Language : English
Published : 2016-08-09
Pages : 552
Engineering Fluid Mechanics
Written by dedicated educators who are also real-life engineers with a passion for the discipline, Engineering Fluid Mechanics, 11th Edition, carefully guides students from fundamental fluid mechanics concepts to real-world engineering applications. The Eleventh Edition and its accompanying resources deliver a powerful learning solution that helps students develop a strong conceptual understanding of fluid flow phenomena through clear physical descriptions, relevant and engaging photographs, illustrations, and a variety of fully worked example problems. Including a wealth of problems– including open-ended design problems and computer-oriented problems–this text offers ample opportunities for students to apply fluid mechanics principles as they build knowledge in a logical way and enjoy the journey of discovery.
This write-in workbook is an invaluable resource to help learners’ improve their Maths and English skills and help prepare for Level 1 and Level 2 Functional Skills exams. The workbook format enables learners to practice and improve their maths and English skills and the real-life questions, exercises and scenarios are all written with an electrical Installation context to help learners find essential Maths and English theory understandable, engaging and achievable. This workbook is an invaluable resource to support Maths and English learning in the classroom, at work and for personal study at home.
About the Author
Andrew Spencer has studied education both within Australia and overseas. He has a Bachelor of Education, as well as a Masters of Science in which he specialised in teacher education. Andrew has extensive experience in teaching secondary mathematics throughout New South Wales and South Australia for well over fifteen years. He has taught a range of subject areas including Maths, English, Science, Classics, Physical Education and Technical Studies. His sense of the importance of practical mathematics continued to develop with the range of subject areas he taught in. Robert Henley is a lecturer for Electrical Installation for Level 1 and 2 at the Southampton City College. Robert has a vast knowledge of the Electrical engineering industry gained from working as an electrician. Robert is an experienced lecturer of level 1 and 2 Electrotechnical qualifications.
Provides a systematic review of modern methods and instruments for measuring environmental parameters
• Profiles the most modern methods and instruments for environment control and monitoring
• Gives an assessment of biotic and abiotic factors and their effect on quality of atmosphere and indoor air, soil, water
• Provides a brief description of the main climatic (pressure, wind, temperature, humidity, precipitation, solar radiation), atmospheric, hydrographic, and edaphic factors
• Covers a wide range environmental methods and instrumentation including those used in the fields of meteorology, air pollution, water quality, soil science and more
• Supplied with practical exercises, problems, and tests that will help the reader to learn more deeply contents of the book
Robotics is a key technology in the modern world, a well-established part of manufacturing and warehouse automation, assembling cars or washing machines, or moving goods to and from storage racks for Internet mail order. Robots have taken their first steps into homes and hospitals, and have seen spectacular success in planetary exploration. Yet despite these successes, robots have failed to live up to the predictions of the 1950s and 60s, when it was widely thought–by scientists as well as the public–that we would have, by now, intelligent robots as butlers, companions, or co-workers. This Very Short Introduction explains how it is that robotics can be both a success story and a disappointment, and how robots can be both ordinary and remarkable. Alan Winfield introduces the subject by looking at the parts that together make a robot. Not surprisingly, these parts each have a biological equivalent: a robot’s camera is like an animal’s eyes, a robot’s microcomputer is equivalent to an animal’s brain, and so on. By introducing robots in this way this book builds a conceptual, non-technical picture of what a robot is, how it works, and how “intelligent” it is.
Enrico Fermi (1901 – 1954) was an Italian-American physicist particularly known for his work on the development of the first nuclear reactor and for his contributions to the development of quantum theory, nuclear and particle physics, and statistical mechanics. He was awarded the 1938 Nobel Prize in Physics for his work on induced radioactivity. Fermi is widely regarded as one of the leading scientists of the 20th century, highly accomplished in both theory and experiment. Along with J. Robert Oppenheimer, he is frequently referred to as “the father of the atomic bomb.” His lecture notes, especially those for quantum mechanics, nuclear physics, and thermodynamics, were transcribed into books which are still in print, including THERMODYNAMICS, which remains his most important publication. With his characteristic clarity, in this classic on Thermodynamics, Fermi explains the First and Second Laws of Thermodynamics, entropy, thermodynamic potentials, and much more.