The exceptional quality of previous editions has been built upon to make the twelfth edition of Atkins' Physical Chemistry even more closely suited to the needs of both lecturers and students. The writing style has been refreshed in collaboration with current students of physical chemistry in order to retain the clarity for which the book is recognised while mirroring the way you read and engage with information. The new edition is now available as an enhanced e-book, which offers you a richer, more dynamic learning experience. It does this by incorporating digital enhancements that are carefully curated and thoughtfully inserted at meaningful points to enhance the learning experience. In addition, it offers formative auto-graded assessment materials to provide you with regular opportunities to test their understanding. Digital enhancements introduced for the new edition include dynamic graphs, which you can interact with to explore how the manipulation of variables affects the results of the graphs; self-check questions at the end of every Topic; video content from physical chemists; and video tutorials to accompany each Focus, which dig deeper into the key equations introduced. There is also a new foundational prologue entitled 'Energy: A First Look', which summarizes key concepts that are best kept in mind right from the beginning of your physical chemistry studies. The coupling of the broad coverage of the subject with a structure and use of pedagogy that is even more innovative will ensure Atkins' Physical Chemistry remains the textbook of choice for studying physical chemistry.

Ascension Now examines the New Testament references to the ascension and exhaltation of Jesus and looks at the theological and liturgical implications. This includes not only the description of the "event" in the Gospel of Luke and the Acts of the Apostles but also the departure scene that concludes the Gospel of Matthew and the references to Christ as King, as Intercessor, and as "exalted in glory" elsewhere in the New Testament. It also notes the implications for Christians who pray and preach and foreshadows some developments in worship and practical living in the light of the ascension experience. The doctrine of the ascension of Christ is important to theological debates and to the liturgical developments of the Christian Churches. Unless we connect the Christ of history with the Christ of worship, we will fail to hold together the two essential poles of the Christian faith. Christ must be both in time and beyond time. He must have been in history and been more than just a historical figure. He must be both fully human and fully God. Only then can Christ be the object of our faith and our worship. The ascension of Jesus can be seen as the journey of the humanity of Christ into the heart of the Divine God and of our journey in worship into the divine dimension of heaven. In Ascension Now, Bishop Atkins shows that in our worship we are never earthbound; we lift our hearts and minds up to where Christ is seated, symbolically reigning over the world. There he holds them tenderly in love as, through his redemptive power, we are transformed and renewed to fulfill the purposes of its Creator God. Chapters are "Introduction: The Importance of the Doctrine of the Ascension for Today's Church," "Prelude: New Ways of Seeing the Ascension," "The Biblical Evidence for the Doctrine of the Ascension," "The Theological Implications of the Doctrine of the Ascension," "The Liturgical Implications of the Doctrine of the Ascension," "The Implications of the Ascension for Our Personal Prayers," "The Implications of the Doctrine of the Ascension for Preaching," "The Implications of the Doctrine of the Ascension for Future Liturgical Practice," "Conclusion: Personal Implications of the Doctrine of the Ascension," and "Appendix: The Geography of the Ascension."

This major new text provides an introduction to the interaction of culture and society with the landscape and environment. It offers a broad-based view of this theme by drawing upon the varied traditions of landscape interpretation, from the traditional cultural geography of scholars such as Carl Sauer to the 'new' cultural geography which has emerged in the 1990s. The book comprises three major, interwoven strands. First, fundamental factors such as environmental change and population pressure are addressed in order to sketch the contextual variables of landscapes production. Second, the evolution of the humanised landscape is discussed in terms of processes such as clearing wood, the impact of agriculture, the creation of urban-industrial complexes, and is also treated in historical periods such as the pre-industrial, the modern and the post-modern. From this we can see the cultural and economic signatures of human societies at different times and places. Finally, examples of landscape types are selected in order to illustrate the ways in which landscape both represents and participates in social change. The authors use a wide range of source material, ranging from place-names and pollen diagrams to literature and heritage monuments. Superbly illustrated throughout, it is essential reading for first-year undergraduates studying historical geography, human geography, cultural geography or landscape history.

