 UNIT 3: BUILDING CONSTRUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29 1 Walls . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 2 Roof . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 3 Construction site safety. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 4 Passive voice . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38 UNIT 4: BUILDING MATERIALS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41 1 Corrosion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45 2 Describing Graphs, Charts and Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48 3 Describing trends . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 UNIT 5: BRIDGES AND TUNNELS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55 1 Bridges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55 2 Types of Bridges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58 3 Tunnels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62 4 Machinery and equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64 5 Tools . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65 6 Prepositions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 UNIT 6: SURVEYING AND ROAD CONSTRUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71 1 Geodetic datum and coordinate system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73 2 Road design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79 3 Business letters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81 4 Business letter format . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81 5 Business e-mails . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83 6 Curriculum vitae (CV) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85 LITERATURE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87 ii BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING BRIDGING BORDERS ENGLISH FOR STUDENTS OF CIVIL ENGINEERING S. Mulej INTRODUCTION Discuss the fol owing questions with your neighbour 1. What secondary school did you graduate from? 2. What were your school-leaving exam subjects? 3. Which were your favourite subjects? Why? 4. What do you expect from your civil engineering studies? A degree? Some more free time before you take up a serious job? Opportunity? 1 Civil engineering studies Watch the video (Newcastle University, 2014, June 17) and answer the question 1. Name some tasks of civil engineers. 2. What does the course include? 3. Talk about the role of civil engineering in society. 2 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Listen to the video again and insert the missing words! 1. We are a very big school, so we can deliver much on geotechnical engineering, s_____________________ engineering, e__________________ engineering, w_________ resources, t_________________. 2. We try to bring everything together from a h ________________ perspective. 3. We are university with a strong r______________ base. 4. The students are being exposed to e______________ in the field. 5. A lot of our staff is i_________________ renowned for the work in their area. 6. We want our graduates to be able to come up with d__________________ solutions which are holistic, and which are sustainable. 7. The Newcastle civil engineering d__________________ programmes are built around an ambition for us to train the next generation civil engineers. 8. S__________________ to us doesn’t just mean green, we are also trying to factoring economic variables and s__________________ factors. 9. A__________________ need to realize it’s a tough course. 10. M__________________ and physics are commonly seen for civil engineering applications, but g __________________, geology, chemistry, biology, even music, even sport science – all these s________________ can offer different perspectives, different backgrounds of understanding of problem solving, problem a__________________. The folowing extracts have been borrowed from City University London.First read them, then find words from the text which are described by the definitions below ("Civil Engineering (BEng)," 2019). 2 Course Content City's BEng (Hons) Civil Engineering course provides a strong technical background in the key subjects of structural, geotechnical and hydraulic engineering. Management studies and design are also integral parts of the course. Design projects develop your ability to apply technical knowledge in a creative way to open-ended problems. Specialist subjects such as surveying, transportation, environmental and building engineering are also studied. Introduction 3 Course Structure YEAR ONE In year one, you wil study fundamental engineering principles in topics such as structural mechanics, hydraulics, materials and mathematics. You wil also study geology and develop basic skil s in surveying, IT, computing and graphics. The course wil introduce you to the civil engineering design process and civil engineering in practice. YEAR TWO Fundamental principles learned in Year one are then applied to the analysis and design of steel and concrete structures, the prediction of the mechanical behaviour of soil and the mechanics of fluids. You wil learn more about managing construction projects and surveying and undertake design projects that include the outline design of real-life industry projects. YEAR THREE The BEng (Hons) Civil Engineering course becomes more applied in the third year, with the analysis and design of typical geotechnical and hydraulic structures, numerical analysis techniques used in structural design and construction law, contracts and economics. You wil undertake a chal enging individual project and work on an intensive design module featuring real-life projects. You wil also take two elective modules. A series of lessons = ________________________ The activity of learning about the subject at university = ________________________ Gained information about a topic = ________________________ An area of knowledge that is studied = ________________________ A general or scientific law that explains how something happens or works = _____________ Ability to do something = ________________________ Action as opposed to theory = ________________________ The process of examination and interpretation = ________________________ A task set as an educational exercise, requiring students to do their own research and present the results = ________________________ 4 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Put to practical use = ________________________ A part of a university course (e.g. Civil engineering structures) = _______________________ Chosen subject = ________________________ Useful vocabulary The Bologna Process was launched in 1999 by the Ministers of Education and university leaders of 29 countries and aims to create a European Higher Education Area. It improves transparency between higher education system and recognition of degrees and academic qualifications, mobility, and exchanges between institutions. Three cycle degree system comprises undergraduate (Bachelor) and graduate degrees (Master and PhD). A credit system is a systematic way of describing an educational programme by attaching credits to its components. ECTS (European credit transfer and accumulation system) is based on the principle that 60 credits measure the workload of a ful -time study programme during one academic year. The academic year is divided into autumn term and summer term (semesters). Visit our English faculty pages to learn - The name of our faculty - Its historical background - Programmes and courses Homework Prepare a short oral presentation with the title Our Faculty BRIDGING BORDERS ENGLISH FOR STUDENTS OF CIVIL ENGINEERING S. Mulej UNIT 1: ENGINEERING Modern life has become easier as a result of work of engineers; almost everything has been made by engineers: vehicles, buildings, household gadgets, central heating … Engineering is about the design and production of useful products and services. An engineer is someone who is trained or professional y engaged in a branch of engineering. Engineers use scientific knowledge, technology, and creativity to solve practical problems. People who work as engineers normally have an academic degree or equivalent work experience in one of the engineering disciplines. While scientists explore nature in order to discover general principles, engineers apply established principles drawn from science and develop economical solutions to technical problems. The work of engineers is the link between perceived social needs and commercial applications. Engineers consider many factors when developing a new product. In comparison with scientists, engineers are not free to select a problem; problems must be solved as they arrive and their solution must be optimal regarding money, time and safety. Engineering is optimizing, so an engineer’s job is to secure a maximum output with a minimum input. A good engineering product is a result of efficient methods, devices, personnel organization and social responsibility. So, where does the word engineer come from? The word is derived from Latin ingeniare which means contrive, devise (iznajti, izumiti) and ingenium = cleverness and it literally means to ‘make things happen’. 6 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Engineering is the practical application of scientific knowledge, putting scientific knowledge to practical use. Early branches of engineering were based on observation and experience rather than science. Since no formal education was provided, engineers learned their skil s through on-the-job training or trial and error. Civil engineering is the design, construction and maintenance of buildings and public works such as roads, bridges, water, sewer and energy systems as wel as public facilities like ports, railways and airports. Civil engineering is the second-oldest branch of engineering after military engineering, and was defined to distinguish non-military engineering from military engineering. Civil engineers are responsible for the safety and quality of the infrastructure of modern society. They must not only consider the latest principles of science and related technical fields, but recognize aesthetic and social aspects, and have good command in the arts of communication and finance in order to handle resources of the world. Furthermore, they are responsible for the management and protection of natural sources and the optimization of these sources for the benefits of people. Civil engineering careers comprise the planning, analysis, design and construction of facilities for public and private sectors. Sub-disciplines of civil engineering include geotechnical engineering, surveying, foundation engineering, structural engineering, transportation engineering, municipal or urban engineering, sanitary or infrastructural engineering, water resources engineering, environmental engineering, hydraulic engineering, materials engineering, and construction engineering. Geotechnical engineers deal with all aspects of earth and its effect on construction works. This involves the fields of soil mechanics, rock mechanics, foundation engineering, and earthwork engineering. For example, they analyse, design and construct earth dams, tunnels, foundations and canals. They also control and eliminate groundwater contamination and hazardous waste. Surveyors measure the Earth’s surface to obtain information for locating and designing engineering projects. They also use satel ite surveying and computer processing of photographic images. Structural engineers determine the structural design and perform structural analysis of buildings, bridges, towers, tunnels, off shore structures such as oil and gas fields in the sea, dams, power plants, and other structures. Their work involves identifying the loads that act upon a structure and the forces and deformation resulting from loads, such as its own weight, wind load and earthquake effects, the appropriate material and the possible structure type. Transport engineers are concerned with moving people and goods efficiently and safely. This includes specifying, designing, constructing, and maintaining transportation infrastructure (road and rail networks, canals, airports, and ports), traffic management and logistics. They need to understand the economic, political, and social factors connected with their projects. Unit 1: Engineering 7 Sanitary and environmental engineers work to provide a safe supply of drinking water and to prevent and control pollution of air, soil and water. They focus on water resource management, comprising the design of water treatment and wastewater treatment plants. They also deal with the management of toxic and hazardous wastes. Hydraulic engineers deal with all aspects of water control: col ection, storage, transport, regulation, measurement and usage. They work to prevent floods, develop irrigation projects, manage and train rivers, predict water runoff and help to design hydroelectric power systems. Construction engineers use both technical and management skil s to build public works and commercial projects. They implement construction methods, equipment, and principles of planning, organizing, financing, managing, and operating construction enterprises in their work (Kasíková, Horká, Nivenová in Sedláková, 2007). Answer the questions 1. What is the role of engineers in the society? 2. What is the difference between an engineer and a scientist? 3. How did engineers learn before the formal education was available? 4. Is civil engineering an old branch of engineering? Give the explanation of its name and support your answer. 5. Name some outcomes of civil engineers’ work. 6. How is civil engineering sub-divided? 7. Which fields does geotechnical engineering include? 8. Discuss the importance of surveying. 9. What is structural engineering about? 10. What does transportation engineering involve? 11. Discuss the importance of sanitary and environmental engineering. 12. Compare hydraulic engineering to construction engineering. 