Designed for easy use by both beginning and experienced protein crystallographers, this second edition includes examples of actual experiments and data, electron density maps, and computer methods. It includes material covering CCP4, SHELX, cryocrystallography, MAD and automated fitting.

Designed for general chemistry courses that consider a lot of organic examples, or for students who plan to continue in organic chemistry. This molecular model set can be used to construct realistic scale models illustrating the molecular structures of many thousands of compounds. With it one can build molecular models of representative compounds.

Reflecting increased consumer awareness this volume describes the procedures for the processing of foods. It combines the analysis of management techniques and technical issues with the representation of microbiological data.

In this new edition of an essential work, the renowned researcher Dr. Jan Drenth offers a rigorous and up-to-date introduction to the subject, providing the theoretical background necessary to understand how the structure of proteins is determined at atomic resolution.

Process development bridges the gap between the laboratory synthesis of an organic compound and its industrial manufacture on a large scale. This book uses real examples to show the range of problems which may be encountered in scaling up chemical syntheses and the ways in which they may be overcome.

Describes the fundamental science underlying the development of processes for the manufacture of fine chemicals, such as pharmaceuticals and agrochemicals. This text outlines both the strategies employed in process development and also the chemical and chemical engineering concepts involved.

An introductory text on radiation heat transfer for undergraduate and postgraduate students with no prior knowledge of the subject. The text introduces the physical principles of radiation heat transfer and develops methods for the analysis of thermal radiation in a variety of engineering applications.

Neutral reactive intermediates play a key role in synthetic chemistry. Intended for undergraduates, this primer concentrates on this role; the important reactions of these electron-deficient species are laid out clearly, with carefully chosen examples illustrating their use in organic synthesis.

This super-condensed guide to organic chemistry covers stereochemistry, enolates and enols, and amines.

This super-condensed guide to college chemistry covers the ideal gas law, atomic structure, acids and bases, and more.

Schaum's is the key to faster learning and higher grades in every subject. This book gives you: 1,340 fully solved problems; clear, concise explanations of all college chemistry concepts; and support for all the major textbooks for college chemistry courses.

Schaum's Outlines present all the essential course information in an easy-to-follow, topic-by-topic format. You also get hundreds of examples, solved problems, and practice exercises to test your skills.

This self-contained primer covers statistical thermodynamics in a rigorous yet approachable manner, making it the perfect text for undergraduates.

Describes how stereoelectronic effects control the rules of engagement that operate when molecules meet. Aimed at undergraduate students, this book gives a 'feel' or intuition for molecules and what they are capable of. The treatment is non-mathematical and the treatment shows the student building up a simple way of thinking about Chemistry.

Aimed at undergraduate chemistry students, this clear and concise text is concerned with the reactions used in stereoselective organic synthesis. These are important types of reactions which can be used for the selective preparation of new organic compounds with a defined and predictable three dimensional architecture.

This title covers areas of mechanistic and physical organic chemistry at advanced undergraduate level in a non-mathematical way. The topics included (e.g. kinetics and mechanism, catalysis, and isotope effects) are essential in any modern chemistry degree. The book is up to date and includes many examples from all areas of organic chemistry.

Essential reading for all undergraduate chemistry students, this engaging text has been carefully designed to help students successfully make the challenging transition from school through to university, get the most out of their education, and ultimately use their time at university to enhance their employability.

Intended for chemistry, physics and material science undergraduates, this work is an introduction to the science of surfaces. It incorporates both chemical thermodynamics and modern spectroscopic methods of analysing surfaces. It shows how the physico-chemical concepts may be applied in elucidating surface structure, reactivity and composition.

Thermodynamics of Chemical Processes is the only self-contained text to cover the thermodynamics of chemical processes at a level appropriate for undergraduates. Describing the basic principles which govern reactivity and phase equilibria in chemical systems, the text contains a number of worked examples and problems.

By tackling the most central ideas in chemistry, Why Chemical Reactions Happen provides the reader with all the tools and concepts needed to think like a chemist. The text takes a unified approach to the subject, avoiding the traditional divisions of physical, inorganic and organic chemistry and so helps the reader to develop a real overview of chemical processes.

X-ray crystallography, a powerful technique for structure determination, plays a major role in modern research. This primer gives a concise and accessible account of the technique, emphasising its wide-ranging practical application to engineering and the physical and biological sciences.