People eat and drink very differently throughout their life. Each stage has diets with specific ingredients, preparations, palates, meanings and settings. Moreover, physicians, authorities and general observers have particular views on what and how to eat according to age. All this has changed frequently during the previous two centuries. Infant feeding has for a long time attracted historical attention, but interest in the diets of youngsters, adults of various ages, and elderly people seems to have dissolved into more general food historiography. This volume puts age on the agenda of food history by focusing on the very diverse diets throughout the lifecycle.

People eat and drink very differently throughout their life. Each stage has diets with specific ingredients, preparations, palates, meanings and settings. Moreover, physicians, authorities and general observers have particular views on what and how to eat according to age. All this has changed frequently during the previous two centuries. Infant feeding has for a long time attracted historical attention, but interest in the diets of youngsters, adults of various ages, and elderly people seems to have dissolved into more general food historiography. This volume puts age on the agenda of food history by focusing on the very diverse diets throughout the lifecycle.

As a food, milk has been revered and ignored, respected and feared. In the face of its 'material resistance', attempts were made to purify it of dirt and disease, and to standardize its fat content. This is a history of the struggle to bring milk under control, to manipulate its naturally variable composition and, as a result, to redraw the boundaries between nature and society. Peter Atkins follows two centuries of dynamic and intriguing food history, shedding light on the resistance of natural products to the ordering of science. After this look at the stuff in foodstuffs, it is impossible to see the modern diet in the same way again.

Animal Cities builds upon a recent surge of interest about animals in the urban context. Considering animals in urban settings is now a firmly established area of study and this book presents a number of valuable case studies that illustrate some of the perspectives that may be adopted. Having an 'urban history' flavour, the book follows a fourfold agenda. First, the opening chapters look at working and productive animals that lived and died in nineteenth-century cities such as London, Edinburgh and Paris. The argument here is that their presence yields insights into evolving understandings of the category 'urban' and what made a good city. Second, there is a consideration of nineteenth-century animal spectacles, which influenced contemporary interpretations of the urban experience. Third, the theme of contested animal spaces in the city is explored further with regard to backyard chickens in suburban Australia. Finally, there is discussion of the problem of the public companion animal and its role in changing attitudes to public space, illustrated with a chapter on dog-walking in Victorian and Edwardian London. Animal Cities makes a significant contribution to animal studies and is of interest to historical geographers, urban, cultural, social and economic historians and historians of policy and planning.

As a food, milk has been revered and ignored, respected and feared. In the face of its 'material resistance', attempts were made to purify it of dirt and disease, and to standardize its fat content. This is a history of the struggle to bring milk under control, to manipulate its naturally variable composition and, as a result, to redraw the boundaries between nature and society. Peter Atkins follows two centuries of dynamic and intriguing food history, shedding light on the resistance of natural products to the ordering of science. After this look at the stuff in foodstuffs, it is impossible to see the modern diet in the same way again.

This major new text provides an introduction to the interaction of culture and society with the landscape and environment. It offers a broad-based view of this theme by drawing upon the varied traditions of landscape interpretation, from the traditional cultural geography of scholars such as Carl Sauer to the 'new' cultural geography which has emerged in the 1990s. The book comprises three major, interwoven strands. First, fundamental factors such as environmental change and population pressure are addressed in order to sketch the contextual variables of landscapes production. Second, the evolution of the humanised landscape is discussed in terms of processes such as clearing wood, the impact of agriculture, the creation of urban-industrial complexes, and is also treated in historical periods such as the pre-industrial, the modern and the post-modern. From this we can see the cultural and economic signatures of human societies at different times and places. Finally, examples of landscape types are selected in order to illustrate the ways in which landscape both represents and participates in social change. The authors use a wide range of source material, ranging from place-names and pollen diagrams to literature and heritage monuments. Superbly illustrated throughout, it is essential reading for first-year undergraduates studying historical geography, human geography, cultural geography or landscape history.

