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Министерство образования и науки Республики Казахстан ВОСТОЧНО-КАЗАХСТАНСКИЙ ГОСУДАРСТВЕННЫЙ ТЕХНИЧЕСКИЙ УНИВЕРСИТЕТ им. Д. Серикбаева Е.Ф. Ней, А.К. Кайролдина ПРОФЕССИОНАЛЬНО-ОРИЕНТИРОВАННЫЙ АНГЛИЙСКИЙ ЯЗЫК Методические указания и контрольные работы для студентов заочной и дистанционной форм обучения ФИТЭ ВКГТУ им. Д. Серикбаева Усть-Каменогорск 2013 1 ЗАДАНИЯ И МЕТОДИЧЕСКИЕ УКАЗАНИЯ К ВЫПОЛНЕНИЮ КОНТРОЛЬНОЙ РАБОТЫ 1.1 Цель выполнения контрольной работы Выполнение контрольной работы способствует закреплению навыков работы с текстами по специальности, умений работать со справочной литературой и другими источниками информации, знанию основной профессиональной терминологии по специальности. Защита контрольных работ является частью рубежного контроля или допуском до экзамена, и включает в себя проверку усвоения материала, вошедшего в контрольные работы. 1.2 Выбор темы контрольной работы Каждая контрольная работа предлагается в пяти вариантах. Вы должны выполнить один из пяти вариантов в соответствии с последними цифрами студенческого шифра (номера зачетной книжки): студенты, шифр которых оканчивается на 1 или 2, выполняют вариант № 1; на 3 или 4 - № 2; на 5 или 6 № 3; на 7 или 8 - № 4; на 9 или 0 - № 5. 1.3 Требования, предъявляемые к контрольной работе Контрольные работы должны выполняться и сдаваться на проверку вовремя, до начала сессии. Если вы сделали ошибки в контрольной работе, необходимо сделать работу над ошибками в той же тетради, что и контрольная работа. Работа над ошибками проверяется преподавателем на практическом занятии во время сессии и является частью защиты контрольной работы. При получении от рецензента проверенной контрольной работы внимательно прочитайте рецензию, ознакомьтесь с замечаниями и проанализируйте отмеченные в работе ошибки. Руководствуясь указаниями рецензента, проработайте еще раз учебный материал. Все предложения, в которых были обнаружены орфографические и грамматические ошибки или неточности перевода, перепишите начисто в исправленном виде в работе над ошибками после данной контрольной работы. Материал следует располагать так же, как и при выполнении контрольной работы. Отрецензированные контрольные работы являются учебными документами, которые необходимо сохранять. 1.4 Порядок оформления контрольной работы Выполнять письменные контрольные работы следует в отдельной тетради. На обложке напишите свою фамилию, номер контрольной работы, вариант, шифр специальности, наименование группы и шифр студента (номер зачетной книжки). Контрольные работы должны выполняться пастой синего или черного цвета, аккуратно, четким почерком через строку. Если работа выполняется в компьютерном варианте, следует выбрать альбомную раскладку страницы и междустрочный интервал равный 1,5. При выполнении контрольной работы оставляйте в тетради широкие поля для замечаний, объяснений и методических указаний рецензента. Материал контрольной работы следует располагать в тетради по следующему образцу: Развернутый лист тетради левая страница правая страница Широкие поля (5 см) Предложения на английском языке Перевод на русский язык Широкие поля (5 см) Обязательно переписывайте саму формулировку задания и выполняйте все задания и в той последовательности, в которой они даны в методичке. 1.5 Образцы выполнения заданий к контрольной № 1 Некоторые предложения в тексте пронумерованы, чтобы студенту было проще ориентироваться при выполнении заданий. Номер стоит в начале предложения. 1.5.1 Образец выполнения задания 1. Задание 1. Перепишите предложение. Выпишите сказуемые и определите видовременную форму и залог. Предложение переведите. We shall analyse these samples in оur laboratory. Мы проанализируем эти образцы в нашей лаборатории. shall analyse – Future Simple Active от глагола to analyse 1.5.2 Образец выполнения задания 2. Задание 2. Выпишите из предложения инфинитив, причастие и герундий. eliminating - герундий created - причастие to be used – инфинитив их 1.5.3 Образец выполнения задания 3. Задание 3. Перепишите предложения. Укажите главное и придаточное предложения. Предложение переведите. Although less force is used, the amount Хотя прикладывается меньше of work remains the same. усилий, количество работы остается тем же. 1.5.4 Образец выполнения задания 4. Задание 5. 1. hazard a. place or fix in position ready for use b. a danger or risk 2. install 2 –b 3 –a 1.6 Образцы выполнения заданий к контрольной № 2 1.6.1 Образец выполнения задания 1. Assignment 1. Match the words on the left with their definitions on the right. 1.hazard 2.install a) place or fix in position ready for use b) a danger or risk 1 –b 2 –a 1.6.2 Образец выполнения задания 2. Assignment 2. Mark the following statements as true (T) or false (F). 1.___T___ This process did not start with Benjamin Franklin. 1.6.3 Образец выполнения задания 3. Assignment 3. Match heads and tails of the following sentences. 1.I have been waiting 2.The firemen have been trying a) to put out a big forest fire in California. b) for you for two hours. 1–b 2-a 1.6.4 Образец выполнения задания 4. Assignment 4. Fill in the gaps using the given words. regularly maintenance _________(1) engineers check _______(2) all the equipment 1 - maintenance 2 - regularly 2 КОНТРОЛЬНАЯ РАБОТА № 1 Вариант 1 Electricity became a subject of scientific interest in the late 17th century with the work of William Gilbert. (1) Over the next two centuries a number of important discoveries were made including the incandescent lightbulb and the voltaic pile. Probably the greatest discovery with respect to power engineering came from Michael Faraday who in 1831 discovered that a change in magnetic flux induces an electromotive force in a loop of wire. (2) That principle known as electromagnetic induction helps explain how generators and transformers work. (3) In 1881 two electricians built the world's first power station at Godalming in England. (4) The station employed two waterwheels to produce an alternating current that was used to supply seven Siemens arc lamps at 250 volts and thirty-four incandescent lamps at 40 volts. However supply was intermittent and in 1882 Thomas Edison and his company, The Edison Electric Light Company, developed the first steam-powered electric power station on Pearl Street in