1 Civil engineering jobs Watch the video and insert the missing words (Go Jobs, 2008, June 19). Civil engineers design roads, _____________, tunnels, dams and airports. They combine knowledge of material science, engineering, economics, physics, geology and hydraulics to create a physical infrastructure, essential to modern _____________. Natural y, there are numerous subspecialties: surveying and mapping engineers identify the best sites for construction, hydraulic and irrigation engineers _____________ on dams, flood control, wel s and reservoirs. Environmental engineers deal with waste _____________ products, garbage disposal and recycling plants. And traffic engineers specialize in designing people moving system: be they underground subways, commuter railroads or new or improved _____________ and highways. A Bachelor’s degree is the minimum _____________ requirement. At some universities this is a five-year programme, but co-op, junior college and night school _____________ are also available. Becoming a civil engineer is a lot of 8 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING _____________. But if you like the idea of being a part of big, complex projects that improve people’s lives, it could be just a _____________ for you. 2 Branches of engineering First watch the video (Study Bucket, 2013, March 1). Then match the type of engineering with its description (Županek, 2014): Mechanical engineering 1 _____ a. and metallurgical engineering is concerned with extracting metal ores from the earth. Civil engineering 2 _____ b. deals with the production, storage and transport of petroleum. Electrical engineering 3 _____ c. determines the most economical ways of using people, machines and materials in an industrial organization. Chemical engineering 4 _____ d. deals with the prevention of air, water, soil, and noise pollution. Nuclear engineering 5 _____ e. deals with permanent structures for civilian use. Aerospace engineering 6 _____ f. involves the design, production and maintenance of aircraft. Petroleum engineering 7 _____ g. deals with development, production, and testing electrical and electronic devices and equipment. Mining engineering 8 _____ h. is concerned with the design, operation and testing al kinds of machines. Environmental engineering 9 _____ i. deals with processing of chemicals for industrial and consumer uses. Industrial engineering 10 _____ j. is concerned with production and application of nuclear energy. Unit 1: Engineering 9 3 Working as an engineer Read the text and form the correct words An engineer is someone who is trained or professionaly engaged in a branch of _________________________ (engineer). Engineers use creativity, technology and scientific _____________________ (know) to solve practical problems. People who work as engineers normal y have an _______________ (academy) degree or equivalent work experience in one of the engineering disciplines. Engineers and scientists __________ (be) often confused in the minds of the general public. While scientists explore nature in order to discover general principles, engineers apply established principles drawn from science in order to develop economical ____________ (solve) to technical problems. The work of engineers is the link between perceived social needs and commercial _________________ (apply). Engineers consider many factors when developing a new __________________ (produce). For example, in developing an industrial robot, engineers precisely specify the functional _________________ (require); design and test the robot’s components; integrate the components to produce the final design; and ______________ (evaluation) the design's overal effectiveness, cost, reliability, and safety. This process applies to the ________________ (develop) of many different products, such as chemicals, computers, engines, aircraft, and toys. Many engineers work in testing, production, or ______________________ (maintain). These engineers supervise production in factories, determine the causes of component ___________________ (fail), and test manufactured products to maintain quality. They also estimate the time and cost to complete projects. Some move into engineering ____________________ (manage) or into sales. In sales, an engineering background enables them to discuss technical aspects and assist in product planning, instal ation, and use. Supervisory engineers are ___________________ (responsibility) for major components or entire projects. Engineers use computers __________________ (extensive) to produce and analyse designs; to simulate and test how a machine, structure, or system operates; and to generate specifications for parts. Many engineers also use computers to monitor product quality and control process ___________________ (efficient). 10 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Useful vocabulary In relation to engineering, the following words have to be referred to (Brkan, 2009): Technology is scientific knowledge applied for practical purposes in different areas, e.g. solving problems, inventing useful tools. It can also refer to the collection of such tools, including machinery, modifications, arrangements and procedures, for example space technology. Technique is a skill of doing some engineering or scientific work and also the method, procedure or way something is done (a teaching/management/skating technique). Technician is a person whose job or training involves a specific technical process or someone skiled or trained in a specific art or craft. Professional is a person who performs a job that requires special training, education or skil in a specified professional activity. Expert is someone who has advanced knowledge or skil in a particular area, someone who is very skil ful or has advanced training and knowledge in a particular area or field. Match the terms on the left with their definitions. Terms may be used more than once Engineering someone who knows a lot about a particular subject Technology someone who works with and mends scientific equipment skills in scientific, artistic or sporting activity Technique work involved in construction of engines and machinery methods, systems, tools used for practical purposes Technician someone who is a member of a profession use of scientific knowledge for practical purposes Expert activity of designing the way the roads are built Professional someone who is very good in painting Fil in the gaps using the words technique, technology, engineering, technician, expert and technical 1. The train is delayed due to a _______________________ fault. 2. He went to the Music Academy to improve his _______________________. 3. He is involved in the design and _______________________ of space vehicles. 4. _______________________ is changing fast. 5. She works as a laboratory _______________________. 6. In this office you wil get _______________________ advice on how to reduce material losses. 7. Only graduates with degrees in _______________________ are admitted to this course. Unit 1: Engineering 11 8. They should be alowed to wait for cheaper _______________________ to be developed. 9. Whether he was a great artist or not, Dali was a superb _______________________. 10. He is an _______________________ in electronic engineering. 11. He is a footbal er with bril iant _______________________. 12. The factory uses the very latest _______________________. 13. He handed in a _______________________ report on the maintenance of equipment. 14. Our team of _______________________ wil be on hand to offer help and advice. 15. Tests were performed using a new _______________________. Pair work Discuss the necessary knowledge and skils of a civil engineer. Homework Prepare a short oral presentation with the title Competent Civil Engineer. 12 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING 4 Present tenses Present Simple (I study) Time indicators: every day/month/year, sometimes, never, always, generaly… (used for repeated actions, general truths) Present Continuous (I am studying) Time indicators: now, at the moment, this week, this month… (used for continuous actions [trajajoča dejanja] and for actions happening during a limited period of time)) Present Perfect Simple (I have studied) Time indicators: ever, never, yet, not yet, up to now, already, so far, since, for, recently… (used for past actions with some importance or consequence now) Complete the sentences using present tenses. Civil engineering __________ (be) arguably the oldest engineering discipline. It ___________ (deal) with the built environment which ____________________ (encompass) much of what ___________ (define) modern civilization. Civil engineers often ______________ (specialize) in one of a number of technical areas. Three former civil engineers ______________ (serve) as presidents of United States: George Washington, surveyor, Herbert Hoover, structural engineer and geologist, and James Carter, civil engineer. Since the explosion, the building ______________ (not get) heat, hot water, or cooking gas for three weeks. I can see three labourers on the building site. The first one _______________________ (dig) trenches, while the other two _____________________ (prepare) the excavation pit. Mechanical engineering ______________ (derive) its breadth from the need to design and manufacture everything from small individual parts and devices to large systems. The scope of this discipline _______________ (al ow) students a variety of career options. John ______ just ________________ (come) from the lectures. He _____________________ (study) for the maths exam at the moment. Waiter! What is this? It's bean soup. Unit 1: Engineering 13 I don't care what it ____________ (be) I want to know what it is now. 5 Expressing future Time indicators: tomorrow, next week/month/year, when I am 30… ‘Wil ’ future (I wil study) used for spontaneous decisions, weather forecast, age… I can’t solve this equation. – I’l help you. / It wil be cloudy and cold tomorrow. He’ll be 25 in July. Present Continuous (I’m studying) used to express future time when we have already decided to do something and arranged it When are you sitting for the maths exam? / Are you coming to the party on Monday? - No, I can’t. I’m doing my presentation on Monday. ‘Going to’ (I’m going to study) used to express intended future; we have already decided to do something I’m going to study more for the next exam. Put the verb in the correct form to express future time. 1. The results from the tests ___________________ (not be) available before next year. 2. We ______________ (digitize) the pictures so that we can upload them to our website. 3. Scientists________________________________ (discover) new planets in the future. 4. On these pages, you __________________ (find) examples on diversity of engineering. 5. In 2020, chal enges ____________________ (abound), but opportunities also ______________________________ (exist) if engineering ___________________ (take) the initiative to prepare for the future. 6. Engineering ________ only ______________ (contribute) to success if it ___________ (be) able to continue to adapt to new trends. 14 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING If you __________________ (venture) just seven miles off the British coast to a place caled Red Sands, you _____________________ (encounter) an unusual sight – giant towers rising from the ocean on rusted legs (a relic of Britain’s military past: the Maunsel Forts). BRIDGING BORDERS ENGLISH FOR STUDENTS OF CIVIL ENGINEERING S. Mulej UNIT 2: MATHEMATICS Jurij Vega (1754 – 1802) Baron Jurij Bartolomej Vega ("Jurij Vega," n.d.) was a Slovene mathematician famous for publishing books of logarithm tables. His major work was Thesaurus Logarithmorim Completus ( Treasury of all Logarithms) that was first published 1794 in Leipzig. In 1798 he set a world record as he calculated 𝜋𝜋 ( pi) to 140 decimal places. The importance of Vega's logarithmic tables was in the times without computers and even without (scientific) calculators enormous even for simple computations. The essential formulae were 𝒍𝒍𝒍𝒍𝒍𝒍(𝒙𝒙 ⋅ 𝒚𝒚) = 𝒍𝒍𝒍𝒍𝒍𝒍(𝒙𝒙) + 𝒍𝒍𝒍𝒍𝒍𝒍(𝒚𝒚) and 𝒍𝒍𝒍𝒍𝒍𝒍(𝒙𝒙𝒓𝒓) = 𝒓𝒓 ∙ 𝒍𝒍𝒍𝒍𝒍𝒍(𝒙𝒙). His tables with 10 decimal places were among others used by the German mathematician Carl Friedrich Gauss. Foto: Jurij Vega Although Vega also worked in other subjects (bal istics, physics, ("Jurij Vega," n.d.) astronomy), his major contributions are those to the mathematics of the second half of the 18th century. 16 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING What is the importance of Vega's work? What is practical application of logarithms? Unit 2: Mathematics 17 1 Numbers CARDINAL NUMBERS - USED FOR COUNTING 1 one 101 one hundred and one . . 