In this new edition of the book that was called "the most beautiful chemistry book ever written," Peter Atkins reveals the molecules responsible for the experiences of our everyday life in fabrics, drugs, plastics, explosives, detergents, fragrances, tastes, and sex. Atkins gives a non-technical account of a range of aspects of the world around us, revealing unexpected connections and insight into how it can be understood in terms of the atoms and molecules from which it is built. This new edition has dozens of new molecules, new graphic presentations, and a more accessible account of the molecules themselves. Peter Atkins is SmithKline Beecham Fellow and Tutor in Physical Chemistry at Oxford University. Atkins' research includes the fields of theoretical chemistry, particularly magnetic resonance and the electromagnetic properties of molecules. He spends virtually all his time writing books, which range from bestselling college textbooks to books on science for general audiences, including Galileo's Finger (Oxford, 2003); The Periodic Kingdom (Basic Books, 1997); The Second Law (W.H. Freeman, 1995); and Atoms, Electrons, and Change (W.H. Freeman, 1991). Previous Edition Paperback (W.H. Freeman, 1995) 0-7167-2928-8

Animal Cities builds upon a recent surge of interest about animals in the urban context. Considering animals in urban settings is now a firmly established area of study and this book presents a number of valuable case studies that illustrate some of the perspectives that may be adopted. Having an 'urban history' flavour, the book follows a fourfold agenda. First, the opening chapters look at working and productive animals that lived and died in nineteenth-century cities such as London, Edinburgh and Paris. The argument here is that their presence yields insights into evolving understandings of the category 'urban' and what made a good city. Second, there is a consideration of nineteenth-century animal spectacles, which influenced contemporary interpretations of the urban experience. Third, the theme of contested animal spaces in the city is explored further with regard to backyard chickens in suburban Australia. Finally, there is discussion of the problem of the public companion animal and its role in changing attitudes to public space, illustrated with a chapter on dog-walking in Victorian and Edwardian London. Animal Cities makes a significant contribution to animal studies and is of interest to historical geographers, urban, cultural, social and economic historians and historians of policy and planning.

Who can deny the significance of food? It has a central role in our health and pleasure as well as in our economy, politics and culture. Food in Society provides a social science perspective on food systems and demonstrates the rich variety of disciplinary and theoretical contexts of food studies. While hunger and malnutrition remain a reality in many countries, for some food has become an experience rather than a sustenance. This book addresses the different worldwide understandings of food through thematic chapters and a wide range of material including: description of the political economy of the food chain, from production to the point of sale; analysis of global issues of supply and demand; critical debate of environmental and health aspects of food, including GM food, the role of habits, taboos, age and gender in food consumption. Each chapter contains a guide to further reading and to websites of relevance to food. Extensively illustrated, this book is essential reading for students of food studies in the social sciences and humanities.

Molecular assemblies, macromolecules, proteins, nucleic acids: they form a substantial part of all living organisms, from plants to humans. Indeed, they are critical for keeping them alive. But how do they operate? Chemical processes are at the core of life: understanding life means unveiling the physical principles on which it is built. From thermodynamics to molecular interactions, Physical Chemistry for the Life Sciences 3rd edition explains how the principles of physical chemistry apply to the processes of life. Offering worked examples and multiple case studies throughout, students are supported to master even the most complex concepts and how they apply in biological contexts, while acquiring key problem-solving and mathematical skills. Directly addressing the main challenges faced by students, its pedagogically rich approach provides an accessible and holistic guide The extended scope of this new edition includes the essential techniques that can be used to characterize biological systems, including biochemical spectroscopy, x-ray diffraction, and spectrometry.