New York City. The Pearl Street Station consisted of several generators and initially powered around 3,000 lamps for 59 customers. (5) The power station used direct current and operated at a single voltage. (6) Since the direct current power could not be easily transformed to the higher voltages necessary to minimise power loss during transmission, the possible distance between the generators and load was limited to around half-a-mile (800 m). That same year in London Lucien Gaulard and John Dixon Gibbs demonstrated the first transformer suitable for use in a real power system. (7) The practical value of Gaulard and Gibbs' transformer was demonstrated in 1884 at Turin where the transformer was used to light up forty kilometres (25 miles) of railway from a single alternating current generator. Despite the success of the system, the pair made some fundamental mistakes. Perhaps the most serious was connecting the primaries of the transformers in series so that switching one lamp on or off would affect other lamps further down the line. (8) After the demonstration George Westinghouse, an American entrepreneur, imported a number of the transformers along with a Siemens generator and set his engineers to experimenting with them in the hopes of improving them for use in a commercial power system. One of Westinghouse's engineers, William Stanley, recognised the problem with connecting transformers in series as opposed to parallel and also realised that making the iron core of a transformer a fully enclosed loop would improve the voltage regulation of the secondary winding. Using this knowledge he built a much improved alternating current power system at Great Barrington, Massachusetts in 1886. Then in 1887 and 1888 another engineer called Nikola Tesla filed a range of patents related to power systems including one for a two-phase induction motor. (9) Although Tesla cannot necessarily be attributed with building the first induction motor, his design, unlike others, was practical for industrial use. Задание 1. Перепишите предложения 1, 2, 3, 5, выпишите глаголы и определите их видовременную форму и залог. Предложения переведите. Задание 2. Выпишите из предложений 4, 8 инфинитивы, герундии, причастия. Предложения переведите на русский язык. Задание 3. Перепишите предложения 6, 7, 9. Укажите главное и придаточное предложения. Предложения переведите. Задание 4. Подберите определения к следующим 5 терминам. 1. electromagnetic induction 2. voltage 3. alternating current 4. direct current 5. transformer a. an electric current that always flows in the same direction b. an electric current that continually changes direction as it flows c. an electromotive force or potential difference expressed in volts d. a piece of electrical equipment which changes a voltage to a higher or lower voltage e. a change in magnetic flux inducing an electromotive force in a loop of wire Задание 5. Ответьте на вопросы к тексту письменно. 1. What were the early discoveries related to electricity? 2. Who developed the first steam-powered electric power station? 3. Why was the possible distance between the generators and load limited? 4. What was the most serious mistake in Gaulard and Gibbs' transformer? 5. What idea helped improve the voltage regulation? Вариант 2. The Evolution of Electronics (1) It is hard to imagine what our lives would be like without electronics. Everything would be more expensive, we would be bored, and a lot colder and dirtier to boot. Even products which don't require electrical components to work, such as winged keels, were likely made with the assistance of electronics in the factories where they were produced. Not to mention, their proper function is also likely aided by advanced electronics as well. So what are some of the most important steps in the evolutionary history of electronics? Obviously, harnessing the power of electrons was the first step down the road to the electronics world that we see around us today. Believe it or not, this process did not start with Benjamin Franklin. (2) In fact, the famous scientist did not even actually discover electricity, as is popularly believed. He did, however, figure out a way to harness it. (3) That harnessing was further expanded upon in the early 20th century, when scientists began to use controlled movements of electrons to transmit signals over radio and other devices. The device which made this possible was known as the triode, and it is still being used in many electronic applications today, including the technology found in a vacuum truck as well as radios. A more popular way to move electrons along a focused path for in our devices today is through the semiconductor. Semiconductors power almost all of the electronic components in homes and franchises in Canada and all over the world. (4) They include several different parts, such as the diode, the solar cells, and different kinds of transistor. (5)Semiconductors are considered the basis for most of our modern electronics, and are becoming ever more efficient. (6) For example, the quick access to an efficient supply of hot water through a tankless water heater in the modern home is made possible by a very efficient semiconductor, which heats the water on demand, and quickly. The efficiency of a semiconductor is dependent on the materials the components are constructed from as well as the quality of the components themselves. Of course, the means of transfer alone is not what has changed our modern electronics into the efficient machines we see all around us today. Streetsville homes equipped with iPods, computers, and smart technology are also aided by the inclusion of other inventions of the past couple decades. Chief among these inventions are laser and digital technology. (7) Both advances have helped create more compact and efficient electronics. (8)All electronics also depend on systems which can dissipate heat generated during the transfer. Advancements in cooling systems have thus also been very important in the evolution of modern electronics. Задание 1. Перепишите предложения 2, 4, 5, 7, выпишите глаголы и определите их видовременную форму и залог. Предложения переведите. Задание 2. Выпишите из предложения 3 инфинитивы, герундии, причастия. Предложение переведите на русский язык. Задание 3. Перепишите предложения 1, 6, 8. Укажите главное и придаточное предложения. Предложения переведите. Задание 4.