- •(Введение) научно - методическое обоснование
- •Содержание и структура курса
- •(Методические рекомендации)
- •Engineering in our life Part I
- •2. Translate the following sentences into Russian:
- •3. Read the following headlines (a, b, c and d). What do you think each paragraph will be about?
- •4. Read the following text and match the headings (a, b, c and d) from ex.3 to its parts (1, 2, 3 and 4):
- •5. Read the text again and decide if the sentences (1, 2, 3 and 4) are true (t) or false (f):
- •6. Read the text again and match the highlighted words with the meanings (1, 2, 3 … 8)
- •7. Read the text again and find the English equivalents to the following expressions:
- •8. Match the following words:
- •9. Match the words with their definitions.
- •10. Find the 5 steps of the process of solving problems. The words may be written horizontally, vertically, diagonally:
- •11. Order the steps of solving problems:
- •12. Translate the following sentences into Russian. Translate the idea, not a word for word:
- •13. Read the following text and fill in the gaps with suitable words:
- •Check the knowledge of active vocabulary from this module with the help of
- •Part II
- •History of engineering.
- •What is engineering?
- •Now answer the following questions about the text:
- •Problem-solving process
- •Part III (… адрес интернет-странички с видеороликами…)
- •1. Being an engineer
- •2. What is engineering?
- •3. What is engineering ? (a real video lecture)
- •2. Types of engineering Part I
- •1. What do engineers do? Use verbs to answer.
- •2. Read the four parts of one text (a, b, c and d) and put them into the correct order (1, 2, 3 and 4). Do not pay attention to the gaps:
- •5. Read the whole text again and put the main ideas of each passage to the correct order of passages:
- •6. Choose the best title to the whole text above:
- •7. Read the text again and find the equivalents to the following expressions:
- •8. Now answer the questions about the text above:
- •9. Match the following words:
- •10. Give synonyms to the following words:
- •11. Translate the following sentences into Russian. Translate the idea, not a word for word:
- •Check the knowledge of active vocabulary from this module with the help of
- •Part II
- •Main branches of engineering Read the following text and fill in the gaps with the following words:
- •Civil engineering Read the following text and fill in the gaps with the following words:
- •3. Mechanical engineering Read the following text and fill in the gaps with the following words:
- •4. Electrical engineering Read the following text and fill in the gaps with the following words:
- •5. Engineering and other scientific disciplines Read the following text and fill in the gaps with the following words:
- •6. Scientists and engineers Read the following text and answer the questions below:
- •Part III (… адрес интернет-странички с видеороликами…)
- •1. Civil engineering
- •2. Electrical engineering
- •3. Mechanical engineering
- •3. Making the right choice Part I
- •1. Look at the picture and answer the following questions:
- •2. Answer the following questions about yourselves. Compare your answers with a partner.
- •3. Read the following text and choose the correct answers to questions (1-3) below:
- •4. Read the text again and find the equivalents to the following expressions:
- •5. Red the text again and decide if the sentences (1-6) below are true (t) or false (f):
- •6. Complete the following definitions (1-6) below with the highlighted words in the text.
- •8. Give synonyms to the following words using the words from the module:
- •9. Guess the words from their definitions.
- •10. Translate the following sentences into Russian. Translate the idea, not a word for word:
- •11. Answer the questions (1-6) about your course and write a small text about it.
- •1. Read the following questions. Study the meaning of words that you don’t know. Think and try to answer them.
- •2. Read the following text and choose the correct answers to questions (1-3) below:
- •3. Read the text again and match the people (a – e) below with a suitable course (1- 4). One person isn’t suitable for any of the courses.
- •4. Complete the definitions (1 – 6) below with the highlighted words in the text.
- •5. Find the mistakes in spelling of the following words and correct them. Only one word is correct.
- •6. Guess the words from their definitions.
- •7. Translate the following sentences into Russian. Translate the idea, not a word for word:
- •8. Fill in the gaps in the following text with suitable words from section b of this module.
