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This book presents the generative rules for formal written communication, in an engineering context, through the lens of mathematics. Aimed at engineering students headed for careers in industry and professionals needing a “just in time” writing resource, this pragmatic text covers all that engineers need to become successful workplace writers, and leaves out all pedagogical piffle they do not. Organized into three levels of skill-specific instruction, A Math-Based Writing System for Engineers: Sentence Algebra & Document Algorithms guides readers through the process of building accurate, precise sentences to structuring efficient, effective reports. The book’s indexed design provides convenient access for both selective and comprehensive readers, and is ideal for university students; professionals seeking a thorough, “left -brained” treatment of English grammar and “go to” document structures; and ESL engineers at all levels.
Is a literature review looming in your future? Are you procrastinating on writing a literature review at this very moment? If so, this is the book for you. Writing often causes trepidation and procrastination for engineering students—issues that compound while writing a literature review, a type of academic writing most engineers are never formally taught. Consider this workbook as a "couch-to-5k" program for engineering writers rather than runners: if you complete the activities in this book from beginning to end, you will have a literature review draft ready for revision and content editing by your research advisor. So, You Have to Write a Literature Review presents a dynamic and practical method in which engineering students—typically late-career undergraduates or graduate students—can learn to write literature reviews, and translate genre-based writing instruction into easy-to-follow, bite-sized activities and content. Written in a refreshingly conversational style while acknowledging that writing is quite difficult, Catherine Berdanier and Joshua Lenart leverage their unique disciplinary backgrounds with decades of experience teaching academic engineering writing in this user-friendly workbook.
This book is a supplement to the textbook Basic Technical Japanese. It introduces an additional 100 kanji that are important in building vocabulary for reading and translating the Japanese literature on polymer science and engineering. The text offers ten lessons, each of which introduces ten new kanji as well as exercises for mastering them. The new kanji are printed in very large type at the beginning of each chapter so that the reader can see clearly how the characters are structured. The exercises include several kinds of matching, as well as translation of sentences and short paragraphs. Full translations of some exercises allow learners to evaluate their own work. In addition, a list of thirty-five more kanji related to polymer science is provided at the end of the book. Intended for self-study, the book provides a complete on-kun index of all 135 kanji, which enables learners, if they know the pronunciation of a word, to locate the introductory discussion of the corresponding kanji in the book.
This book is a supplement to the textbook Basic Technical Japanese. It introduces 100 new kanji and more than 700 new words and phrases that appear frequently in documents dealing with solid-state physics. The text offers ten lessons, each presenting key vocabulary and ten new kanji that reappear in the exercises for that lesson and in subsequent lessons, reinforcing learning. The exercises emphasize vocabulary building, kanji recognition, definition matching, and translation skills. An introductory lesson reviews the katakana and hiragana writing systems. The lessons in this book have been keyed to the final ten chapters of Basic Technical Japanese, so that students can use the two volumes together to build a Japanese vocabulary and to practice translation related to solid-state physics and engineering.
Take-Off: Technical English for Engineering Course Book Take-Off has been designed for non-native speakers of English who are studying Engineering NVQ Level 2 and above. The aeronautical context is particularly aimed at technicians and engineers who are going on to work in the aeronautics industry. Take-Off is an ESP course for intermediate-level students. Unlike many ESP courses, it teaches genuine transferable skills and is ideal for students who need to further their technical training in English. The focus is on skills development, using relevant contexts, with grammar taking a strong supporting role. Reading and listening development is dealt with in the context of understanding instructions and information in technical manuals. Students develop the speaking skills of asking for and giving factual information, and the writing skills necessary to complete workplace documentation, such as accident reports and safety assessments. Take-Off uses a communicative methodology, with graded tasks that are careful scaffolded to involve and motivate the students, providing them with a clear sense of achievement. The wide variety of texts and task types will appeal to a broad range of ages and nationalities. There are also comprehensive word lists and a glossary of terms for student reference. A bank of tests are provided online. Please contact us if you have purchased the book and would like access to these tests. Key Features Practical skills developed for dealing with oral and written instructions and documentation Task-based approach ensures achievable lesson outcomes Variety of texts and tasks on a wide range of aeronautical topics Two review sections to consolidate skills and vocabulary knowledge Glossary and electrical appendix Audio CDs for further self-study and homework Accompanying Workbook, Teacher's Book and Interactive Media Book also available.
Even if you have had no Japanese-language training, you can learn how to translate technical manuals, research publications, and reference works. Basic Technical Japanese takes you step by step from an introduction to the Japanese writing system through a mastery of grammar and scientific vocabulary to reading actual texts in Japanese. You can use the book to study independently or in formal classes. This book places special emphasis on the kanji (characters) that occur most often in technical writing. There are special chapters on the language of mathematics and chemistry, and vocabulary building and reading exercises in physics, chemistry, biology, and biochemistry. With extensive character charts and vocabulary lists, Basic Technical Japanese is entirely self-contained; no dictionaries or other reference works are needed.
Suitable for both individual and group learning, Engineering Acoustics focuses on basic concepts and methods to make our environments quieter, both in buildings and in the open air. The author’s tutorial style derives from the conviction that understanding is enhanced when the necessity behind the particular teaching approach is made clear. He also combines mathematical derivations and formulas with extensive explanations and examples to deepen comprehension. Fundamental chapters on the physics and perception of sound precede those on noise reduction (elastic isolation) methods. The last chapter deals with microphones and loudspeakers. Moeser includes major discoveries by Lothar Cremer, including the optimum impedance for mufflers and the coincidence effect behind structural acoustic transmission. The appendix gives a short introduction on the use of complex amplitudes in acoustics.
The majority of professors have never had a formal course in education, and the most common method for learning how to teach is on-the-job training. This represents a challenge for disciplines with ever more complex subject matter, and a lost opportunity when new active learning approaches to education are yielding dramatic improvements in student learning and retention. This book aims to cover all aspects of teaching engineering and other technical subjects. It presents both practical matters and educational theories in a format useful for both new and experienced teachers. It is organized to start with specific, practical teaching applications and then leads to psychological and educational theories. The "practical orientation" section explains how to develop objectives and then use them to enhance student learning, and the "theoretical orientation" section discusses the theoretical basis for learning/teaching and its impact on students. Written mainly for PhD students and professors in all areas of engineering, the book may be used as a text for graduate-level classes and professional workshops or by professionals who wish to read it on their own. Although the focus is engineering education, most of this book will be useful to teachers in other disciplines. Teaching is a complex human activity, so it is impossible to develop a formula that guarantees it will be excellent. However, the methods in this book will help all professors become good teachers while spending less time preparing for the classroom. This is a new edition of the well-received volume published by McGraw-Hill in 1993. It includes an entirely revised section on the Accreditation Board for Engineering and Technology (ABET) and new sections on the characteristics of great teachers, different active learning methods, the application of technology in the classroom (from clickers to intelligent tutorial systems), and how people learn.