Language : English
Published : 2004-07-01
Pages : 960
Ever since Physical Chemistry was first published in 1913 (then titled Outlines of Theoretical Chemistry, by Frederick Getman), it has remained a highly effective and relevant learning tool thanks to the efforts of physical chemists from all over the world. Each new edition has benefited from their suggestions and expert advice. The result of this remarkable tradition is now in your hands. Now revised and updated, this Fourth Edition of Physical Chemistry by Silbey, Alberty, and Bawendi continues to present exceptionally clear explanations of concepts and methods. The basic theory of chemistry is presented from the viewpoint of academic physical chemists, but detailed discussions of practical applications are integrated throughout. The problems in the book also skillfully blend theory and applications. Highlights of the Fourth Edition: A total of 170 computer problems appropriate for MATHEMATICATM, MATHCADTM, MATLABTM, or MAPLETM. Increased emphasis on the thermodynamics and kinetics of biochemical reactions, including the denaturation of proteins and nucleic acids. Expanded coverage of the uses of statistical mechanics, nuclear magnetic relaxation, nanoscience, and oscillating chemical reactions. Many new tables and figures throughout the text.
“Physical Science, Ninth Edition”, is a straightforward, easy-to-read, but substantial introduction to the fundamental behavior of matter and energy. It is intended to serve the needs of non-science majors who are required to complete one or more physical science courses. It offers exceptional, straight-forward writing, complemented with useful pedagogical tools. “Physical Science” introduces basic concepts and key ideas while providing opportunities for students to learn reasoning skills and a new way of thinking about their environment. No prior work in science is assumed. The text offers students complete coverage of the physical sciences with a level of explanation and detail appropriate for all students. The sequence of chapters in “Physical Science” is flexible, and the instructor can determine topic sequence and depth of coverage as needed. The materials are also designed to support a conceptual approach, or a combined conceptual and problem-solving approach. Along with the accompanying laboratory manual, the text contains enough material for the instructor to select a sequence for a two-semester course. It can also serve as a text in a one-semester physics and chemistry course.
Measurement is an essential activity in every branch of technology and science and as such forms part of degree, diploma and certificate courses in engineering and applied science.The fourth edition of this respected and successful text has been extensively extended and updated to include new developments in measurement devices and technology. It provides a coherent and integrated approach to the topic, covering main techniques and devices used, together with relevant theory and applications, for both mechanical and electronic systems.~It is divided into three parts, covering the general principles, followed by the typical elements of measurement systems, and then moving on to current and emerging specialised techniques which have important industrial applications. ~Key features:*New chapter on Intelligent Multivariable Measurement Systems *Incorporates increased coverage on solid state sensors*New material on structure, software and applications of microcontrollers*A completely revised chapter on Data Presentation*Additional problems have been added at a basic and introductory level*Solutions manual~This book is aimed at students taking modules in measurement and instrumentation as part of degree courses in instrumentation/control, mechanical, manufacturing, electrical, electronic, chemical engineering and applied physics as well as students on HNC/HND and foundation degree courses on measurement and instrumentation. This text is also suitable for professional and technical engineers working in the measurement and control discipline.~John P. Bentley is Emeritus Professor of Measurement Systems at the University of Teesside
To respond to the increasing need to feed the world’s population as well as an ever greater demand for a balanced and healthy diet there is a continuing need to produce improved new cultivars or varieties of plants, particularly crop plants. The strategies used to produce these are increasingly based on our knowledge of relevant science, particularly genetics, but involves a multidisciplinary understanding that optimizes the approaches taken.
Principles of Plant Genetics and Breeding, 2nd Edition introduces both classical and molecular tools for plant breeding. Topics such as biotechnology in plant breeding, intellectual property, risks, emerging concepts (decentralized breeding, organic breeding), and more are addressed in the new, updated edition of this text. Industry highlight boxes are included throughout the text to contextualize the information given through the professional experiences of plant breeders. The final chapters provide a useful reference on breeding the largest and most common crops.
- Up-to-date edition of this bestselling book incorporating the most recent technologies in the field
- Combines both theory and practice in modern plant breeding
- Updated industry highlights help to illustrate the concepts outlined in the text
- Self assessment questions at the end of each chapter aid student learning
- Accompanying website with artwork from the book available to instructors
About the Author
George Acquaah is Dean at Bowie State University. He is the author of four critically acclaimed textbooks, and has received numerous awards, including the prestigious USDA Award for Excellence in College and University Teaching in Food and Agricultural Sciences, and the Millennium Award for Excellence in Teaching, presented by the White House Initiative on Historically Black Colleges and Universities in the US.