Подберите определения к следующим 5 терминам. 1. electronics 2. harness 3. triode 4. semiconductor 5. transmit a. utilize, use b. cause (something) to pass on from one place to another c. a solid substance that has a conductivity between that of an insulator and that of most metals, either due to the addition of an impurity or because of temperature effects d. a vacuum tube having three electrodes e. the technology of using transistors and silicon chips Задание 5. Ответьте на вопросы к тексту письменно. 1. What was the first step down the road to the electronics? 2. Name the device which made using controlled movements of electrons possible. 3. What is considered the basis for modern electronics? 4. Name some more achievements of modern electronics. 5. Why are cooling systems important? Вариант 3. Applications and Programming Languages (1)Applications are programs written to carry out a specific task or set of tasks, for example: word processors, spreadsheets, accounting packages, media players and games. Applications come in several different types: Utility programs – examples include virus scanners, disk defragmenters and backup utilities. Generic – general purpose software that is not written for any particular type of business. Examples of this include word processors and spreadsheets. Integrated – a collection of software that has a common set of commands/icons. Usually they include word processors, spreadsheets and graphics software, but they can contain databases as well. (2) They tend to be cheaper than purchasing each application separately. Specific – software written for a defined purpose. Accountancy software is a good example of this that can be bought by anyone. Bespoke – bespoke software is written when a company requires a piece of software to perform a very specific task or function and there’s no existing software that does what they need. It can be very expensive. Programming languages (3)A programming language is a specially written code which is used for writing applications. C++ and Java are examples of programming languages. (4) These are known as high level languages because they have been developed to be a little like a human language. High level languages are much easier to use than a low level language such as Machine Code, or Assembly Language. (5) The advantage of a low level language is that it runs very fast on the computer. Purpose of high level languages (6)High level languages are programming languages that are easier for humans to write programs in than the computer’s own language, machine code. Some high level languages are better than others for writing programs for specific tasks, such as: creating games controlling robots mathematical solutions Common features of high level languages All high level languages: look a little like English must be translated into binary before they can be run are intended to help the programmer solve problems are easier to edit than machine code Examples you may know: C++, Visual Basic, Pascal, Comal, Prolog. The need for translation (7)A translator changes a computer program from a high level language to machine code. (8) By loading different translator programs, a computer can seem to “understand” different high level languages such as BASIC and Pascal. (9) Translator programs are a very important part of the computer/s systems software. Задание 1. Перепишите предложения 2, 4, 7, 9, выпишите глаголы и определите их видовременную форму и залог. Предложения переведите. Задание 2. Выпишите из предложений 1, 8 инфинитивы, герундии, причастия. Предложения переведите на русский язык. Задание 3. Перепишите предложения 3, 5, 6. Укажите главное и придаточное предложения. Предложения переведите. Задание 4. Подберите определения к следующим 5 терминам. 1. application 2. word processor 3. software 4. programming language 5. spreadsheet a. a specially written code which is used for writing applications b. programs and other operating information used by a computer. c. program written to carry out a specific task or set of tasks d. a computer program that is used for displaying and dealing with numbers e. a computer program or a computer which is used to produce printed documents Задание 5. Ответьте на вопросы к тексту письменно. 1. Name the types of applications. 2. What are the examples of integrated software? 3. Why is some software called specific? 4. What is the advantage of high level languages? 5. What does a computer need translator programs? Вариант 4. The Role of Sensors in our Daily Life A sensor is a piece of equipment that determines a physical quantity and converts it into a signal that can be read by an instrument or an observer. (1) For instance, a thermometer converts the measured temperature into the contraction and expansion of a liquid, which can then be read on a calibrated glass tube. (2) On the other hand, a thermocouple converts the temperature into an output voltage which can be read by a voltmeter. (3) For precision, all sensors are calibrated against their known standards. As a considerable physical change involves the transfer of energy, sensors can further be classified depending on the type of energy transfer they detect. (4) Thermal sensors include temperature sensitive resistors, thermocouples, thermometers and thermostats. Mechanical pressure sensors comprise of things like a barometer, altimeter, pressure gauge etc. Sensors are used in everyday objects like lamps that brighten or dim by touching the base, and ovens. (5) However, there are countless applications of different sensors which not many people are aware of. (6) Sensors are widely used in machines, cars, robotics, aerospace and manufacturing. Oxygen sensors are employed in industry to monitor and control processing atmospheres and also in automobiles to monitor and control the air-to-fuel (A/F) ratio in the internal combustion engine. The primary function of the oxygen sensor there is to control the A/F ratio through appropriate feedback circuitry to the fuel injection system. (7) Control is necessary to protect the catalytic converter elements from being poisoned at A/F ratios that are too high or too low. Basically, a