12 twelve 1000 one thousand 21 twenty-one 1,000,000 one million 100 one hundred 1,000,000,000 one milliard (UK) one billion (US) Also there are a number of ways you can say 0 in English. When we use it For example 0 = oh after a decimal point 9.02 = "Nine point oh two." Room 101 = "Room one oh one." in bus or room numbers Bus 602 = "Bus six oh two." in phone numbers 9130472 = "Nine one three oh four seven two." in years 1906 = "Nineteen oh six." 0 = nought before a decimal point 0.06 = "Nought point oh six." 0 = zero in temperature -10°C = "10 degrees below zero." US English for the number 0 = "Zero" Chelsea 2 Manchester United 0 = "Chelsea two 0 = nil in footbal Manchester United nil." 0 = love in tennis 30 - 0 = "Thirty love." Table 1: Names for the number 0 ORDINAL NUMBERS - USED FOR RANKING 1st the first 27th the twenty-seventh 2nd the second 100th the hundredth 3rd the third 101st the hundred and first 4th the fourth 1000th the thousandth 18 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING FRACTIONS Vulgar fractions Decimal fractions 1 one half 0.5 nought (zero) point five (point five) 21 one third 2.04 two point oh four 3 2 two fifths 62.3 sixty-two point three 5 1 one quarter 10.356 ten point three five six 4 2 Basic processes of arithmetic 𝟐𝟐𝟐𝟐 + 𝟏𝟏𝟏𝟏 = 𝟑𝟑𝟑𝟑 addition (+) ____ plus/and _______ equals/is ________ 𝟑𝟑𝟑𝟑 – 𝟏𝟏 = 𝟑𝟑𝟐𝟐 subtraction (−) __ minus/subtracted by/take away ___ equals/is _______ 𝟐𝟐𝟐𝟐 ∙ 𝟑𝟑 = 𝟕𝟕𝟐𝟐 multiplication (∙) ____ times/multiplied by _______ equals/is ________ 𝟏𝟏𝟐𝟐 ∶ 𝟑𝟑 = 𝟏𝟏 division (:) ____ divided by _______ equals/is ________ Unit 2: Mathematics 19 Useful vocabulary 9 nine thirteenths or nine over thirteen 13 28 % twenty-eight per cent 42 four squared 73 seven cubed 84 eight to the power of four √3 square root of three 𝑥𝑥 = √ 𝑛𝑛 𝑎𝑎 𝑥𝑥 equals the nth root of 𝑎𝑎 a 2 + b 2 a squared plus b squared ( a + b)2 square of a plus b (…) brackets < is less than ≥ is greater than or equal ∞ infinity 𝑓𝑓(𝑥𝑥) Function 𝑓𝑓 of (argument) 𝑥𝑥 𝑑𝑑𝑑𝑑 the derivative of y with respect to x (odvod) 𝑑𝑑𝑥𝑥 𝑏𝑏 � 𝑓𝑓(𝑥𝑥) 𝑑𝑑𝑥𝑥 Definite integral of function (integrand) 𝑓𝑓(𝑥𝑥) on the domain [𝑎𝑎, 𝑏𝑏] 𝑎𝑎 32 oC thirty-two degrees Celsius/centigrade 10 𝑚𝑚 𝑥𝑥 10 𝑚𝑚 ten metres by twelve metres (120 square meters) = 120 𝑚𝑚2 𝐹𝐹 = 𝑚𝑚 ∙ 𝑎𝑎 Equation (enačba) (Newton's second law) 1,623,457 one mil ion, six hundred and twenty-three thousand, four hundred and fifty-seven kN kilo Newton m A / mA meter Amper / mili Amper km/h kilometres per hour Table 2: Basic words from mathematics 20 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Name the four basic processes of arithmetic and write equations in words. • 9 + 6 = 15 • 10 – 3 = 7 • 3 ∙ 6 = 18 • 18 ∶ 2 = 9 • 3 8 • 𝑥𝑥 = √ 𝑛𝑛 𝑎𝑎 • 𝑓𝑓 (𝑥𝑥) • 24 = 42 Try this numbers quiz. a) Name the first four odd numbers (liha števila). b) Name the first four even numbers (soda števila). c) Name the first four prime numbers (praštevila). d) Give an example of a fraction where numerator (števec) and denominator (imenovalec) are both integers (cela števila). e) How do you read this formula and what does it represent: E = mc2? Unit 2: Mathematics 21 3 Shapes B – E. 2D - Shapes D. Rectangle A. 1D - Lines B. Triangles 15 diagonal 8 apex F. Oval/Ellipse 1 spiral 9 base 2 straight line E. Circle 10 hypotenuse G. 3D - Bodies 3 wavy line 16 arc 11 obtuse angle 22 cube 4 (semi-circle) curve 17 radius 12 acute angle 23 cylinder 5 parallel lines 18 circumference 24 pyramid 6 perpendicular line 19 diameter C. Square 25 cone 7 zig-zag 20 centre 13 side 21 sector 14 right angle Figure 1: Shapes (Županek, 2014). 22 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Draw the folowing shapes. 1. A rectangle with diagonal lines (joining opposite angles). 2. A square and an oval in the middle of it. Unit 2: Mathematics 23 3. A block (upright rectangular prism) of 3 cm by 1.5 cm by 1 cm. 4. A right-angled triangle with two equal sides of 2 cm in length. Draw a smal circle at the centre of the triangle. Draw lines from the centre of the circle to each of the angles of the triangle. 24 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Homework Read the text Inventions and Discoveries and prepare short oral presentation of the theme The most important inventors and inventions 4 Inventions and discoveries (Županek, 2014) According to Cambridge dictionary, an invention is “something that has never been made before, or the process of creating something that has never been made before”. An invention may be a new machine, device or product. People who invent things are inventors. An invention is something originated by experiment. Many inventions have substantial y improved the quality of human life (wheel, steam engine, computer, printing press). What is the most important invention of the last 2,000 years and why? According to hundreds of scientists, writers, philosophers and artists, the clear winner is the Gutenberg’s printing press. “It was a device to rip off the Bible-reading public,” said writer and columnist John Dvorak. But, said IBM researcher Clifford Pickard, we owe a big debt to Ts’ai Lun, who in 105 AD invented paper. He, or the Chinese peasant he stole the idea from, made it from mashed-up wasps nests and rags. Long before the internet, these wonderful sheets of paper al owed thought to be preserved and sent around the world. One might have expected that to have been followed by the internet, penicil in, the internal combustion engine and such like, but it was not. Television got only two votes: “The single most powerful manipulative tool ever invented,” said flautist Viviana Guzman. The contraceptive pil had several backers as the most important invention of them al . “It did more than just change the social role of women,” said Oxford physiologist Professor Colin Blakemore. “It led to the conception that our bodies are the servants of our minds, rather than vice-versa.” Several suggested modern medical procedures, but J. O’Donnel of Pennsylvania named simpler inventions that might have saved many more lives than anaesthetics or surgery, such as adequate plumbing and soap. Someone even suggested the national flag, which binds us together and sends us to war. Unit 2: Mathematics 25 Answer the questions. a) What is an invention? b) How do you comment the printing press being the most important invention? c) What Is TV real y the most powerful manipulative tool ever invented? Why (not)? 26 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING d) Why is plumbing an important invention? e) What Decide which of the invention from the webpage (Wolchover, 2016, March 3) you find the most important and support your answer. Useful vocabulary Invention, discovery, breakthrough, ground-breaking, state-of-art. Mind the difference between the first two words: while invention always denotes something completely new, discovery is something seen or learnt for the first time (but it has been there before, e.g. America, a planet). A discovery may be described as a breakthrough. People may say it is ground-breaking or that it breaks new ground. State-of-art is something very modern and makes the use of the very latest technology (Županek, 2014). Example: In the 1940s, Griffin made the ground-breaking discovery that bats use radar navigation. Unit 2: Mathematics 27 5 Past tenses Past Simple (I studied) Time indicators: last night/week/month, yesterday, in 1900, a few days ago… (used for finished past actions) Past Continuous (I was studying) Time indicators: at the same time last year, yesterday between 6 and 8… (used for continuous past actions) Past Perfect (I had studied) Time indicator: after (for something that happened before another action or situation in the past; it denotes the ‘earlier’ past action) Fil in the blanks using the verbs in the correct form of past simple tense. A Silly Experiment (Županek, 2014) On July 2 1982, Larry Walters, a 33-year-old truck driver, ___________________ (fil) 45 weather bal oons with helium and ___________________ (tie) them to an aluminium garden chair. Then he ___________________ (put on) a parachute and _______________ (climb) into the chair with lots of supplies. He ___________________ (plan) to fly across the desert. The chair ___________________ (be) attached to the bumper of a friend's car with two ropes. But when his friend ___________________ (cut) one of the ropes, the other rope ___________________ (snap) too. Larry ___________________ (shoot) up into the sky at 300 metres per second. It ___________________ (be) so fast that his glasses ___________________ (fal ) off. He ___________________ (climb) quickly to about five kilometres above the ground. Larry ___________________ (speak) to his friends on his radio. He ___________________ (want) to fly to the Rocky Mountains, but the wind ____________________ (take) him towards Long Beach Municipal Airport. Two pilots _ ___________________ (see) Larry and ___________________ (radio) air traffic control. The air ___________________ (be) thin three miles above the ground and Larry ___________________ (feel) cold and dizzy. He ___________________ (shoot) some of the bal oons with his gun, the chair ___________________ (float) down, and he ___________________ (land) safely. 28 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Fill in the blanks using the verbs in the correct form of past continuous tense. Challenger (Županek, 2014) It was 11:38 am on January 28, 1986. Chalenger was ready for launch. Everything was going fine. The seven astronauts ___________________ (sit) in the shuttle, waiting to go into space. 3-2-1-zero. Challenger lifted off and climbed into the sky. Mil ions of people ___________________ (watch) the launch on TV. Mil ions more ___________________ (listen) to the commentary on the radio. Inside the NASA control room in Huston, the launch team ___________________ (watch) the consoles and ___________________ (check) the flight. Inside Challenger, Mike Smith ___________________ (pilot) the shuttle and the others ___________________ (check) the instruments. Suddenly, 73 seconds after launch and 8 miles above the Atlantic, it all came to an end. The $869 million shuttle exploded. There were no survivals. Complete the sentences using past perfect tense. 1. We arrived at work in the morning and found that somebody ___________________ (steal) our computers during the night. 2. Yesterday I was late for work. The car ___________________ (break) down. 3. This was my first flight. I _____ never ___________________ (fly) before. 4. After they ___________________ (write) the test, they waited for the oral exam. 5. Before the scientist stated the law, he ___________________ (make) hundreds of experiments. 6. Soon after they ___________________ (built) the bridge, it collapsed. 7. After Nobel ___________________ (invent) the dynamite, he felt guilty and founded a special prize. BRIDGING BORDERS ENGLISH FOR STUDENTS OF CIVIL ENGINEERING S. Mulej UNIT 3: BUILDING CONSTRUCTION Parts of the house: Can you guess the correct word? 1. A room within a house used for keeping large typical y household appliances such as a washing machine and dryer: u_________ room. 2. A room in the roof space of a house: a_________. 3. A space in the roof usual y used only for storage: l________. 4. A room below ground level without windows, used for storage: c____________. 5. A room below ground level with windows for living and working: b_____________. 6. A flat area at the top of a staircase: l______________. 7. An open area as you come into a house: h___________. 8. A room for reading, writing and/or studying: s__________. 9. A covered area before an entrance door: p__________. 10. A paved area between house and garden: t___________ or p_____________. 30 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Match the below words with their definitions. block of flats, bungalow, cottage, detached house, semi-detached house, skyscraper, terraced house, time-share, villa 1. A house which is not joined to any other house: ______________ 2. A house which is joined to one other house: _______________ 3. A house which is joined to several houses to form a row: _____________ 4. A smal house in the country or in a vilage: _____________ 5. A house with only one storey: _____________ 6. A large house with big gardens: ___________ 7. A holiday flat or house where you have the right to live one or two weeks a year: _________ 8. A large building divided into apartments: ___________ 9. A very tall multi-storey building: _____________ Useful vocabulary arch- lok building construction – visokogradnja building lot – gradbena parcel building site – gradbišče code – standard (to meet the code) curtain wall – predelna stena engineering structures – nizke gradnje engineering works – nizkogradnja flexure - uklon footing – temeljna peta loading - obremenitev grid – mreža, rešetka plinth - podzidek slab / plate – plošča rafter - škarnik, tram v ostrešju sag – deformirati se zaradi lastne teže settlement – usedanje shear – strig slope – nagib structure - konstrukcija tensile strength – natezna trdnost tension – napetost trench - kopati zoning – coniranje, razdelitev na cone Table 3: Glossary Unit 3: Building Construction 31 Building construction ("Building Construction," 2014, July 14) “Building construction is an ancient human activity to provide shelters and controlled environment, and to moderate the effects of climate. Today it is an important part of industrial culture. Building construction is the process of erecting a structure on a building site and it includes design, financial and legal consideration (government building codes, structural requirements, safety factors, planning and zoning requirements, life-safety, sanitation and electrical requirements). The first step in the actual construction is excavation. This is the process of moving earth, rock or other materials with tools, equipment or explosives. It can also include trenching, digging, dredging and site development. The structural elements of the building are those which carry the weight or load, i.e. load-bearing elements or systems. They include footings, foundation, columns, beams, wal s, slabs and roof. The members must be properly designed and constructed in order to support their own weight, and other effects applied on the structure. A foundation is necessary to evenly distribute the entire building load on the soil so that no damaging settlements occur. Therefore, the foundation must be constructed on solid ground. The footings are placed under al load-bearing parts of the foundation (e. g. piers, columns). A plinth is usual y constructed just above the ground level and immediately after the foundation. It raises the floor above the ground level and herewith prevents surface water from entering the building. A beam is general y a long horizontal structural element. It is subjected to transverse loading such as vertical loads, and gravity loads. These loads create shear and bending within the beam. A long vertical member mostly subjected to compressive loads is called column. A structural member subjected to compression as wel as flexure is called beam-column. A vertical network of beams and columns intersecting each other is called frame whereas, a horizontal network subjected to vertical loads is called grid. Slab or plate is a horizontal plane element to carry the load and its own weight mostly in transverse direction. Cables are usual y suspended at their ends and are al owed to sag. The forces are then pure tension and are directed along the axis of the cable. Arches are similar to cables except that they are inverted and made of solid material. They carry compressive loads that are directed along the axis of the arch. Exterior and interior wal s are load bearing or non-load bearing vertical plane elements. Load- bearing wal s carry the load of the ceiling and roof structure to the foundation whereas non-load bearing walls carry their own weight. 