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Here, in a compact, easy-to-use format, are practical tips, handy formulas, correlations, curves, charts, tables, and shortcut methods that will save engineers valuable time and effort. Hundreds of common sense techniques and calculations help users quickly and accurately solve day-to-day design, operations, and equipment problems.
Fractionators, separators and accumulators, cooling towers, gas treating, blending, troubleshooting field cases, gas solubility, and density of irregular solids * Hundreds of common sense techniques, shortcuts, and calculations.
Newnes Engineering and Physical Science Pocket Book is an easy reference of engineering formulas, definitions, and general information. Part One deals with the definitions and formulas used in general engineering science, such as those concerning SI units, density, scalar and vector quantities, and standard quantity symbols and their units. Part Two pertains to electrical engineering science and includes basic d.c. circuit theory, d.c. circuit analysis, electromagnetism, and electrical measuring instruments. Part Three involves mechanical engineering and physical science. This part covers formulas on speed, velocity, acceleration, force, as well as definitions and discussions on waves, interference, diffraction, the effect of forces on materials, hardness, and impact tests. Part Four focuses on chemistry — atoms, molecules, compounds and mixtures. This part examines the laws of chemical combination, relative atomic masses, molecular masses, the mole concept, and chemical bonding in element or compounds. This part also discusses organic chemistry (carbon based except oxides, metallic carbonates, metallic hydrogen carbonate, metallic carbonyls) and inorganic chemistry (non-carbon elements). This book is intended as a reference for students, technicians, scientists, and engineers in their studies or work in electrical engineering, mechanical engineering, chemistry, and general engineering science.
The Newnes Mechanical Engineer's Pocket Book is a comprehensive collection of data for mechanical engineers and students of mechanical engineering. Bringing together the data and information that is required to-hand when designing, making or repairing mechanical devices and systems, it has been revised to keep pace with changes in technology and standards. The Pocket Book emphasises current engineering practice and is supported by clear accounts of the fundamental principles of mechanical engineering.Key features include the latest BSI engineering data; focus on engineering design issues; enhanced coverage of roller chain drives, pneumatic and hydraulic systems; and expanded and more accessible detail on statics, dynamics and mathematics. - Over 300 pages of new material, including the latest standards information from BSI - Exhaustive collection of data for mechanical engineers and students of mechanical engineering - Unique emphasis on engineering design, theory, materials and properties
Fluids -- Heat transfer -- Thermodynamics -- Mechanical seals -- Pumps and compressors -- Drivers -- Gears -- Bearings -- Piping and pressure vessels -- Tribology -- Vibration -- Materials -- Stress and strain -- Fatigue -- Instrumentation -- Engineering economics.
This pocket guide serves as a supplementary learning resource to help students deconstruct challenging problems in the topic of rheology commonly encountered in engineering examinations, as well as those in related courses such as in the STEM disciplines. The book is organized into a series of 30 problems and worked solutions, with problems written in a format typical of examination questions. This book offers students ample practice in solving problems which will help sharpen their skills in applying abstract theoretical concepts to solving real-life problems. The presentation of detailed and comprehensive step-by-step explanations in each problem will also guide students in the thought process towards arriving at final solutions. The balanced mix of both numerical and open-ended problems in this book ensures students gain a well-rounded understanding of the topic, with the dual ability to handle detailed mathematical analysis as well as relate the significance of desktop problem-solving to the larger real world context.