sensor is a device that obtains and responds to a stimulus and signals. Here, the term stimulus means a quantity or property that is to be converted into an electric form. (8) The sensitivity of a sensor indicates how much the output changes with the change of measured quantity. For example, in the case of a thermometer, if the mercury level rises by 1 cm with 1°C change in temperature, the sensitivity of the sensor is 1 cm/°C. Sensors that measure very small changes must have very high sensitivities. Any sensor is a type of transducer. Direct-indicating sensors, for example, a mercury thermometer, are human-readable. Other sensors, such as a thermocouple, only produce an output voltage or other electrical output which must be interpreted by another device (such as a computer). (9) Most sensors are electrical or electronic, although other types exist. Technological progress allows more and more sensors to be manufactured on a microscopic scale as microsensors using MEMS technology. In most cases, a microsensor reaches a significantly higher speed and sensitivity compared with macroscopic approaches. Задание 1. Перепишите предложения 3, 4, 6, 9, выпишите глаголы и определите их видовременную форму и залог. Предложения переведите. Задание 2. Выпишите из предложений 1, 7 инфинитивы, герундии, причастия. Предложения переведите на русский язык. Задание 3. Перепишите предложения 2, 5, 8. Укажите главное и придаточное предложения. Предложения переведите. Задание 4. Подберите определения к следующим 5 терминам. 1. voltmeter 2. transducer 3. output 4. sensor 5. MEMS technology a. a device that detects or measures a physical property and records, indicates, or otherwise responds to it b. a device that converts variations in a physical quantity into an electrical signal, or vice versa c. microelectromechanical systembased technology d. power, energy, or other results supplied by a device or system e. an instrument for measuring electric potential in volts Задание 5. Ответьте на вопросы к тексту письменно. 1. What is a sensor? 2. Name some types of sensors. 3. What does the sensitivity of a sensor indicate? 4. Where are oxygen sensors used? 5. What is the advantage of a microsensor? Вариант 5. Robots in Manufacturing Today most robots are used in manufacturing operations; the applications can be divided into three categories: material handling, processing operations, and assembly and inspection. (1) Material-handling applications include material transfer and machine loading and unloading. Material-transfer applications require the robot to move materials or work parts from one location to another. Many of these tasks are relatively simple, requiring robots to pick up parts from one conveyor and place them on another. Other transfer operations are more complex, such as placing parts onto pallets in an arrangement that must be calculated by the robot. Machine loading and unloading operations utilize a robot to load and unload parts at a production machine. (2) This requires the robot to be equipped with a gripper that can grasp parts. Usually the gripper must be designed specifically for the particular part geometry. (3) In robotic processing operations, the robot manipulates a tool to perform a process on the work part. Examples of such applications include spot welding, continuous arc welding, and spray painting. (4) Other operations in this category include grinding, polishing, and routing, in which a rotating spindle serves as the robot's tool. The third application area of industrial robots is assembly and inspection. (5) The use of robots in assembly is expected to increase because of the high cost of manual labour common in these operations. (6) Since robots are programmable, one strategy in assembly work is to produce multiple product styles in batches, reprogramming the robots between batches. An alternative strategy is to produce a mixture of different product styles in the same assembly cell, requiring each robot in the cell to identify the product style as it arrives and then execute the appropriate task for that unit. The design of the product is an important aspect of robotic assembly. Assembly methods that are satisfactory for humans are not necessarily suitable for robots. (7) Using a screw and nut as a fastening method, for example, is easily performed in manual assembly, but the same operation is extremely difficult for a one-armed robot. (8)Inspection is another area of factory operations in which the utilization of robots is growing. (9) In a typical inspection job, the robot positions a sensor with respect to the work part and determines whether the part is consistent with the quality specifications. In nearly all industrial robotic applications, the robot provides a substitute for human labour. There are certain characteristics of industrial jobs performed by humans that identify the work as a potential application for robots: the operation is repetitive, involving the same basic work motions every cycle; the operation is hazardous or uncomfortable for the human worker (e.g., spray painting, spot welding, arc welding, and certain machine loading and unloading tasks); the task requires a work part or tool that is heavy and awkward to handle; and the operation allows the robot to be used on two or three shifts. Задание 1. Перепишите предложения 1, 3, 5, 8, выпишите глаголы и определите их видовременную форму и залог. Предложения переведите. Задание 2. Выпишите из предложений 2, 7 инфинитивы, герундии, причастия. Предложения переведите на русский язык. Задание 3. Перепишите предложения 4, 6, 9. Укажите главное и придаточное предложения. Предложения переведите. Задание 4. Подберите определения к следующим 5 терминам. 1. manufacture 2. robot 3. assembly 4. batch 5. manual the action of fitting together the component parts of a machine or other object make (something) on a large scale using machinery relating to or done with the hands a machine which is programmed to move and perform certain tasks automatically a quantity of goods produced at one time Задание 5. Ответьте на вопросы к тексту письменно. 1. Name the three categories of robots application. 2. Give some examples of transfer operations. 3. Why is the use of robots in assembly increasing? 