32 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING In any climate, roof protects other parts of the building and must be strong enough to withstand wind and snow. Roof slope and rigidness serve to drain water away from the building and to sustain applied load such as wind.“ Explain the term building construction. Write out al load-bearing elements from the text above. Write out al non-load bearing members. Unit 3: Building Construction 33 First study the meaning of the three verbs below (used to describe the relations between the structural elements) and then form meaningful sentences from the given words, related to these verbs (e.g. supporting beams). bear (bore, borne) = to support a weight or load, to hold up (adj. load-bearing) carry = to support a weight of something without moving or breaking it (adj. load-carrying) support = to bear the weight of something so as to keep it in place or prevent from fal ing (adj. supporting) 1. are fully supported / by the roof structure / metal roof coverings 2. are / one of the earliest forms / load-bearing wals / of construction 3. a structural element / is / mainly in bending / load/ a beam / that supports 4. the loads / are transferred to columns / carried by beams 5. skeleton frames / are designed / high-rise buildings / with supporting 6. the converted loft / to bear / the columns / the weight of / have been strengthened 7. is made up of / the load / and live load / al the dead / supported by foundations 8. and the time / there are / between the time / in-situ concrete is poured / 28 days / it can carry loads 9. of the atrium roof / a steel skeleton / the weight / is borne by 10. the building’s weight / is the part / to the ground / the foundation / which carries / of a building / and transfers it Read the text and form the correct words Building _______________ (construct) includes al procedures involved in the erection of various types of buildings and other structures for commercial, ____________ (industry) and residential purposes. The major elements of a __________________ (build) are the following: (1) foundations, which support the building and provide __________________ (stable); structures, which support al the imposed loads and transmit them to the foundations; (3) exterior wal s, which may or may not be part of the primary ___________________ (support) structure; (4) interior partitions, which also may or may not be part of the primary structure; (5) ___________________ (environment) control systems, including heating, ventilation, air-conditioning, ________________ (light) and acoustical systems; (6) 34 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING vertical transport systems like lifts, escalators and staircases; (7) _____________________ (communicate), which may include such subsystems as intercommunications, and (8) power, water supply and waste ________________ (dispose) systems. The loads imposed on a building are ________________ (class) as either ‘dead’ or ‘live’. Dead loads include the weight of the building itself and al main items of the fixed ____________________________ (equip). They always act directly downwards and are ___________________ (add) from the top of the building down. Live loads include wind ___________________ (press), seismic forces, vibrations caused by machinery, movable furniture, stored goods, _________________ (occupy) and forces caused by temperature changes. Live loads are temporary and can produce ________________ (pulse), vibratory and impact stresses. In general, the design of a building must accommodate al possible live and dead loads to prevent the building from settling or _______________ (collapse). The structure is the load-bearing frame of a building, _____________ (separate) into the substructure below and the superstructure above. The ______________ (base) elements of any ordinary structure are slabs and roofs, columns and wal s and bracings (i.e. diagonal elements) or rigid __________________________ (connect) between individual __________________ (structure) elements used to give the structure stability. 1 Walls Read a passage about walls and fil in the gaps the words from the box. carry, external, heat, moisture, partition, strength, structure, structural, subdivide, weight A wal is a solid, usual y vertical ___________ made of bricks, stone, concrete, timber or metal, which encloses and protects a building or serves to ___________ buildings into rooms. Wal s are defined as ___________ or internal to characterize functional requirements, and as load-bearing or non-load bearing to characterize _____________ requirements. Load-bearing walls are those that _____________ the loads of floors and roofs, in addition to their own ______________. In practice, the word ______________ is general y used to describe non-load bearing internal dividing wall. The functional requirements for a wal include _____________ and stability, resistance to weather and ground ____________, durability, fire safety, resistance to the passage of ______________ and resistance to the passage of sound. Unit 3: Building Construction 35 2 Roof Have a look at the picture of roof construction elements and match the terms with their descriptions. Figure 2: Traditional Queen Post Roof Truss Source: Drawing by Bill Bradley.AKA builderbill billbeee (CC BY-SA 3.0), https://en.wikipedia.org/wiki/Truss#/media/File:Queen-post-truss.png An extra layer of protection beneath the shingles, helping 1. Roof Structure prevent moisture from reaching the roof deck Wooden boards or sheets fastened to the roof structure to form 2. Col ar beam the roofing surface, used in milder climates Metal materials installed in a roof system to protect and cover 3. Felt Underlayment various joints and valleys and prevent water seepage The external angle formed by two or more sloping roof planes, 4. Spaced sheathing typical y at the top of a roof The internal angle formed by intersection of two sloping roof 5. Flashing planes 6. Ridge The framework of the roof A member making up the main body of the framework of al 7. Valley roofs A horizontal member between two rafters, which is mostly 8. Rafter structural but may be used to frame a ceiling 36 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING 3 Construction site safety Explain these instruction signs and discuss the importance of safety at work with your neighbour. Safety helmets must be worn Ear protection must be worn Foot protection must be worn Eye protection must be worn Safety mask must be worn Hand protection must be worn No access for unauthorised persons First aid No access for pedestrians Table 4: Signs on a construction site Sources:Pixabay.org Unit 3: Building Construction 37 Watch the video about site safety (CSCS Health & Safety Training, 2013, December 28) and answer the questions in a note form. 1. What is the job of site management? 2. What must be done at the labourer’s arrival? 3. What is site induction? 4. Name some specific information that should be given to workers. 5. Why is communication important? 6. Why should information be updated on daily basis? 7. Why should site rules be respected? 8. How is each task prepared safely? 9. What are worker’s responsibilities? 10. When is it the right time to stop the activities on the site? 11. Why is constant learning essential? Match the words with the warning signs. a) explosiv d) highly flammable g) general warning b) industrial vehicles e) corrosive h) toxic c) oxidizing f) radiation i) harmful Table 4: Signs on a construction site Sources:Pixabay.org 38 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Homework Prepare a short oral presentation with the title Buildings and Structures. 4 Passive voice It is frequently used in technical English, especially when describing procedures, instructions. When the agent is not known, unimportant or obvious, passive is preferred. When I was on holiday, my office was broken into. She is being treated in hospital. The bridge will be built until the next July. I can study math. Math can be studied. I could study math. Math could be studied. He must read the instructions. The instructions must be read. He had to read the instructions. The instructions had to be read. The structure different tenses of BE + PAST PARTICIPLE ACTIVE PASSIVE Present Simple I study It is studied Present Continuous I am studying It is being studied Past Simple I studied It was studied Past Continuous I was studying It was being studied Present Perfect Simple I have studied It has been studied Past Perfect I had studied It had been studied ‘Will’ Future I wil study It wil be studied Table 6: Active and passive verb forms Unit 3: Building Construction 39 Change these sentences into passive, mentioning the agent only when it is important. 1. Today we can produce composite materials to meet any kind of engineering requirement. 2. Engineers wil have to develop better methods of material recycling. 3. As materials grow more complex, engineers are developing new manufacturing techniques. 4. Men first used ceramics some 13,000 years ago in Japan. 5. Harvard University and MIT discovered shape-memory effect approx. 80 years ago. 6. Figure 1 shows a graph of wear versus time for Mn-steel. 7. We rarely find pure metals in nature. 8. Somebody is using the computer at the moment. 9. They have not yet discovered an ideal superconductive material. 10. In the U.S.A. alone they make 30 mil ion tonnes of plastics each year. 40 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING 11. They have postponed the lecture. 12. We heated our rooms by electricity. 13. Someone has switched on the light. 14. You must not ruin al the wal s. 15. They have built a new factory near the airport. 16. People use too many machines nowadays. 17. They should paint al the windows. 18. They make these frames of carbon fibres. 19. Who invented the steam engine? 20. You have to calculate the area of the longitudinal section of this cone BRIDGING BORDERS ENGLISH FOR STUDENTS OF CIVIL ENGINEERING S. Mulej UNIT 4: BUILDING MATERIALS “Engineers are confronted with materials in manufacturing, processing, design and construction. When designing a structure, the suitability of the material should be taken into account. The fitness for purpose guarantees that material wil behave the same in the construction phase as wel as in a subsequent service. The most important criteria are strength, elasticity, ductility, deformation and durability. However, other aspects of the material behaviour such as water-tightness, speed of construction and mal eability are also important for specific applications. Furthermore, aesthetics and environmental impact must be considered. Materials are predominantly compounds, consisting of two or more chemical elements, and are classified into metals, ceramics, polymers, semiconductors and composites. Their behaviour is determined by their structure and properties. They have physical (density, hygroscopicity, thermal and electrical conductivity…), optical (transparency, index of refraction), mechanical (strength, elasticity, ductility, malleability…) and chemical properties (toxicity, flammability, corrosion resistance…). Obviously, the number of available materials is enormous (160,000 or more) which means that more than one material satisfies the criteria of fitness-for-purpose. To solve this chal enge, engineers use their experiences, consider material behaviour and capabilities; they think of compatibility with other materials, assembly and shape of the structure; they also calculate, compare weight and costs, and follow restrictive legislation and directives. Wood and stone are the oldest materials used for constructional purposes. Even though wood has complex chemical nature, it is readily and economically available, easy machinable, amenable for 42 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING fabrication into an infinite variety of sizes and shapes using simple on-site building techniques. Despite its flammability it retains its structural integrity in fire. Moreover, wood is exceptionally strong, a good heat and electrical insulator and it is a renewable and biodegradable resource. Portland cement is a hydraulic mineral binding material having cohesive and adhesive properties. It is the basic component for concrete. Portland cement consists of calcium, silicon, aluminium and iron oxides. Thus raw materials for manufacture of Portland cement are limestone, clay, shale, iron ore and bauxite. Concrete is an artificial conglomerate stone, made essentially of Portland cement, water and aggregates. It is inexpensive and readily available, long lasting, hard material which can be moulded into desired shape. It is a great insulator, has great compressive but poor tensile strength. So, steel reinforcement is used to improve performance of concrete under tension – such concrete is called reinforced concrete. If compressive stresses are induced by high-strength steel tendons in a concrete member before loads are applied, we talk about prestressed concrete. Building mortar is formed by mixing cementitious materials, fine aggregates, lime and water in an appropriate proportion. It is used to bind construction blocks together and fil the gaps between them in order to provide strength to the structure. It is also used for rendering. Metals and alloys include steel, cast iron, aluminium, magnesium, zinc, titanium, copper, and nickel. They have good electrical and thermal conductivity, high stiffness, ductility or formability, and shock resistance as wel as relatively high strength. Therefore, they are used for structural or load-bearing applications. Glass is a brittle material which can be used to span a wide roof structure or cover the entire façade of a building (glass curtain wal s). Building plastic, mainly made from synthetic resin, can be moulded into various shapes under certain temperature and pressure and then it keeps unchanged in the normal conditions. It is lightweight and has high tenacity” (Illston & Domone, 2008). Answer the questions 1. Name all building materials that appear in the text. Unit 4: Building Materials 43 2. Why is wood an important construction material? 