- •Check the knowledge of active vocabulary from this module with the help of
- •Part II
- •1. Why study engineering? (adapted from http://www.Science-engineering.Net)
- •International Engineering Students in the uk
- •3. Choosing a course in the uk (adapted from http://www.Science-engineering.Net) Read the following text and fill in the gaps with a suitable word from the box:
- •Part III (… адрес интернет-странички с видеороликами…)
- •1. Choosing a career
- •2. Choosing _______________ ________________ as a career
- •4. Materials and their properties Part I
- •1. Do you know the following materials? Match the materials to their definitions below:
- •2. Which is the best material for the following objects and why?
- •3. Read the information in the table below and put each heading into the correct column (a, b, or c). What is the order of materials in column “a”?
- •4. Read the information in the table from ex.3 again and find out which material (1-10) is best for:
- •5. Study the table in exercise 3 again and complete the following table.
- •6. Match the properties from the table (1-6) with their opposites below. Use your glossary or dictionary to help you.
- •7. Find as many materials in the following line as you can (11 words).
- •8. Answer the following questions.
- •9. Look at the following materials and complete the table.
- •10. What is the best material for the following things and why?
- •11. Fill in the gaps in the following sentences (1 – 12) with suitable words from the module.
- •12. Translate the following sentences into the English language. Give the idea of a sentence but not a word for word translation.
- •Check the knowledge of active vocabulary from this module with the help of
- •Part II
- •1. Materials
- •2. Materials science
- •3. Properties of materials
- •Part III (… адрес интернет-странички с видеороликами…)
- •Materials science centre - what does it do?
- •Materials science and engineering at clemson graduate school
- •Materials science and engineering at penn state (08:40)
- •5. Smart materials Part I
- •1. Read the following sentences below (1-3). What does the word ‘smart’ mean in each one (clever, fashionable, formal)?
- •2. A) Look at the title of the text. Do you think the materials are clever, fashionable, or formal?
- •3. Find in the text:
- •4. Read the text again and choose the correct answers for questions (1–4) below.
- •5. Complete the definitions (1-8) below with the highlighted words in the text.
- •6. Answer the following questions to the text:
- •7. Match the following words:
- •8. Fill in the gaps in the following sentences with a suitable word:
- •Check the knowledge of active vocabulary from this part with the help of “active vocabulary” section. Part II
- •Smart materials (1) Read the following text and fill in the gaps. Use the words given in boxes:
- •Smart materials (2)
- •Shape memory alloys (sma)
- •Part III (… адрес интернет-странички с видеороликами…)
- •Shape memory effect
- •Smart __________
- •Fashion metamorphosis (02:30) – video, inscriptions
- •Materials engineering
- •(Глоссарий)
- •G r a m m a r r e f e r e n c e (грамматический справочник) Части речи (Parts of Speech)
- •Члены предложения (Parts of Sentence)
- •Порядок слов в предложении (Word order)
- •Существительное (Noun)
- •Исчисляемые и неисчисляемые существительные (Countable and Uncountable Nouns)
- •Притяжательный падеж существительных (Possessive Case)
- •Местоимения (Pronoun)
- •Местоимения ‘some’, ‘any’, ‘no’.
- •Прилагательное (Adjective)
- •Глагол (Verb)
- •Смысловые и вспомогательные глаголы (Main verbs and auxiliary verbs)
- •Модальные глаголы (Modal verbs)
- •Глагол “to be”
- •Обороты “There is … / are / was / were / will be”
- •Времена (Tenses)
- •Present Simple (Настоящее простое)
- •Present Continuous (Настоящее продолженное)
- •Past Simple (Прошедшее простое)
- •Past Continuous (Прошедшее продолженное)
- •Present Perfect (Настоящее совершенное)
- •Past Perfect (Прошедшее совершенное)
- •3) Выражение будущности после ‘If… / before … / after … / as soon as …’
- •Система времен английского языка в активном залоге
- •Пассив (Passive)
- •Повелительное наклонение (The Imperative Mood)
- •Косвенная речь (Indirect Speech)
- •(Тексты для дополнительного чтения)
- •Engineering and art
- •Engineering and medicine / biology
- •Engineering in a social context
- •Scientists and engineers
- •Why Study Engineering? (adapted from http://www.Science-engineering.Net)
- •Careers in civil engineering
- •Professional Qualifications
- •An Incorporated Engineering (iEng) has:
- •What do Civil Engineers do? Civil engineers turn complex ideas into reality. They help make some of the most innovative structures in the uk and abroad.