4. What does a robot do in a typical inspection job? 5. Name the characteristics of industrial jobs giving a potential application for robots. 3 КОНТРОЛЬНАЯ РАБОТА № 2 Вариант 1. Evaluation of Software and Hardware All computers are made up of hardware, software and data. You will need to be able to explain how and why particular hardware or software is suitable for a particular task; and list and discuss criteria which can be used to evaluate or judge the suitability of hardware and software. Main types of software Generic – general-purpose software, such as word processors and spreadsheets Specialised packages – sold for specific uses, e.g. managing the accounts of a large organisation. Bespoke software – written specially for the end user by a team of people within the company or by external consultants; for example the software which manages London’s congestion-charging system. System weaknesses All computers are a part of a system made up of: hardware software the data being used A system like this can fail if any of the parts do not fit together, but there are ways to fine-tune the system: Train and re-train people as the system changes. Training is often needed due to a decision to change either the hardware or software. Keep the data as accurate as possible. Upgrade software and hardware and replace it as new versions and types become available. Add new input and output devices if they will improve efficiency. Use evaluation criteria to decide what software and hardware to buy and how it will be used. Software evaluation Evaluation is performed to ensure the most suitable piece of software (or hardware) is purchased. Typically evaluation criteria will include: End User Needs – what does the user of the software want to do, what are their present skills and how do they intend to use the software? It is important to be very clear about the problem that is to be tackled by the software. For example, a disabled person who wants to write letters but cannot type might strongly consider software with lots of ready-made letter templates that can then be added to using voice recognition. Functionality – does the software perform the functions required? Does it have specific facilities? For example, someone buying a spreadsheet application might need to produce graphs and charts. Assignment 1. Match the words on the left with their definitions on the right. 1. hardware 2. software 3. spreadsheet 4. accurate 5. output a)the programs and other operating information used by a computer b) the machines, wiring, and other physical components of a computer or other electronic system c) the power, energy, or other results supplied by a device or system d) information, measurements, and statistics are correct to a very detailed level e) a computer program in which figures arranged in the rows and columns of a grid can be manipulated and used in calculations Assignment 2. Mark the following statements as true (T) or false (F) 1. ______ All computers are made up of hardware, software and data. 2. ______ All computers are a part of a system made up of: Generic – general-purpose software, such as word processors and spreadsheets Specialised packages – sold for specific uses, e.g. managing the accounts of a large organisation. 3. ______ A system like this can fail if any of the parts do not fit together, but there is one way to fine-tune the system. 4. ______ Evaluation is performed to ensure the most suitable piece of software (or hardware) is purchased. 5. ______ You will not need to be able to explain how and why particular hardware or software is suitable for a particular task. Assignment 3. Match heads and tails of the following sentences. 1. All computers are made up of a) how and why particular hardware or software is suitable for a particular task; and list and discuss criteria which can be used to evaluate or judge the suitability of hardware and software. 2. You will need to be able to explain b) such as word processors and spreadsheets 3. Generic – general-purpose software, 4. Bespoke software – written specially for the end user by a team of people within the company or by external c) hardware, software and data. d) the software which manages London’s congestion-charging system. consultants; for example 5. Evaluation is performed to ensure e) the most suitable piece of software (or hardware) is purchased. Assignment 4. Fill in the gaps using the given words. suitability fine-tune spreadsheet purchased hardware All computers are made up of _______(1), software and data. You will need to be able to explain how and why particular hardware or software is suitable for a particular task; and list and discuss criteria which can be used to evaluate or judge the _______(2) of hardware and software. A system like this can fail if any of the parts do not fit together, but there are ways to ______(3) the system. Evaluation is performed to ensure the most suitable piece of software (or hardware) is _______(4). For example, someone buying a ______(5) application might need to produce graphs and charts. Вариант 2. Power Engineering Power engineering is a network of interconnected components which convert different forms of energy to electrical energy. Modern power engineering consists of three main subsystems: the generation subsystem, the transmission subsystem, and the distribution subsystem. In the generation subsystem, the power plant produces the electricity. The transmission subsystem transmits the electricity to the load centers. The distribution subsystem continues to transmit the power to the customers. The power grid is an electrical network that connects a variety of electric generators to the users of electric power. Users purchase electricity from the grid so that they do not need to generate their own. Power engineers may work on the design and maintenance of the power grid as well as the power systems that connect to it. Such systems are called on-grid power systems and may supply the grid with additional power, draw power from the grid or do both. The grid is designed and managed using software that performs simulations of power flows. Power engineers may also work on systems that do not connect to the grid. These systems are called off-grid power systems and may be used in preference to on-grid systems for