3. What kind of material is cement? 4. What is concrete made of? 5. Name the difference between reinforced and pre-stressed concrete. 6. Which are the ingredients of mortar? 7. What is metal used for? 44 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING 8. Name advantages of aluminium. 9. What can be glass curtain walls used for? 10. Which are the properties of building plastic? Read the text and form the correct words The Advantages of Iron (Županek, 2014) ________________ (relative) speaking, end especialy when compared to wood or copper, iron is _________________ (extreme) strong. By _________________ (heat) it, iron is relatively easy to bend and shape using simple tools. It can be _________________ (magnetize), and thus used in _________________ (create) of electric motors and generators. 5 _________________ (%) of the Earth’s crust is iron, so it is plentiful. It is quite easy to refine it _________________ (use) simple tools. If we compare iron and steel with aluminium, we see that iron is much _________________ (easy) and _________________ (cheap) to deal with. To refine aluminium, huge amounts of _________________ (electric) are needed. To shape aluminium, you must either cast or _________________ (extrusion) it. Iron has been _________________ (use) to man for thousands of years, while aluminium was not. The only real problem with iron is rust which can be controlled by painting, _________________ (galvanize), chrome plating (technique of electroplating a thin layer of chromium onto a metal or plastic object) or sacrificial anodes (______________ (high) active metals to prevent a less active material surface from corroding). Unit 4: Building Materials 45 In the future, iron may be _________________ (replace) by other materials like aluminium, plastics, carbon- and glass fibres. 1 Corrosion (Županek, 2014) Corrosion is one of the most frequent causes of material deterioration. It is a chemical process of changing the state of a metal as a result of interaction with its environment. It often occurs where water is present. Corrosion becomes worse when impurities are present in damp conditions. It never starts inside the material but on the surface. A common example of corrosion is the rusting of steel. What happens here? Metal ic iron is converted to a mixture of oxides and other compounds, which results in a change of the appearance of the metal and decrease in its cross-section. Corrosion can be prevented or decreased in many ways. The most common anti-corrosion treatments are plating, painting, and the application of enamel. On the other hand, some materials are corrosion resistant. An example is aluminium and its al oys; they can be exposed to air and water without corroding. Complete the sentences. 1. In corrosion, metals change state because ________________________________________. 2. Factors that encourage corrosion are ____________________________________________. 3. The signs of corrosion can always be found on ____________________________________. 4. Rust is ___________________________________________________________________. 5. Rust may be dangerous to a structure because_____________________________________. 6. Corrosion can be prevented by ________________________________________________. Watch the video (AirForceTheCircuit, 2009, April 21) and insert the missing words 1. A student of mechanical engineering invented ________________________. 2. Micah Toll is _________ years old. 3. The new material is made of ________________________. 4. His construction beams are _________________ in order to provide shelter for people living in 3rd world countries and ________________. 5. When Micah was young, he always liked _____________________________. 6. He’s an inventor with ____________________________________. 7. Short of getting a vespa, he decided to ________________________________. 46 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING 8. After testing some engineering concepts, Micah had an idea for a building material that was _________________________________________________. 9. To make a beam, you start with a _______________________, and then you fold it up into ___________________. 10. Forming box is made of ____________. 11. Liquid foam expands in just _____________________________________. 12. To get different shapes he uses ___________________________________. Homework Find out more about one of the building materials and prepare a short oral presentation. Unit 4: Building Materials 47 Read the following text on “Building materials” (Quint, 2014, August 8) and underline any vocabulary items that can be used to describe graphs and tables. Shortages of Key Building Materials Have Eased in 2014 (Quint, 2014, August 8) BY ROSE QUINT Unlike recent news that builders continue to face serious dif iculties finding lots and labor to build new homes, a survey conducted by NAHB in July shows that shortages of key building materials have actual y eased in 2014. In fact, only 15% of builders reported some or serious shortages of trusses or clay bricks, the highest incidence among the more than 20 materials builders were asked about. Fourteen percent reported shortages of each windows/doors, gypsum wall board, and cabinets. The graph below shows the complete list of the 23 building materials and products in the survey, sorted by the share of builders reporting shortages. Figure 2: Share of Builders Reporting Shortages. (Quint, 2014, August 8) For a number of key materials, the share of builders reporting any kind of shortage was lower in July 2014 than in May 2013. For example, while 18% of builders reported shortages of plywood, and 22% of Oriented Strand Board (OSB) in May 2013, those shares fel to 7% and 9%, respectively, in July 2014. Likewise, the share of builders reporting a shortage of framing lumber went from 18% to 8% during this period, while for wal board the share dropped from 20% to 14%. 48 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING 2 Describing Graphs, Charts and Tables bar chart graph pie chart Table 7: Different forms of diagrams A chart is a diagram that makes information easier to understand by showing how two or more sets of data are related. There are two common types of charts, a pie chart and a bar chart. A pie chart is a circle divided into segments. It is usual y used to show percentages. A bar chart is a diagram that makes information easier to understand by showing how two or more sets of data are related. It is divided into columns. Name of product Number of sales A 10 B 25 C 50 Table 8: Product and sales figures A table is a set of facts and figures arranged in columns and rows. A table is a very useful way of organizing numerical information. A graph is a diagram, usual y a line or curve, which shows how two or more sets of numbers or measurements are related. The vertical axis can be called the y axis, and the horizontal axis the x axis. Different types of line are often used on a graph. Different sets of numbers or measurements can be plotted on the same graph and this helps us compare information: _________________________ solid line ………………………………. dotted line ------------------------------------- broken line Unit 4: Building Materials 49 Listen to this video (Intenga 4 english learners, 2012, May 6) on describing graphs and tables in English and complete the fol owing sentences: Figure 3: Sales in 2011. Source: https://www.youtube.com/watch?v=N1uAImH4GwA. A. ________________________________________________, 2011 was a rather turbulent year for us, with a lot of ups and downs. B. After launching our product, there was __________________________________ in sales. C. Fol owing __________________________________ in February, we commenced an advertising campaign. D. The advertising campaign resulted in sales __________________________________ by 8,000 from around 2,000 to __________________________________ of just under 10,000. E. There was __________________________________ at the end of March before sales __________________________________ and remained __________________________________ throughout April and May. F. In July, sales __________________________________ to approximately 7,000. G. Unfortunately, sales then plummeted, __________________________________ between September and October. H. He used verbs like __________________________________ and __________________________________ I. To increase means to __________________________________ J. To decrease means to __________________________________ 50 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING K. What clarifies the meaning of verbs is __________________________________to tel us if the figures have risen very __________________________________ and __________________________________ L. What clarifies the meaning of nouns is __________________________________ M. Sales increased rapidly can be put as __________________________________ N. Sales dropped slowly can be put as __________________________________ O. There was a gradual rise can be put as __________________________________ P. There was a sharp increase in sales can be put as __________________________________ Q. The most commonly used prepositions in describing graphs are __________________________________ 3 Describing trends decline rise crash soar decrease increase collapse rocket drop climb plummet jump fall go up plunge leap slide grow sink flatten out hold steadily bounce back level off rally stabilise fluctuate recover remain stable revive remain constant stagnate Table 9: Verbs used to describe graphs Find a noun flatten out ________________ grow ________________ hold steadily ________________ increase ________________ stabilise ________________ stagnate ________________ recover ________________ fluctuate ________________ revive ________________ climb ________________ Unit 4: Building Materials 51 Choose the correct verb or noun form in each of the folowing sentences. Be careful with the tense when using a verb. 1. The Euro ________ at a rate of about 1.6 Euros to the pound with only minor fluctuations. has stabilisation/ has stabled/ has stabilised/ stabled 2. The number of people watching television rose steadily throughout the day. There was ________ at 7.30 p.m. when twelve mil ion people were estimated to be watching. rocketed/ a peak/ peaked/ a rocket 3. After a poor summer, the usage of the sports centre ________. when the students returned from their summer holiday. rally/ a recovery/ rallied/ rallied 4. The price of our product ________ since 1999. declined/ a decline/ has declined/ declining 5. Sales of the sun cream produced by the Lobster Red Corporation ________ by 200,000 in July 2001 compared to the same period in the previous year. fal ed/ failed/ fell/ a fall 6. The number of babies cal ed David born in Manchester Hospital ________ by 56% after David Beckham scored the winning goal in the World Cup match against Germany. rose/ a rise/ rise/ raised Find an adverb Sometimes we need to give more information about a trend, usual y about the degree or speed of change, e.g. The year started with a steady decline in sales and stabilised in September. Sales increased slowly during January and then declined steadily until the end of the financial year. Adverbs and adjectives can be used to modify verbs and nouns of change. Adverbs can modify the verbs of change and usual y end in 'ly' (to increase substantial y), and adjectives can modify nouns of change (a substantial increase). Adjectives always come before a noun and adverbs usually come after a verb. 52 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING considerable ________________ dramatic ________________ slight ________________ sharp ________________ moderate ________________ gradual ________________ significant ________________ slow ________________ substantial ________________ fast ________________ Choose the most appropriate option to complete each statement, which describes the table and graphs. Car production shows Car Production Jan 2.899,841 Feb 2.700,010 a) a slight decline. b) a dramatic increase. c) a slight increase. Mar 2.700,124 Apr 2.700,200 Production a) reached a peak and b) rocketed and then c) reached a peak then fel down rapidly. reached a peak. rapidly and then fel . a) rose substantial y b) held steadily and c) held substantial y and then held steadily. then rose substantial y. and then stabilised. Use some of the phrases to describe the graph below. The graph shows … / The pie chart compares … / The bar chart deals with … The graph represents the fluctuation in the number of … There is a sharp increase between … After this, the numbers drop quickly to / fal significantly, with only a slight increase again …/ grew slowly in the second quarter / rose by …% / reached a low There is then a rapid rise to a peak of … / was a fall in the second quarter There was a sudden growth in ... / a rise of … A slow drop was recorded in … / compared with the same period … In the period between …, an upward trend was recorded in … Unit 4: Building Materials 53 Remember! Rise, rose, risen: The price has already risen. Prices rose yesterday. Prices are rising. Raise, raised, raised: They raised the prices. Arise, arose, arisen: Many problems have arisen. A crisis is arising. Figure 4: Sales in Slovenia (source: author) 54 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING BRIDGING BORDERS ENGLISH FOR STUDENTS OF CIVIL ENGINEERING S. Mulej UNIT 5: BRIDGES AND TUNNELS 1 Bridges (Brkan, 2009) “A bridge is an engineering structure that spans rivers, bodies of water, valleys and railroads. Designs of bridges vary depending on the function of the bridge and the nature of the terrain where the bridge is to be constructed. A bridge must be strong to support its own weight and the weight of the people and vehicles passing over it. Besides, the bridge must resist such natural occurrences as wind load and earthquakes. Designing bridges is a real chalenge for civil engineers. Depending on construction principle used, different types of bridges are identified.” 