- •Civil engineering offers a flexible, well-rewarded and diverse career with the chance to work and travel all over the world.
- •International opportunities
- •Job satisfaction
- •Careers in electronic engineering
- •Quality Courses
- •Careers in mechanical engineering
- •What is Mechanical Engineering?
- •Qualifications
- •Which Course / University?
- •Earnings Potential
- •Finding a job in engineering
- •Career Benefits
- •Here to help you
- •How university can benefit young people
- •Is higher education for you?
- •Ask questions! Before you choose a university! Ask yourself - and anyone else whose opinion you value - the following questions:
- •Student Life
- •Student Action Plan
- •If you are on the brink of choosing a degree course, this Action Plan will help you to make the most of your university years, even if you are not yet sure of your career.
- •1. Increase your self-awareness
- •2. Make an informed decision about what, how and where to study.
- •3. Gain relevant work experience
- •4. Develop skills for the workplace
- •5. Set aside opportunities to reflect on your learning
- •6. Use your contacts: develop the art of networking
- •7. Explore options
- •Properties of materials 1
- •Properties of materials 2
- •Computer usage in engineering
- •Types of artificial waterways
- •Modern uses
- •Cities on water
- •Choice of tunnels vs. Bridges
- •History of daMs
- •History of tunnels
- •A robotic spacecraft
- •History
- •- Telecommunication subsystem (includes radio antennas, transmitters and receivers which are used to communicate with ground stations on Earth, or with other spacecraft);
- •- Temperature control and protection from the environment subsystem (includes mirrors and sunshades for additional protection from solar heating).
- •Efficiency of bridge construction
- •History of bridges
- •The millenium bridge (kazan)
- •The usage of bridges
- •The examples of ancient architectural structures (the list of ancient architectural records)
- •1) Bridges
- •2) Columns
- •3) Dams
- •4) Domes
- •5) Fortifications (Roman military engineering)
- •6) Monoliths
- •7) Roads
- •8) Roofs
- •9) Tunnels
- •10) Vaulting
- •(Видеосюжеты для дополнительного просмотра)
- •(Ссылки на образовательные интернет-сайты)
- •S o u r c e s (список использованной литературы)
- •(Содержание)
-
Scientists and engineers
“Scientists study the world as it is;
engineers create the world that has never been”.
Theodore von Kármán
There exists a specific connection between the sciences and engineering practice. In engineering, people apply science. Both areas - science and engineering - rely on accurate observation of materials and phenomena. Both use mathematics and classification criteria to analyze and communicate observations.
Scientists must interpret their observations and make recommendations for practical action. Scientists may also have to complete engineering tasks, such as designing experimental apparatus or building prototypes. On the other hand, in the process of developing technology engineers sometimes explore new phenomena and become scientists themselves.
In the book What Engineers Know and How They Know It, Walter Vincenti says that engineering research differs from scientific research. First, it often deals with areas in which the basic physics and/or chemistry are well understood, but the problems themselves are too complex to solve in an exact manner. Examples are the use of numerical approximations to the Navier-Stokes equations to describe aerodynamic flow over an aircraft, or the use of Miner's rule to calculate fatigue damage. Second, engineering research employs many semi-empirical methods that are too far from pure scientific research, one example being the method of parameter variation.
As stated in the revision to the classic engineering text, Foundations of Solid Mechanics: "Engineering is quite different from science. Scientists try to understand nature. Engineers try to make things that do not exist in nature. Engineers stress invention. To embody an invention the engineer must put his idea in concrete terms, and design something that people can use. That something can be a device, a gadget, a material, a method, a computing program, an innovative experiment, a new solution to a problem, or an improvement on what is existing. Since a design has to be concrete, it must have its geometry, dimensions, and characteristic numbers. Almost all engineers working on new designs find that they do not have all the needed information. Most often, they are limited by insufficient scientific knowledge. Thus they study mathematics, physics, chemistry, biology and mechanics. Often they have to add to the sciences relevant to their profession. Thus engineering sciences are born."