a variety of reasons. For example, in remote locations it may be cheaper for a mine to generate its own power rather than pay for connection to the grid and in most mobile applications connection to the grid is simply not practical. Today, most grids adopt three-phase electric power with alternating current. This choice can be partly attributed to the ease with which this type of power can be generated, transformed and used. Often (especially in the USA), the power is split before it reaches residential customers whose low-power appliances rely upon singlephase electric power. However, many larger industries and organizations still prefer to receive the three-phase power directly because it can be used to drive highly efficient electric motors such as three-phase induction motors. Transformers play an important role in power transmission because they allow power to be converted to and from higher voltages. This is important because higher voltages suffer less power loss during transmission. This is because higher voltages allow for lower current to deliver the same amount of power, as power is the product of the two. Thus, as the voltage steps up, the current steps down. It is the current flowing through the components that result in both the losses and the subsequent heating. These losses, appearing in the form of heat, are equal to the current squared times the electrical resistance through which the current flows, so as the voltage goes up the losses are dramatically reduced. For these reasons, electrical substations exist throughout power grids to convert power to higher voltages before transmission and to lower voltages suitable for appliances after transmission. Assignment 1. Match the words with their definitions. 1.power grid 2. transmit 3. alternating current 4. three-phase power 5. electrical resistance a) an electric current that continually changes direction as it flows b) the degree to which a substance or device opposes the passage of an electric current c) supplying simultaneously three separate alternating currents of the same voltage, but with phases differing by a third of a period d) an electrical network that connects a electric generators to the users e) cause (something) to pass on from one place to another Assignment 2. Mark the following statements as true (T) or false (F). 1. ______ Modern power engineering consists of five main subsystems. 2. ______ Users need to generate their own electricity. 3. ______ Power engineers may work on systems that do not connect to the grid. 4. ______ Transformers allow power to be converted to and from higher voltages. 5. ______ As the voltage steps up, the current steps down. Assignment 3. Match heads and tails of the following sentences. 1. Modern power engineering consists of 2. Power engineers may work on the a) as well as the power systems that connect to it. b) the power to the customers. design and maintenance of the power grid 3. Many larger industries and c) to deliver the same amount of power. organizations still 4. Higher voltages allow for lower d) the generation subsystem, the current transmission subsystem, and the distribution subsystem. 5. The distribution subsystem continues e) prefer to receive the three-phase power to transmit directly. Assignment 4. Fill in the gaps using the given words. equipment transformers customer radial transports The distribution system ______ (1) the power from the transmission system to the customer. The distribution systems are typically ______(2) because networked systems are more expensive. The equipment associated with the distribution system includes the substation _______(3) connected to the transmission systems, the distribution lines from the transformers to the customers and the protection and control _______(4) between the transformer and the ______(5). The protection equipment includes lightning protectors, circuit breakers, disconnectors and fuses. The control equipment includes voltage regulators, capacitors, relays and demand side management equipment. Вариант 3. Transmission The electricity is transported to load locations from a power station to a transmission subsystem. Therefore we may think of the transmission system as providing the medium of transportation for electric energy. The transmission system may be subdivided into the bulk transmission system and the sub-transmission system. The functions of the bulk transmission are to interconnect generators, to interconnect various areas of the network, and to transfer electrical energy from the generators to the major load centers. This portion of the system is called "bulk" because it delivers energy only to so-called bulk loads such as the distribution system of a town, city, or large industrial plant. The function of the sub-transmission system is to interconnect the bulk power system with the distribution system. The transmission system is a highly integrated system. It is referred to the substation equipment and transmission lines. The substation equipment contain the transformers, relays, and circuit breakers. Transformers are important static devices which transfer electrical energy from one circuit with another in the transmission subsystem. Transformers are used to step up the voltage on the transmission line to reduce the power loss which is dissipated on the way. A relay is functionally a level-detector; they perform a switching action when the input voltage (or current) meets or exceeds a specific and adjustable value. A circuit breaker is an automatically operated electrical switch designed to protect an electrical circuit from damage caused by overload or short circuit. A change in the status of any one component can significantly affect the operation of the entire system. Without adequate contact protection, the occurrence of undesired electric arcing causes significant degradation of the contacts, which suffer serious damage. There are three possible causes for power flow limitations to a transmission line. These causes are thermal overload, voltage instability, and rotor angle instability. Thermal overload is caused by excessive current flow in a circuit causing overheating. Voltage instability is said to occur when the power required to maintain voltages at or above acceptable levels exceeds the available power. Rotor angle instability is a dynamic problem that may occur following faults, such as short circuit, in the transmission system. It may also occur tens of seconds after a fault due to poorly damped or undamped oscillatory response of the rotor motion. Assignment 1. Match the words with their definitions. 