56 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Have a look at ten most famous bridges in the world (“10 Most Famous Bridges In The World”, 2018). What kind of bridges are they? Bridge Bridge type Golden Gate Bridge, San Francisco, USA Tower Bridge, London, England Sydney Harbour Bridge, Sidney, Australia Brooklyn Bridge, New York, USA Ponte Vecchio, Florence, Italy Rialto Bridge, Venice, Italy Mil au Viaduct, Mil au, France Charles Bridge, Prague, Czech Republic Akashi Kikyo Bridge, Japan Great Belt Bridge, Denmark Watch the video about Phu My Bridge (Othello Khanh, 2010, July 22) in Saigon, Vietnam and answer the question in a note form. 1. How long did the construction last? 2. What is the name of the river under the Phu My Bridge? 3. How was the project funded? Unit 5: Bridges and Tunnels 57 4. Which countries took part in construction? 5. Was the bridge built in time? 6. What kind of bridge is the Phu My Bridge? 7. How long did the transfer operation last? 8. How long is the bridge? 58 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING 2 Types of Bridges Characterize the main bridge types by matching their names with the descriptions. Bridge types: a) cantilever bridge d) steel-truss bridge g) tensegrity bridge j) pontoon bridge b) suspension bridge e) girder/beam bridge h) movable bridge k) deployable bridge c) arch bridge f) cable-stayed bridge i) covered bridge Descriptions: 1. ______: A bridge carried by girders or large beams supported by piers at the ends. Originaly, it was built of wood or iron, now usual y of steel or concrete. 2. ______: Any bridge with straight cables from masts connected directly to the deck girders without suspenders. Al these bridges are of striking appearance. 3. ______: A bridge with movable spans that can be raised to al ow ships to pass under it. Movable spans may be bascule/drawbridge, swing or vertical lift type depending on local requirements. 4. ______: A symmetrical three-span bridge. Each of its outer spans is anchored down at the shore and overhangs into the central span about one third of the span. The suspended span, resting on the cantilever arms, forms the remaining one third of the central span. 5. ______: A bridge consisting of a steel frame, built up from members in tension and compression. It is very common in bridge building because of it low cost. 6. ______: A temporary or permanent bridge which floats on pontoons anchored to the riverbed. Permanent bridges are built in this way when the foundation material is very poor. In this case they may be of reinforced concrete. 7. ______: A bridge hung from ropes, chains, cables or steel or iron bars passing over towers at each bank. The cables or ropes are held by anchor blocks or solid rock behind the towers. The track or road is hung from the cables above by the suspender – rods or ropes carrying the weight. 8. ______: A bridge consisting of a timber truss, typical of the 19th century New England. To prevent the supporting structure from rotting, the bridge was covered and roofed. 9. ______: A bridge of this shape, i.e. a curved top on two supports. Such bridges are made of any solid material but usually of concrete, steel, stone or masonry. 10. ______: This bridge is a lightweight structure, composed of struts in compression and tensioned cables. Unit 5: Bridges and Tunnels 59 11. ______: This bridge can be rapidly constructed from prefabricated elements packed into a transportable kit. It is used after natural disasters like flood or in military operations. Pair work: Together with your neighbour, discuss the fol owing questions. 1. How did the earliest bridges in history look? What type and materials were used? 2. Which are the most common materials for bridge building nowadays? 3. Which bridge type is the easiest and cheapest to design? Which is the most complex? 4. Which bridge type(s) would you use in the following cases? − over a shal ow lake with muddy foundation ground, at a length of approximately 800m − to span a steep mountain valley in a nature reserve − as a motorway bridge over the Drava River − to connect an island in the sea with the mainland (distance of 3km) − to carry light rail in a suburban environment − over the Elbe River where ships need to pass under the bridge Read a passage about the Solkan Bridge ("The stone railed bridge in Solkan," n.d.) and translate it. “The Solkan Bridge is the most prominent bridge on the Bohinj Railway route between Jesenice and Gorica, and one of the most famous bridges in Slovenia. The bridge has the longest stone arch spanning over a river in the world and the longest stone arch among railway bridges. The span of the main arch is 85m; the length of the whole object is 220m. The bridge was under construction for two years, from spring 1904 until December 1905. The work was hindered mainly by the Soča River, which rose several times. For the main arch, 4533 exactly fitted stones of limestone were needed”. 60 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Watch the video Building a rope bridge with flying machines (Augugliaro, 2015, September 18) and complete the text with is or are. The video shows quadrocopters autonomously assembling a rope bridge. This __________ part of a body of research in aerial construction, a field that addresses the construction of structures with the aid of flying machines. In this work, a rope bridge that can support the crossing of a person ___________ built by quadrocopters, showing for the first time that smal flying machines ___________ capable of autonomously realizing load-bearing structures at full-scale and proceeding a step further towards real-world scenarios. Except for the required anchor points at both ends of the structure, the bridge consists exclusively of tensile elements and its connections and links __________ entirely realized by flying machines. Spanning 7.4 m between two scaffolding structures, the bridge consists of nine rope segments for a total rope length of about 120 m and __________ composed of different elements, such as knots, links, and braids. The rope used for these experiments __________ made out of Dyneema, a material with a low weight-to-strength ratio and thus suitable for aerial construction. Of little weight (7 g per meter), a 4 mm diameter rope can sustain 1300 kg. The vehicles __________ equipped with a motorized spool that al ows them to control the tension acting on the rope during deployment. A plastic tube guides the rope to the release point located between two propel ers. The external forces and torques exerted on the quadrocopter by the rope during deployment __________ estimated and taken into account to achieve compliant flight behavior. The assembly of the bridge ___________ performed by smal custom quadrocopters and builds upon the Flying Machine Arena, a research and demonstration platform for aerial robotics. The arena ___________ equipped with a motion capture system that provides vehicle position and attitude measurements. Algorithms ___________ run on a computer and commands ___________ then sent to the flying machines via a customized wireless infrastructure. In order to be able to design tensile structures that are buildable with flying robots, a series of computational tools have been developed, specifical y addressing the characteristics of the building method. The design tools al ow simulating, sequence, and evaluating the structure before building. The location of the scaffolding structure ___________ manual y measured before starting the construction. The primary and bracing structure can then be realized without human intervention. Before realizing the stabilizers, the locations of the narrow openings of the bridge are measured and input to the system, which adapts the trajectories accordingly. Unit 5: Bridges and Tunnels 61 Have a look at the drawing of a suspension bridge and match terms on the left to the descriptions on the right Figure 5: Suspension bridge (source: http://www.visualdictionaryonline.com/images/transport-machinery/road-transport/fixed-bridges/suspension-bridge.jpg) Side span a) a solid concrete base, anchored in the ground Foundation of tower b) a cable that runs between the towers of a suspension bridge c) a concrete structure on each side of the abutment, buried deep in Suspenders the ground Abutment d) a lane for accessing the bridge Anchorage block e) cables that run between the main cable and the roadway Centre span f) a section of the span between the tower and the abutment Tower g) a part of the bridge on the shore to give support h) an elevated structure made of metal or reinforced concrete which Deck supports the cables Suspension cable i) a section of the deck entirely suspended between the towers Approach ramp j) a set of components making up Fil in the gaps using the appropriate verb bear, range, transfer, support, span, extend, run, resist, hold up, design, stretch 1. The majority of bridges are _____________ by at least two supports. 2. The structure is strong enough to ________________ the weight. 3. The bridge collapsed, as it could not ________________ strong winds. 4. Pontoon bridges are ____________________ by flat-bottomed rafts. 5. The main span of the new bridge _________________ more than 300 metres. 6. A roadway may _______________ on top of trusses or through them. 7. Suspension bridges can ______________ the longest distance. 8. The spans __________ up to 550 metres long. 9. The columns _______________ the load of the roadway to the arch. 10. The main span of a suspension bridge _________________ between two towers. 11. Bridges must be ______________ so as to support dead and live loads. 62 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING 3 Tunnels A tunnel is a tube hollowed through soil or stone. Constructing a tunnel is one of the most complex challenges in the field of civil engineering. Tunnels are a solution for railways, roads, public utilities and telecommunications. Read the text about Chanel Tunnel (GetLink Group, n.d.) and complete the sentences below. The Channel Tunnel is the longest undersea tunnel in the world. The section under the sea is 38km long. The three tunnels, each 50km long, were bored at an average 40m below the sea bed, and link Folkestone in Kent to Coquel es in Pas-de-Calais. Eurotunnel shuttles, Eurostar and national freight trains run in the two single track and single direction tunnels. These are connected to a central service tunnel by cross-passages situated every 375m. The service tunnel allows access to maintenance and emergency rescue teams and serves as a safe haven if passengers need to be evacuated in an incident. The service tunnel is a road tunnel used by electric and diesel-powered vehicles. Air pressure is higher in the service tunnel to prevent the ingress of smoke in case of a fire in one of the rail tunnels. The two rail tunnels are 7.6m in diameter and 30m apart. Each rail tunnel has a single track, overhead line equipment (catenary) and two walkways (one for maintenance purposes and the other for use in the event of an emergency evacuation and on the side nearest the service tunnel). The walkways are also designed to maintain a shuttle upright and in a straight line of travel in the unlikely event of a derailment. The service tunnel is 4.8m in diameter and lies between the two rail tunnels 15m away from each of them. In normal operations shuttles use the south tunnel in the France – UK direction, and the north tunnel when travel ing from the UK to France. Two undersea crossovers bring flexibility of operation as trains can pass from one tunnel to the other during night maintenance periods to isolate a section of tunnel. The track in each rail tunnel has two continuously welded rails laid on pre-cast concrete supports embedded in the concrete track bed. Fixed equipment in the tunnels comes under four categories: electricity and catenary, rail track and signal ing, mechanical systems and control and communications. Cooling pipes, fire mains, signal ing equipment and cables are fixed to the sides of the tunnels and are fed by cooling plants at Samphire Hoe in the UK and Sangatte in France. The overhead catenary supplies traction power to the shuttles as wel as to other trains using the Tunnel, e.g. Eurostar and international rail freight trains. The catenary is divided into sections, so that maintenance work can be carried out in stages. Electrical power supplying the tunnels, drainage Unit 5: Bridges and Tunnels 63 pumps, lighting and the trains, is provided by substations on each side of the Channel. In the event of loss of power from one side, the entire system can be supplied from the other side. The fixed lighting instal ations can be switched on from the control centre or manual y from within the tunnels. Various fire-protection and detection systems are instal ed at points along the length of the tunnels. 1. The longest undersea tunnel in the world is cal ed _________________________________. 2. Each tunnel has a length of __________________________________________________. 3. The two single track and single direction tunnels are linked to ________________________. 4. Electric and diesel-power vehicles use __________________________________________. 5. One walkway is used for ________________ and the other for ______________________. 6. Normal y, the south tunnel is used to travel ______________________________________. 7. Isolation of a section provides ________________________________________________. 