The ideal course companion, Elements of Physical Chemistry is written specifically with the needs of undergraduate students in mind, and provides extensive mathematical and pedagogical support while remaining concise and accessible. For the seventh edition of this much-loved text, the material has been reorganized into short Topics, which are grouped into thematic Focus sections to make the text more digestible for students, and more flexible for lecturers to teach from. At the beginning of each topic, three questions are posed, emphasizing why it is important, what the key idea is, and what the student should already know. Throughout the text, equations are clearly labeled and annotated, and detailed 'justification' boxes are provided to help students understand the crucial mathematics which underpins physical chemistry. Furthermore, Chemist's Toolkits provide succinct reminders of key mathematical techniques exactly where they are needed in the text. Frequent worked examples, in addition to self-test questions and end-of-focus exercises, help students to gain confidence and experience in solving problems. This diverse suite of pedagogical features, alongside an appealing design and layout, make Elements of Physical Chemistry the ideal course text for those studying this core branch of chemistry for the first time. Online Resource Centre: For registered adopters of the book: · Figures and tables of data from the book, ready to download. · A test bank of additional multiple-choice questions, linked to relevant sections of the book For students: ·Multiple choice questions to support self-directed learning

Any literate person should be familiar with the central ideas of modern science. In his sparkling new book, Peter Atkins introduces his choice of the ten great ideas of science. With wit, charm, patience, and astonishing insights, he leads the reader through the emergence of the concepts, and then presents them in a strikingly effective manner. At the same time, he works into his engaging narrative an illustration of the scientific method and shows how simple ideas can have enormous consequences. His choice of the ten great ideas are: * Evolution occurs by natural selection, in which the early attempts at explaining the origin of species is followed by an account of the modern approach and some of its unsolved problems. * Inheritance is encoded in DNA, in which the story of the emergence of an understanding of inheritance is followed through to the mapping of the human genome. * Energy is conserved, in which we see how the central concept of energy gradually dawned on scientists as they mastered the motion of particles and the concept of heat. * All change is the consequence of the purposeless collapse of energy and matter into disorder, in which the extraordinarily simple concept of entropy is used to account for events in the world. * Matter is atomic, in which we see how the concept of atoms emerged and how the different personalities of the elements arise from the structures of their atoms. * Symmetry limits, guides, and drives, in which we see how concepts related to beauty can be extended to understand the nature of fundamental particles and the forces that act between them. * Waves behave like particles and particles behave like waves, in which we see how old familiar ideas gave way to the extraordinary insights of quantum theory and transformed our perception of matter. * The universe is expanding, in which we see how a combination of astronomy and a knowledge of elementary particles accounts for the origin of the universe and its long term future. * Spacetime is curved by matter, in which we see the emergence of the theories of special and general relativity and come to understand the nature of space and time. * If arithmetic is consistent, then it is incomplete, in which we learn the origin of numbers and arithmetic, see how the philosophy of mathematics lets us understand the nature of this most cerebral of subjects, and are brought to the limits of its power. C. P. Snow once said 'not knowing the second law of thermodynamics is like never having read a work by Shakespeare'. This is an extraordinary, exciting book that not only will make you literate in science but give you deep enjoyment on the way.

The marvellous complexity of the Universe emerges from several deep laws and a handful of fundamental constants that fix its shape, scale, and destiny. There is a deep structure to the world which at the same time is simple, elegant, and beautiful. Where did these laws and these constants come from? And why are the laws so fruitful when written in the language of mathematics? Peter Atkins considers the minimum effort needed to equip the Universe with its laws and its constants. He explores the origin of the conservation of energy, of electromagnetism, of classical and quantum mechanics, and of thermodynamics, showing how all these laws spring from deep symmetries. The revolutionary result is a short but immensely rich weaving together of the fundamental ideas of physics. With his characteristic wit, erudition, and economy, Atkins sketches out how the laws of Nature can spring from very little. Or arguably from nothing at all.

With the development of a variety of exciting new areas of research involving computational chemistry, nano- and smart materials, and applications of the recently discovered graphene, there can be no doubt that physical chemistry is a vitally important field. It is also perceived as the most daunting branch of chemistry, being necessarily grounded in physics and mathematics and drawing as it does on quantum mechanics, thermodynamics, and statistical thermodynamics. With his typical clarity and hardly a formula in sight, Peter Atkins' Very Short Introduction explores the contributions physical chemistry has made to all branches of chemistry. Providing an insight into its central concepts Atkins reveals the cultural contributions physical chemistry has made to our understanding of the natural world. ABOUT THE SERIES: The Very Short Introductions series from Oxford University Press contains hundreds of titles in almost every subject area. These pocket-sized books are the perfect way to get ahead in a new subject quickly. Our expert authors combine facts, analysis, perspective, new ideas, and enthusiasm to make interesting and challenging topics highly readable.