1.transmission 2. circuit breaker 3. overload 4. voltage 5. exceed a) an automatically operated electrical switch designed to protect an electrical circuit from damage b) put too great a demand on (an electrical system) c) passing or sending of something to a different place d) be greater in number or size than (a quantity, number, or other measurable thing) e) an electromotive force or potential difference expressed in volts Assignment 2. Mark the following statements as true (T) or false (F). 1. ______ The functions of the bulk transmission are to interconnect generators, to interconnect various areas of the network, and to transfer electrical energy. 2. ______ The electricity is transported from a railway station to a transmission subsystem. 3. _____ This portion of the system is called "bulk" because it delivers energy only to bulk loads. 4. ______ With adequate contact protection, the occurrence of undesired electric arcing causes significant degradation of the contacts. 5. ______ Voltage instability occurs when the power required to maintain voltages at or above acceptable levels exceeds the available power. Assignment 3. Match heads and tails of the following sentences. 1.We may think of the transmission system a) to interconnect the bulk power system with the distribution system. 2.The function of the sub-transmission system is b) to reduce the power loss which is dissipated on the way. 3. Transformers are used to step up the voltage on the transmission line 4. Thermal overload is caused by c) as providing the medium of transportation for electric energy. d) excessive current flow in a circuit causing overheating. e) a dynamic problem that may occur following faults in the transmission system. 5. Rotor angle instability is Assignment 4. Fill in the gaps using the given words. areas transmission overhead expensive underground Transmission circuits may be built either ______(1) or overhead. Underground cables are used predominantly in urban ______(2) where acquisition of overhead rights of way are costly or not possible. They are also used for ______(3) under rivers, lakes and bays. _______(4) transmission is used otherwise because, for a given voltage level, overhead conductors are much less ______(5) than underground cables. Вариант 4. Systems Engineers Systems engineers design and coordinate large and complex projects known as systems. There are many kinds of systems, and although all are large, they vary in their complexity. A system has many parts that all interact extensively with one another. Often small systems can be part of larger systems. For example, a jet airliner can be a system. So, too, can all of the airplanes owned by one airline. All of the airplanes in a country make up a more extensive system. An even larger and more complex system includes all of a nation's transportation facilities. Systems engineers can work at various levels in the design and coordination of these systems. Some other examples of systems are water and food distribution networks, experimental manned space flights, and military defense programs. Systems engineers also work on telephone systems, electric power systems, and sewage systems. Systems engineers are responsible for coordinating the work of many engineers, each of whom is an expert in one part of a system. For instance, in the building of a jet airliner, electronics specialists are responsible for the guidance and control systems. Structural engineers design the body of the plane. Other experts decide on a power source for the jet. Still others design landing and takeoff methods. Each specialist concentrates on one area. The systems engineer coordinates all of these specialized efforts in order to produce the jet airliner. Both government and private industry employ systems engineers to solve complex scientific and engineering problems, such as the development of new transportation systems, the design of rockets, or the improvement of communications systems. Systems engineers first gather all the necessary information about what is needed in a system. They select several possible ways of designing the system. Then they use a problem-solving method called systems analysis to break down the possible solutions into smaller parts. Systems engineers use systems analysis to make a diagram of all the parts of a system. They use computers and such mathematical methods as algebra, probability theory, and statistics to convert their diagrams into mathematical equations. They develop theoretical models that will help them choose the best way to design a system. They can use a computer to test these models. For example, systems engineers may want to know whether a mass-transit system will meet future needs. They can feed information on population growth and other data into a computer. The computer will process the data and provide the engineers with information about the usefulness of the system. Systems engineers can also test a possible system by using small-scale models or actual-size models of parts of a system. Once a system has been designed, further testing is done. Systems engineers generally stay with a system and coordinate all parts of it until it is working smoothly. They coordinate the work of many specialists during the development of a system. Sometimes systems engineers are called on to make improvements in existing systems. Assignment 1. Match the words with their definitions. 1.system 2.electronics 3.development 4.interact 5.equation a) the technology of using transistors and silicon chips, especially in devices such as radios, televisions, and computers. b) act in such a way as to have an effect on another; act reciprocally c) a set of things working together as parts of a mechanism or an interconnecting network; a complex whole d) a mathematical statement saying that two amounts or values are the same e) gradual growth or formation of something Assignment 2. Mark the following statements as true (T) or false (F). 