8. Electricity and catenary, rail-track and signalling, mechanical systems and control and communications are ________________________________________________________. 9. Cooling plants feed ________________________________________________________. 10. The control centre can switch on _____________________________________________. 64 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Convert the folowing text to Passive to make a description of tunnel construction. Construction engineers use a number of methods to make tunnels. They employ a simple cut-and- cover method for shal ow tunnels. They use explosives to tunnel in very hard rock. They use a tunnel boring machine (TBM) to make deep tunnels in soft rock. The TBM protects workers and machinery. A rotating cutterhead at the front cuts the rock. Machinery at the rear removes the refuse. Hydraulic jacks push the TBM forward. The segment erector builds a new tunnel ring every 1.5 – 2 metres. It places concrete segments in the right position to form a ring. 4 Machinery and equipment Construction machinery and equipment is used for executing construction tasks such as earth movement, excavation, deep foundation, lifting, and mixing. Read texts ("Building Construction," 2014, July 14) on equipment and machinery and form correct words A backhoe loader is an _____________________ (engineer) vehicle which consists of a shovel/bucket and a smal backhoe on the back. It is used for digging shal ow _______________ (excavate)/trenches, general grading, lifting loads and loading and carrying materials. An excavator consists of a bucket on the front only. It is used for excavating below/above natural surface of ground, digging bigger trenches and pits for basements, general _______________ (grade) work, loading onto haul units and lifting. A forklift loader is a potent ________________ (industry) truck that is used to lift and transport material by steel fork, inserted under the load. They ________________ (normal) move loads and equipment that is stored on pal ets. Unit 5: Bridges and Tunnels 65 A truck is used to transport excavated materials over a distance at fairly low costs. A telescoping-boom truck mounted mobile crane: Its full revolving superstructure is mounted on a truck with multi section-telescoping boom. It is used to hoist and place material and __________________ (machine). This crane can travel on public roads between projects with minimum or no _______________ (dismantle) and reassembling. A concrete truck is a mobile concrete mixer truck which transports the concrete from the factory to the ________________ (construct) site. The mixer tank keeps rolling during ___________________ (transmit) to prevent setting of the cement. A pneumatic air compressor is a _____________ (portability) air compressor that converts ______________ (electricity) power into kinetic energy. It is designed to work with various tool ______________ (attach) in order to provide pneumatic power. A borehole machine is used to dig borehole and to test the soil on site. Soil ________________ (investigate) are necessary for engineering structures founded in deep excavations. They also provide important information on the soil and ground water condition. 5 Tools A building labourer must use a proper construction tool in order to do the work quickly, accurately, and safely. Measuring tools include tape measures and laser meters. Tape measures are _____________ (retract) rulers, made of thin metal which have a long notch on one end of the tape to hold the tape to an object. Most also lock in place so that the tape does not retract while the user records a measurement. Laser meters employ a laser beam to calculate the _____________ (long). Clamps are _________________ (relative) simple tools used to hold glued pieces of wood together while the glue dries or to hold a piece of concrete or stone in place. Hammers serve many purposes that make them _____________ (suite) for various kinds of construction works. Carpenter hammers are designed to drive nails into wood and remove them. Mason hammers are designed to break up bricks and stonework, with a blunt end for greater force and a sharp end for ________________ (chip). Screwdrivers give construction _________________ (work) the torque that they need to place screws into wood and remove them as well. 66 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Homework Find out more about one of the bridges or tunnels and prepare a short oral presentation. 6 Prepositions Time: after, at, before, between, by, from, in, on, since, until… Place: above, across, at, at the back of, at the side of, at the top of, behind, below, beside, between, far from, in, in front of, on, opposite, over, near, under… Movement: across, along, down, from, off, into, onto, out of, past, through, to, up… Other: about, by, for, with, of, against… Insert the right preposition. 1. There’s so much _______ offer, you hardly know what to choose. 2. The Blacks have sold their business, _______ a huge profit. 3. _______ average there are more than a hundred fatal accidents each year. 4. I never worry when I have to be in the house _______ my own. 5. You have to apply for a visa _______ person. 6. We haven’t dealt with your application yet, but it is _______ hand. 7. My car’s _______ your disposal any time you’d like to use it. 8. You have to write an account of the accident _______ detail. 9. She must be fed up _______ studying. 10. What are the advantages _______ speaking foreign languages? 11. Never overtake when _______ doubt. 12. This screwdriver is only _______ smal screws. 13. I’m looking _______ my sister’s baby. 14. Look _______ this graph. How interesting! Unit 5: Bridges and Tunnels 67 15. I can’t live either _______ or _______ you. 16. We drove _______ Cardiff _______ London. 17. He was standing _______ his mum and his dad. 18. Do you see the building _______ the road? It’s my faculty. There is a tree _______it. 19. What’s the biggest dam _______ the world? 20. What do you think _______ John’s latest project? Read the text and supply the missing prepositions. THE MISPLACED ENGINEER An engineer dies and reports _______ the pearly gates. St. Peter checks his dossier and says, "Ah, you're an engineer - You're _______ the wrong place. " Pretty soon, the engineer gets dissatisfied _______the level of comfort _______ hel , and starts designing and building improvements. _______a while, they've got air conditioning and flush toilets and escalators, and the engineer is a pretty popular guy. One day God cal s Satan up _______the phone and says _______a sneer, "So, how's it going down there _______hell?" Satan replies, "Hey, things are going great. We've got air conditioning and flush toilets and escalators, and there's no tel ing what this engineer is going to come _______with next." God replies, "What? You've got an engineer? That's a mistake - he should never have gotten down there. Send him back _______." Satan says, "No way. I like having an engineer _______the staff, and I'm keeping him." God says, "Send him back _______here or I'l sue!" Satan laughs uproariously and answers, "Yeah, right. And just where are you going to get a lawyer?" 68 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Form sentences by adding the proper prepositions. each trust consists / steel rods the main span stretches / the two towers abutments support the bridge / the shore drawbridges, /the roadway is moved / al ow ships / pass a bascule bridge opens / tilting / one or both arms / an angle Unit 5: Bridges and Tunnels 69 cantilever arms extend / opposite sides / the river and meet / the centre 70 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING BRIDGING BORDERS ENGLISH FOR STUDENTS OF CIVIL ENGINEERING S. Mulej UNIT 6: SURVEYING AND ROAD CONSTRUCTION “Improved living standards cal for thorough knowledge of the scene of our life – the Earth’s surface. This surface bears the living-houses, schools and factories; it is the scene of agriculture; people travel on the surface of the Earth enjoying its beauties – the mountains and valleys, the rivers, villages and cities. Many people make long journeys to distant countries to view nature’s beauties; thousands of foreigners visit our country to see our famous landscapes and regions. The wise and wel -prepared tourist has a highly important travel ing companion – the map and some of the GNSS (global navigation satel ite system) equipment. The travel er measures the distances on the map, reads the coordinates, the mountain altitudes, sea depths on boat trips, etc. The map is also an indispensable tool for the engineers. Without a map, no town planning can be realized. The designing of industrial plants, roads and railroads, the construction of water or gas pipelines, and sewage networks, the regulation of rivers and irrigation projects al require good maps and plans. Since map-making is based on the work of surveyors, an important purpose of surveying is to determine the boundary lines and characteristic points of natural formations and landmarks as wel as those of man-made structures in a manner enabling their representation in mapping and safe use. The surveyor has to deal with the determination of the Earth’s shape and dimensions. This task is performed by a special branch of surveying – geodesy, with the application and use of special equipment, measurements and computational procedures. Furthermore, another task of surveying is to carry out various measurements that wil provide the basis of the engineering design work, to lay 72 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING out and measure the accurate points in the field of planned engineering projects such as the centre- line of roads and railroads, the edges of banks and dikes, the corner points of planned buildings, the boundary lines of building sites, the accurate sites of industrial projects, the accurate points in deformation analysis. . For their work surveyors use state of the art equipment such as total stations with automatic target recognition and laser plummets, CCD cameras in photogrammetric tasks, GNSS equipment, 3D laser scanners and other very sophisticated instruments. Therefore, to carry out the above function, the surveyor must have versatile knowledge. According to the nature of jobs, geodesy has a number of branches, the learning, which requires different levels of mathematical, physical education and other skil s” (Szentesi, 1978). Write a short summary of the text above Unit 6: Surveying and Road Construction 73 Read the text and form the correct words ________________ (survey) is the technique of measuring the earth’s surface. Such _________________ (measure) should be as accurate as possible. A survey of the site must be made before any civil _________________ (engineer) project is undertaken. There are different kinds of surveying. Plane surveying does not take into account the _________________ (sphere) form of the earth. Therefore, it is only accurate within areas of about 20 kilometres. For larger areas, however, geodetic surveying must be used which takes into _________________ (consider) the curvature of the earth. _________________ (survey) measure distances, elevations (heights), boundaries (both man-made and natural) and other _________________ (physic) characteristics of the site. Measurements can be in a _________________ (horizon) or in a vertical plane. _________________ (high) are measured in relation to a point called bench mark. The bench mark is a point determined at sea level; it is the average of tides in a given area. 1 Geodetic datum and coordinate system Find the definitions for the fol owing terms, then read the text on geodetic datum (Szentesi, 1978). coordinate system _____________________________________________________ sea level _____________________________________________________ navigation _____________________________________________________ cartographer _____________________________________________________ satel ite navigation system _____________________________________________________ latitude _____________________________________________________ longitude _____________________________________________________ altitude _____________________________________________________ For orientation in space, a geodetic datum is required. A geodetic datum or geodetic system is a coordinate system, and a set of reference points, used to locate places on the Earth (or similar objects). An approximate definition of sea level is the datum WGS 84 (World Geodetic System from 1984), an el ipsoid, whereas a more accurate definition is Earth Gravitational Model 2008 (EGM2008). Data are used in geodesy, navigation, and surveying by cartographers and satel ite navigation systems to translate positions indicated on maps (paper or digital) to their real position on Earth. Each starts with an el ipsoid (stretched sphere), and then defines latitude, longitude and altitude coordinates. Because the Earth is an imperfect el ipsoid, localised data can give a more accurate representation of the area of coverage than WGS 84. Local can mean a continental, national, regional or even personal datum for a specific project. In Slovenia, there is so called Gauss-Krüger (GK) and UTM (Universal transverse Mercator) mapping system and coordinates. GK coordinates are based on GK cylindrical, 74 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING transverse, central, conform projection with 3° (at latitude) wide zones. Al together there are 120 zones. Slovenia lies in meridian zone with middle meridian 15° of longitude eastern from Greenwich prime meridian (London). Middle meridian 15° of longitude goes through the town Zagorje and almost whole Slovenia lies in 5th zone (15º/3 º = 5) – Fig. 5. In your own words, explain the Fig. 5. Figure 6: Meridian zones; (author: Rok Kamnik) Watch the Video Becoming a Land Surveyor (Study.com, n.d.) and answer the questions in a note form. 1. Which fields does land surveying relate to? Unit 6: Surveying and Road Construction 75 2. What can surveying professionals measure and map to establish boundaries and limitations? 