Introduction to Entropy

The concept of entropy arises in diverse branches of science, including physics, where it plays a crucial role. However, the nature of entropy as a unifying concept is not widely discussed?it is dealt with in a piecemeal manner within different contexts. The interpretation of the concept is also subtly different in each case. This book draws these diverse threads together and present entropy as one of the crucial physical concepts. It covers a range of different applications of entropy, from the classical theory of thermodynamics, the statistical approach, entropy in quantum theory, information theory and finally, its manifestation in black hole physics. Each is presented in a manner suitable for undergraduates and interested laypersons with no previous knowledge. The book takes an overview of these areas and assesses to what extent the concept of entropy is being treated in the same way in each, and how it differs.

Key Features:

• Provides an accessible introduction to the exciting topic of entropy.


• Includes the latest research on black holes, quantum theory, and the Big Bang.


• Contains worked examples and exercises.

Undergraduates seem to arrive at university fascinated by quantum mechanics and relativity; by Schrödinger?s Cat and black holes. And indeed every physics degree programme will develop this interest. But these are just two pillars of physics, to which can be added a third, a central pillar that concerns the behaviour of physical objects, be they atoms or stars, in circumstances where they collectively demonstrate ?irreversible? behaviour. A major consequence of this is the ?arrow of time?, where stuff happens that has a beginning, a middle and an end, and it turns out that the property that characterises this narrative is entropy production.

Jonathan Allday and Simon Hands have written a book that aims to raise the profile of entropy, and the wider topics of thermodynamics and statistical mechanics, to levels of interest enjoyed by the better known major themes of physics. To this end they note that encountering thermodynamics 'has been a source of dismay to generations of students who naively imagined they'd chosen physics to study quarks, lasers and the Big Bang.... Our advice: stay patient?.

The book is wide-ranging and engaging, and is intended for a readership of ?undergraduates and interested laypersons?, to which might be added keen pre-university students, an audience served by some of Allday?s previous books.

The book falls into three parts, two of which would be readily accessible to interested laypersons. The first part follows a traditional path through classical and statistical thermodynamics, laying foundations for an understanding of the concept of entropy and the special character of the second law of thermodynamics.

The middle part suits a better prepared readership, since it introduces aspects of quantum mechanics using mathematics that is quite advanced, though commendably transparent in that derivations are presented in detail. The material would provide illumination for an advanced undergraduate statistical mechanics module, especially in its handling of the density matrix.

The third part returns to a gentler discussion of the implications of the second law: to life, the universe and other matters. The fundamental connection between thermodynamic entropy and information science is developed. This is a fine coda to a book that takes its reader from early 19^th century ideas concerning the efficiency of steam engines to the modern (less practical!) study of information processing in black holes.

In summary, ?Introduction to Entropy: the Way of the World? makes a compelling case that describing the irreversibility of processes in the physical world is fundamental science: a pillar of physics to be promoted!

- Ian Ford, Professor of Physics, University College London