1._____ A system has many parts that all interact extensively with one another. 2. _____ Systems engineers cannot work on telephone systems, electric power systems, and sewage systems. 3. ______ Both government and private industry employ systems engineers to solve complex scientific and engineering problems. 4. _____ Systems engineers use maps to make a diagram of all the parts of a system. 5. _____ Systems engineers rarely use computers and mathematical methods. Assignment 3. Match heads and tails of the following sentences. 1. A larger and more complex system a) at various levels in the design and includes coordination of these systems. 2. Systems engineers are responsible b) all of a nation's transportation facilities. 3. Systems engineers first gather all the c) about what is needed in a system. necessary information 4. Systems engineers can work d) further testing is done. 5. Once a system has been designed, e) for coordinating the work of many engineers. Assignment 4. Fill in the gaps using the given words. develop engineering analysis industries systems engineers Systems engineers work for government agencies, computer companies, and many ______(1) that need to solve large and complex ______(2) problems. Large research projects sponsored by government, industry, or universities also employ teams of scientists and engineers, including ________(3). Sometimes these researchers ______(4) new theories that can be used as the basis for systems and analysis. Workers who use systems ______(5) to solve business problems rather than engineering problems are usually called systems analysts. Вариант 5. The Internet The Internet is a worldwide system of interconnected computer networks. When you connect your computer to the Internet via your Internet Service Provider (ISP) you become part of the ISPs network, which is connected to other networks that make up the Internet. The World Wide Web (WWW or Web for short) is the part of the Internet that you can access using a web browser such as Internet Explorer or Firefox. It consists of a large number of web servers that host websites. Each website will normally consist of a number of web pages. A web page can contain text, images, video, animation and sound. You can access a website or web page by typing its URL (Uniform Resource Locator) into the address bar of your browser. An example of a URL is http://www.bbc.co.uk. URLs will have the format ‘http’ and a domain (such as .uk). What goes in between is arbitrary, but often has the term “www”, e.g. http://www.bbc.co.uk, but it doesn’t have to, e.g. http://news.bbc.co.uk). Https is the secure version of http. When you use https, any data you send or receive from the web server is encrypted. For example, when banking online, https is used to keep your account details safe. Most sites have a page that links the user to the other main areas of the site. This is called the homepage. Web pages are connected by hypertext links. When a link is clicked you will be taken to another page which could be on another server in any part of the world. What is an intranet? An intranet is a network that works like the Internet but is only available within a particular organisation, not to the public. An intranet may have web pages used to share company specific data within that company, such as internal telephone numbers or details of employee benefits. Assignment 1. Match the words on the left with their definitions on the right. 1.interconnect a) the means or opportunity to approach or enter a place 2. access b) if one thing is connected with another, there is a link or relationship between them. c) convert (information or data) into a cipher or code, esp. to prevent unauthorized access d) a local or restricted communications network, especially a private network created using World Wide Web software e) is the main page of information about them, which often contains links to other pages about them. 3. homepage 4. encrypt 5. intranet Assignment 2. Mark the following statements as true (T) or false (F) 1. ______ The Internet is a worldwide system of interconnected computer networks. 2. _______ When you connect your computer to the Internet via your Internet Service Provider (ISP) you become part of the ISPs network, which is not connected to other networks that make up the Internet. 3. ______ The World Wide Web (WWW or Web for short) is the part of the Internet that you can access using a web browser such as Opera and Mozilla Firefox. 4. ______ A web page can contain messages, poems, songs, and dictionaries. 5. ______ An intranet may have web pages used to share company specific data within that company, such as internal telephone numbers or details of employee benefits. Assignment 3. Match heads and tails of the following sentences. 1. When you connect your computer to the Internet via your Internet Service Provider (ISP) 2. The World Wide Web (WWW or Web for short) is the part of the Internet 3. You can access a website or web page by typing its URL (Uniform Resource Locator) 4. When you use https, any data you send or receive from the web server is encrypted. For example, 5. An intranet may have web pages used to share company specific data within that company a) that you can access using a web browser such as Internet Explorer or Firefox. b) into the address bar of your browser. c) you become part of the ISPs network, which is connected to other networks that make up the Internet d) such as internal telephone numbers or details of employee benefits. e) when banking online, https is used to keep your account details safe. Assignment 4. Fill in the gaps using the given words. hypertext worldwide clicked benefits network The Internet is a ______(1) system of interconnected computer networks. When you connect your computer to the Internet via your Internet Service Provider (ISP) you become part of the ISPs _______(2), which is connected to other networks that make up the Internet. Web pages are connected by ______(3) links. When a link is ______(4) you will be taken to another page which could be on another server in any part of the world. An intranet may have web pages used to share company specific data within that company, such as internal telephone numbers or details of employee _______.