The marvellous complexity of the Universe emerges from several deep laws and a handful of fundamental constants that fix its shape, scale, and destiny. There is a deep structure to the world which at the same time is simple, elegant, and beautiful. Where did these laws and these constants come from? And why are the laws so fruitful when written in the language of mathematics? Peter Atkins considers the minimum effort needed to equip the Universe with its laws and its constants. He explores the origin of the conservation of energy, of electromagnetism, of classical and quantum mechanics, and of thermodynamics, showing how all these laws spring from deep symmetries. The revolutionary result is a short but immensely rich weaving together of the fundamental ideas of physics. With his characteristic wit, erudition, and economy, Atkins sketches out how the laws of Nature can spring from very little. Or arguably from nothing at all.

The laws of thermodynamics drive everything that happens in the universe. From the sudden expansion of a cloud of gas to the cooling of hot metal, and from the unfurling of a leaf to the course of life itself--everything is moved or restrained by four simple laws. They establish fundamental concepts such as temperature and heat, and reveal the arrow of time and even the nature of energy itself.
Written by Peter Atkins, one of the worlds leading authorities on thermodynamics, this powerful and compact introduction explains what these four laws are and how they work, using accessible language and virtually no mathematics. Guiding the reader a step at a time, Atkins begins with Zeroth (so named because the first two laws were well established before scientists realized that a third law, relating to temperature, should precede them--hence the jocular name zeroth), and proceeds through the First, Second, and Third Laws, offering a clear account of concepts such as the availability of work and the conservation of energy. Atkins ranges from the fascinating theory of entropy (revealing how its unstoppable rise constitutes the engine of the universe), through the concept of free energy, and to the brink, and then beyond the brink, of absolute zero.
C.P. Snow once remarked that not knowing the second law of thermodynamics is like never having read a work by Shakespeare. This brief but brilliant book introduces general readers to one of the cornerstones of modern science, four laws that are as integral to the well-educated mind as such great dramatic works as Hamlet or Macbeth.

In this scientific 'Credo', Peter Atkins considers the universal questions of origins, endings, birth, and death to which religions have claimed answers. With his usual economy, wit, and elegance, unswerving before awkward realities, Atkins presents what science has to say. While acknowledging the comfort some find in belief, he declares his own faith in science's capacity to reveal the deepest truths.

Physical Chemistry: Quanta, Matter, and Change 2nd edition takes an exciting and innovative molecular approach to the teaching of physical chemistry. The text focuses on our understanding of the properties of matter at the molecular level, and how these can be linked to the macroscopic world via statistical mechanics and thermodynamics. For the second edition the structure of the text has been radically re-organised. Instead of being in chapters, material is broken down into 97 short 'topics' and related 'topics' are organised into 20 'focus on' sections. 'Roadmaps' at the beginning of each Focus show how topics are interrelated and help students to forge connections between different subjects. This novel approach is designed to improve the digestibility of the text for students and be more flexible for lecturers teaching the subject. The distinguished author team presents the subject in a rigorous but accessible manner, allowing students to gain a thorough understanding of physical chemistry. The text includes numerous learning features, such as self-test questions, notes on good practice, online 'impact on' sections, and example boxes. Furthermore, the mathematics support has been significantly enhanced for this edition, by the inclusion of new 'chemist's toolkits', which link to the more in depth 'Mathematical background' sections. The ground-breaking approach of the second edition of Physical Chemistry: Quanta, Matter, and Change will enable students to gain a deep understanding of this fascinating and important subject area. Online Resource Centre The Online Resource Centre features: For registered adopters of the book: * Figures and tables of data from the book, ready to download. * Instructor's Solutions Manual For students: * Web links to a range of additional physical chemistry resources on the internet. * Group theory tables, available for downloading. * Living Graphs * Molecular modelling problems * Impact sections linked to via QR codes in the text