VINTAGE MINIS: GREAT MINDS. BIG IDEAS. LITTLE BOOKS. Also in the Vintage Minis series: Desire by Haruki Murakami Babies by Anne Enright Depression by William Styron Race by Toni Morrison
What if you didn't have to read the 50 most important books on Politics to know the most important ideas?This is the thinking person's guide to the big political texts from across the centuries, from the original pioneers to the contemporary. With insightful commentary for each of the 50 books, key quotes and biographical information on the authors and a guide to further reading, 50 Politics Classics gives a unique overview of the political writings that shaped history and are still shaping minds today.From Abraham Lincoln to Nelson Mandela, and from Aristotle to George Orwell, 50 Politics Classics distils the essence of the books, pamphlets, and speeches of the major leaders and great thinkers that drive real-world change. Spanning 2, 500 years, left and right, thinkers and doers, Tom Butler-Bowdon covers activists, war strategists, visionary leaders, economists, philosophers of freedom, feminists, conservatives and environmentalists, right up to contemporary leaders and thought leade
Professor Herman Bondi, one of the proponents of the Steady State Theory, presented this volume as an account that would establish cosmology as a distinct branch of physics. First published in 1952, just a few years after the term 'the Big Bang' was coined, it represents an important stage in the development of cosmology. With detailed discussions of different theories including Newtonian cosmology, relativistic cosmology and kinematic relativity, it gives a remarkable insight into scientific thought at this crucial time. It will be most useful to anyone with an interest in the history of science or the progression of scientific ideas.
(Musicians Institute Press). This private lesson covers common symbols and musical shorthand, section figures and ensemble figures, accents, set-up ideas, and embellishment, and swing, big band, and o
This Introduction to the Anthropology of Melanesia is intended for undergraduate anthropology students with some grounding in the issues and ideas that inform the discipline, and for courses in Pacific Studies. Each chapter focuses on a topic common to many cultures in the region, such as the role of so-called Big Men, ancestors, male initiation, and exchange, and these ideas are fleshed out with apt ethnographic examples. Melanesia is a fascinating culture area, and has always been a popular fieldwork site for anthropologists, including W. H. R. Rivers, Bronislaw Malinowski, Margaret Mead, and Gregory Bateson. Some of the most important theoretical contributions to the subject were also first formulated with reference to Melanesian studies, and students today still learn much of their basic anthropology from Melanesian examples.
Halloween is the season when the imaginations of children soar into a fanciful world of strange and fascinating beings. Putney – The Little Pumpkin with Big Ideas, embraces the warmth and refreshing
All games express and embody human values, providing a compelling arena in which weplay out beliefs and ideas. "Big ideas" such as justice, equity, honesty, and cooperation-- as well as other kinds of
Practical ideas from the best brains in BusinessA sharp, jargon-free guide to the core curriculum of an MBA program, MBA in a Book shows how to master the big ideas of business and use them in a pract
This fun book teaches children concepts, or big ideas, about butterflies, including metamorphosis, migration, symmetry, and pollination. Children are encouraged to draw their own butterflies, take pho
A follow-up to the highly successful XS: Big Ideas, Small Buildings, this book features contemporary solutions to two of today's most challenging problems: how to conserve space and help preserve the
Whether you’re a business beginner with big ideas or an established company looking to review you plans in a changing business environment this practical, user friendly guide gives you everythin
Starting with the idea of an event and finishing with a description of the standard big-bang model of the Universe, this textbook provides a clear and concise introduction to the theory of general relativity, suitable for final-year undergraduate mathematics or physics students. Throughout, the emphasis is on the geometric structure of spacetime, rather than the traditional coordinate-dependent approach. Topics covered include flat spacetime (special relativity), Maxwell fields, the energy-momentum tensor, spacetime curvature and gravity, Schwarzschild and Kerr spacetimes, black holes and singularities, and cosmology. All physical assumptions are clearly spelled out and the necessary mathematics is developed along with the physics. Exercises are provided at the end of each chapter and key ideas are illustrated with worked examples. Solutions and hints to selected problems are provided at the end of the book. This textbook will enable the student to develop a sound understanding of the
This is a manifesto about ideas. Big ideas, small ideas, and outlandish ideas. Ideas that innovate, ideas that disrupt markets, and especially ideas that irritate. More than ideas, though,Mad Genius i
Camouflage is blending into a natural environment, but mimicry is pretending to be another living thing to survive. Amazing photographs highlight this indepth look at the masters of mimicry who use sh
The third edition of this successful textbook is fully updated and includes important recent developments in cosmology. It begins with an introduction to cosmology and general relativity, and goes on to cover the mathematical models of standard cosmology. The physical aspects of cosmology, including primordial nucleosynthesis, the astroparticle physics of inflation, and the current ideas on structure formation are discussed. Alternative models of cosmology are reviewed, including the model of Quasi-Steady State Cosmology, which has recently been proposed as an alternative to Big Bang Cosmology. The final chapters discuss observational cosmology, and debate theory versus observational methods. The book includes 400 problems and numerous worked examples. This introductory textbook describes modern cosmology at a level suitable for advanced undergraduates and graduates who are familiar with mathematical methods and basic theoretical physics. It is intended for use on courses in theoretic
What are the current ideas describing the large-scale structure of the Universe? How do they relate to the observed facts? This book looks at both the strengths and weaknesses of the current big-bang model in explaining certain puzzling data. It arises from an international conference that brought together many of the world's leading players in cosmology. In addition to presenting individual talks, the proceedings of the resulting discussions are also recorded. Giving a comprehensive coverage of the expanding field of cosmology, this text will be valuable for graduate students and researchers in cosmology and theoretical astrophysics.
This dramatic narrative of breathtaking scope and riveting focus puts the "story" back into history. It is the saga of how the most ambitious of big ideas -- that a world made up of many nations can
The development of geometry from Euclid to Euler to Lobachevsky, Bolyai, Gauss and Riemann is a story that is often broken into parts – axiomatic geometry, non-Euclidean geometry and differential geometry. This poses a problem for undergraduates: Which part is geometry? What is the big picture to which these parts belong? In this introduction to differential geometry, the parts are united with all of their interrelations, motivated by the history of the parallel postulate. Beginning with the ancient sources, the author first explores synthetic methods in Euclidean and non-Euclidean geometry and then introduces differential geometry in its classical formulation, leading to the modern formulation on manifolds such as space-time. The presentation is enlivened by historical diversions such as Huygens's clock and the mathematics of cartography. The intertwined approaches will help undergraduates understand the role of elementary ideas in the more general, differential setting. This thorough
The development of geometry from Euclid to Euler to Lobachevsky, Bolyai, Gauss and Riemann is a story that is often broken into parts – axiomatic geometry, non-Euclidean geometry and differential geometry. This poses a problem for undergraduates: Which part is geometry? What is the big picture to which these parts belong? In this introduction to differential geometry, the parts are united with all of their interrelations, motivated by the history of the parallel postulate. Beginning with the ancient sources, the author first explores synthetic methods in Euclidean and non-Euclidean geometry and then introduces differential geometry in its classical formulation, leading to the modern formulation on manifolds such as space-time. The presentation is enlivened by historical diversions such as Huygens's clock and the mathematics of cartography. The intertwined approaches will help undergraduates understand the role of elementary ideas in the more general, differential setting. This thorough