3. What important information is provided by land surveyors? 4. What does each state mandate? 5. Why is specialized equipment used? 6. Why should a land surveyor be in good physical condition? 76 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING 7. What degree of study is required by employers? 8. How long do surveyors, completing the first exam for the licence, mostly work under direct supervision of a more experienced surveyor? 9. Where do most land surveyors work? 10. What areas do land surveyors play an important role in? Unit 6: Surveying and Road Construction 77 Write the correct forms of the verbs in brackets. 1. Before the construction of the bridge is ___________ (undertake), a survey of the site must be _____________ (make). 2. A surveyor ______________ (take) accurate measurements of both river banks. 3. When a steel tape is __________ (use), temperature readings are also _________ (take). 4. Level ing devices ______________ (keep) a theodolite in a horizontal plane. 5. For the measurements to be accurate, the ends of the tapes had to be ___________ (level). Read the text and insert the missing words abscissa, direction, east, north, south, west In geodesy, geodesic rectangular coordinate system is used in which its positive direction of axis x (abscissa) is turned to cartographic ___________; negative x axis is turned to_________. Positive direction of axis y (ordinate axis) heads against _____________ and negative axis y against _____________. In coordinate system the point is determines with rectangular coordinates y (ordinate) and x (___________), of which sign +/- depends on the quadrant of this point. The size of a direction angle is between 0° and 360°, numbered from positive x axis in clockwise _______________. Pair work: Read the general description of angle measurements and describe the Figures below to your neighbour. In geodesy, angle and distance measurements are mainly performed to measure horizontal and vertical (height) angles. A horizontal angle is an angle between two points on the fictive horizontal plane. The instrument for such measurements is theodolite and nowadays a total station. The horizontal angle is obtained by the subtraction of the second sideshot reading from the first side shot reading on the horizontal circle (Fig. 6 and 7). In Fig. 7 only one horizontal angle is measured (two directions or side shots) but from one station point n side shots and n-1 angles can be obtained (Fig 8). 78 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING 1 – the base plate 2 – alidade 3 – vertical circle 4 – alidade axis L 5 – X axis of the telescope 6 – telescope 7 – Y axis – turning axis of the telescope 8,9 – horizontal circle 10 – levelling screw 11 – vertical axis Figure 7: Theodolite; (author: Rok Kamnik) Figure 8: Side shot readings and horizontal angle calculation; (author: Rok Kamnik) Figure 9: Direction (side shot) measurements; (author: Rok Kamnik) Homework Find out more about one of the surveying tools and/or equipment and prepare a short oral presentation. Unit 6: Surveying and Road Construction 79 2 Road design (author: Tomaž Tollazzi) Read the text and complete the sentences below. Free section The geometric design of roads is the branch of highway engineering with the positioning of the physical (design) elements of the roadway according to standards and constraints. The basic objectives in geometrical design are to optimize efficiency and traffic safety while minimizing cost and environmental damage. Geometric roadway design can be split into three main parts: horizontal alignment, vertical alignment, and cross-section. Combined, they provide a three-dimensional (spatial) layout for a roadway. The horizontal alignment is the route of the road, defined as a series of horizontal tangents, clothoids (transitional curves) and curves. The horizontal alignment is the vertical aspect of the road, including crest and sag curves, and the straight grade lines connecting them. The cross section shows the position and number of vehicle and bicycle lanes and sidewalks, along with their cross slope or banking. Cross sections also show drainage features, pavement structure and other items outside the category of geometric design. Intersection and Interchange An intersection is an at-grade junction where two or more roads meet or cross. Intersections may be classified by number of road segments, traffic controls, and/or lane design. In accordance with Slovenian legislation, there are just three types of at-grade intersections: perpendicular three-arm ‘’T’ intersection, perpendicular four-arm ‘’+’ intersection, and roundabout. A roundabout is a type of circular intersection in which road traffic flows in one direction around a central island. Roundabout requires entering traffic to give way to traffic already on the circulatory carriageway. Today, several different types of roundabouts exist. An interchange is a road junction that typical y uses grade separation, and one or more ramps, to permit traffic on at least one highway to pass through the junction without directly crossing any other traffic stream. It differs from a standard intersection, at which roads cross at-grade. These days several different types of interchanges are known. (Source: written by dr. Tomaž Tolazzi) 80 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING 1. The positioning of the physical (design) elements of the roadway should meet …. 2. Efficiency optimization, traffic safety, cost and environmental damage minimization are … 3. Horizontal alignment, vertical alignment, and cross-section form … 4. Clothoids are … 5. The horizontal alignment comprises… 6. The cross section includes… 7. Classification of intersections depends on… Unit 6: Surveying and Road Construction 81 3 Business letters General Learn how business letters (Erickson & et al., n.d.) should be written and put into the right order the following: − Name of city and postcode − Number and name of the street/road/square/avenue − Name of the house or the building − Name of the country − Name of town or the person and/or the company 4 Business letter format Example By using the sample ("Sample Letter Requesting Information," n.d.) write a letter requesting information. 82 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING [Your Name] [Street Address] [City, St Zip] [Today’s Date] [Name of Recipient] [Title] [Company] [Address] [City, St Zip] Dear [Name of Recipient]: (If unknown, use To Whom It May Concern:) [Short introduction paragraph, stating purpose] [Additional information] [Closing information, summary or thank you as appropriate] Sincerely, [Sign here for letters sent by mail or fax] [Your Name] [Title – if applicable] Enclosures: # CC: Unit 6: Surveying and Road Construction 83 5 Business e-mails − An e-mail is much less formal than a written letter. E-mails are usually short and concise. − If you are writing to someone you don't know, a simple "Hel o" is adequate. Using a salutation such as "Dear Mr Smith," is formal. − When writing to someone you know wel , feel free to write as if you are speaking to the person. − Use abbreviated verb forms (He's, We're, He'd, etc.) − Include a telephone number to the signature of the e-mail. This will give the recipient the chance to telephone if necessary. − It is not necessary to include your e-mail address as the recipient can just reply to the e-mail. − When replying, eliminate al unnecessary information. Leave only the sections of the text that are related to your reply. This wil save your reader time. − E-mails may be formal or less formal, depending on the writer’s relation to the receiver/reader. 84 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Example 1: Formal Dear Mr Pitt, I read on your web site that you offer good quality computers. I'd like to inquire about the technical data and price of the model HP ENVY 27. Are the files transferred online, or by standard mail? How long does it usually take to produce approximately 500 computers? Are there any discounts on such a large quantity? Thank you for taking the time to answer my questions. I look forward to your response. Sincerely, John Gates Sales Manager, Young Talent Inc. (0061) 58-77 – 3498 Example 2: Less formal Hello Tom, Listen, we've been working on the Smith account and I was wondering if you could give me a hand? I need some inside information on recent developments over there. Do you think you could pass on any information you might have? Thanks Peter Peter Thompsen Account Manager, Tri-State Accounting (0061) 345 - 7843 Unit 6: Surveying and Road Construction 85 6 Curriculum vitae (CV) (European Union, 2018) Personal information First name(s) / Surname(s) Matej Breznik Present address 25, Za vinogradi, 2000 Maribor Telephone number 00386 2 57 89 99 E-mail matej.breznik@com.si Nationality Slovene Date of birth 13 May 1988 Gender Male Work experience 2015 – present unemployed June 2010-Dec 2014 Sterling Construction Company Education and Qualifications 2002- 2006 Secondary School of Engineering 2006 – 2010 The Faculty of Civil Engineering, Transportation Engineering and Architecture Bachelor of Engineering Additional information My interests include computing. While working I attended various evening courses for German. References Tutor Mr. B. Jeremy, Assistant Director Pikus, Ltd., Maribor (Ltd. = limited liability – družba z omejeno odgovornostjo) Write your own CV according to Europass Curriculum vitae: 86 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING BRIDGING BORDERS ENGLISH FOR STUDENTS OF CIVIL ENGINEERING S. Mulej LITERATURE 10 Most Famous Bridges In The World (n.d.). Retrieved from 10 Most Today.com website: https://10mosttoday.com/10-most-famous-bridges-in-the-world/ AirForceTheCircuit. (2009, April 21). Col ege Student Invents Building Material. [Video file] Retrieved from https://youtu.be/PBReLnupuXE Augugliaro, F. (2015, September 18). Building a rope bridge with flying machines. [Video file] Retrieved from https://youtu.be/CCDIuZUfETc Brkan, M. (2009). English for students of civil engineering : skripta. 62 str. Building Construction. (2014, July 14). Retrieved from Slide Share website: https://www.slideshare.net/Wel tan/building-construction-36880123 Civil Engineering (BEng). (2019). Retrieved from https://www.city.ac.uk/courses/undergraduate/civil-engineering-beng#course-detail=1 CSCS Health & Safety Training. (2013, December 28). What you must know working as a labourer on construction site in UK [Video file] Retrieved from https://youtu.be/jHas7eEsBdc Erickson, M., & et al. (n.d.). How to Write a Business Letter. Retrieved from wikiHow website: https://www.wikihow.com/Write-a-Business-Letter European Union. (2018). Europass Online editor: Curriculum vitae. Retrieved from https://europass.cedefop.europa.eu/editors/en/cv/compose GetLink Group. (n.d.). The Channel Tunnel infrastructure. Retrieved from GetLink website: https://www.getlinkgroup.com/uk/the-channel-tunnel/infrastructure/ Go Jobs Inc. (2008, June 19). How to Find Civil Engineering Jobs - GOJobs.com [Video file] Retrieved from https://youtu.be/scbGSjAIn9o Illston, J. M., & Domone, P. L. J. (Eds.). (2008). Construction materials : their nature and behaviour (3rd ed.). London; New York: Spon. Intenga 4 english learners. (2012, May 6). How to Describe Graphs and Trends in English. [Video file] Retrieved from https://youtu.be/N1uAImH4GwA Jurij Vega. (n.d.). Retrieved from https://en.wikipedia.org/wiki/Jurij_Vega 88 BRIDGING BORDERS: ENGLISH FOR STUDENTS OF CIVIL ENGINEERING Kasíková, S., Horká H., Nivenová R., in Sedláková V. (2007). English for Civil Engineering. Prague: Česka technika. Newcastle University. (2014, June 17). Civil Engineering degrees at Newcastle University. [Video file] Retrieved from https://youtu.be/G9rZ9WKNVHY Othello Khanh. (2010, July 22). The Phu My Bridge - Saigon, Vietnam (2007- 2009) - Construction Time Lapse. [Video file] Retrieved from https://youtu.be/agPC4IpoHNI Quint, R. (2014, August 8). Shortages of Key Building Materials Have Eased in 2014. Retrieved from Eye of Housing website: http://eyeonhousing.org/2014/08/shortages-of-key-building- materials-have-eased-in-2014/ Sample Letter Requesting Information. (n.d.). Retrieved from https://www.englishclub.com/business-english/correspondence-information-requesting.htm The stone railed bridge in Solkan. (n.d.). Retrieved from Nova Gorica - New Adventures website: https://www.novagorica-turizem.com/eng/destinations-and-events/culture-and- nature/2012032010441913/The-stone-railed-bridge-in-Solkan/ Study Bucket. (2013, March 1). List of Polytechnic (Diploma In Engineering) Top 10 Branches. [Video file] Retrieved from https://youtu.be/23N5DfVqsps Study.com. (n.d.). Land Surveying Career Video: Becoming a Land Surveyor. [Video file] Retrieved from https://study.com/videos/Land_Surveying_Career_Video_Becoming_a_Land_Surveyor.html Szentesi, A. (1978). Surveying measurements: Hungarian Optical Works. Wolchover, N. (2016, March 3). Top 10 Inventions That Changed the World. Retrieved from LifeScience website: https://www.livescience.com/33749-top-10-inventions-changed- world.html Županek, T. (2014). Angleški jezik za študente strojništva : [skripta]. Maribor: Fakulteta za strojništvo. Document Outline INTRODUCTION 1 Civil engineering studies 2 Course Content UNIT 1: ENGINEERING 1 Civil engineering jobs 2 Branches of engineering 3 Working as an engineer 4 Present tenses 5 Expressing future UNIT 2: MATHEMATICS 1 Numbers 2 Basic processes of arithmetic 3 Shapes UNIT 3: BUILDING CONSTRUCTION 1 Walls 2 Roof 3 Construction site safety 4 Passive voice UNIT 4: BUILDING MATERIALS 1 Corrosion (Županek, 2014) 2 Describing Graphs, Charts and Tables 3 Describing trends UNIT 5: BRIDGES AND TUNNELS 1 Bridges (Brkan, 2009) 2 Types of Bridges 3 Tunnels 4 Machinery and equipment 5 Tools 6 Prepositions UNIT 6: SURVEYING AND ROAD CONSTRUCTION 1 Geodetic datum and coordinate system 2 Road design (author: Tomaž Tollazzi) 3 Business letters 4 Business letter format 5 Business e-mails 6 Curriculum vitae (CV) (European Union, 2018) LITERATURE