-
Why Study Engineering? (adapted from http://www.Science-engineering.Net)
Engineering is the way of realization of technological progress. Engineers and engineering make a major impact in the everyday lives of most of us. Engineering qualifications and experience are a foundation for many different careers.
In recent times it has become fashionable to talk about post-industrialized economies – in which services take over from manufacturing under the “law” of comparative advantage. This theory is substantially flawed. Services are more difficult to export than manufactured goods, and in any event a significant part of demand for services comes from the manufacturing sector itself. Therefore engineering - the realization of technological progress - is crucial to creating a modern balanced economy.
This does not overlook the inevitability of migration of some activities as part of the phenomenon known as globalization. But the notion that is still held by some governments is that manufacture and export constitute a “good” model and globalization (export of jobs and value creation) is “bad” and dangerously misleading. As markets become more integrated and the borders between nation states become less rigid and regions emerge as the rational units of economic activity, the question arises as to what activities logically belong within a region and what should be outsourced to more appropriate locations. Engineers applying the tools and techniques of modern engineering have accelerated this process of greater organisational fluidity and a more international approach to satisfying demand wherever it arises. Value creation is becoming less constrained geographically - information engineering is accelerating this process of change.
This evolution is either exciting or scary, depending how you look at it. Let us consider just three significant issues.
Firstly, in many engineering activities we see a new kind of challenge emerging – increasingly international business structures. Research and development can take place in one location, materials and subassemblies can be sourced from several locations worldwide, manufacture can take place in areas located far from R&D and raw material supply and final markets can be anywhere. The skill of the engineer in designing information systems and configuring operational technology determines how all this fits together competitively and profitably. It means that an engineer can face the challenge of coping with multi-location, multi-cultural relationships at a very early stage of a career.
Secondly, engineers have been at the forefront of turning time into a distinguishing feature of the product creation process. With a faster and more even distribution of ‘know-what’ and ‘know-how’ the difference between success and failure can depend on speed-to-market. This requires a high level of engineering knowledge and skill in operational system design and supply chain management to achieve what is commonly termed “time compression”.
Thirdly, it is sometimes said that certain developed countries are “post-industrial”. This is, I believe, short-sighted. What is happening is that the structure of industrial activity is shifting in a way that locates individual functions where they logically belong. Therefore we find in the more advanced economies of the world those parts of the supply chain and operational functions that are best placed there. Conversely the activities in which other countries enjoy a comparative advantage will attract other activities. Modern systems engineering addresses this issue head-on.
Engineers have often found themselves in key positions in industry and commerce. The reasons for this are easy to discern, given the importance of systems technologies in any modern economy and the trends to globalisation outlined above. However this trend goes further and broader than businesses that can be classified as “engineering”. To take just one example, the Chairman of one of the UK’s leading banks (Sir George Mathewson of the Royal Bank of Scotland Group) is a highly qualified engineer whose global experience has propelled the bank into major initiatives on behalf of leading international clients. This will be less of an exceptional case as we move ahead in an increasingly global industrial economy.
As a closing remark I find myself referring to a recent article by one of the UK’s most distinguished engineers, Lord Bhattacharyya, Professor of Systems Engineering at the University of Warwick. Writing in the February 2006 issue of the journal of the Royal Society of Arts, Manufactures and Commerce, Lord Bhattacharyya advances a very powerful argument for developing in the UK the same level of skills that are found in financial engineering in what he terms “real” engineering. This will involve a more collaborative approach to relationships, recognising that globalisation provides as many opportunities as threats and understanding how a new generation of engineers stand to gain most by this process of change. It is truly a “revolution in the making” that emphasises the value and potential of studying engineering in the early 21st century.
Dr Daniel Park Partner MASS Consulting Group, Manchester, UK