The Science of Cooking

Features

• Cover Type: Hard Cover with 244 pages
• Published by: Springer
• Edition: 1st Edition June 8, 2001
• Written in: English
• ISBN 10 Number: 3540674667
• ISBN 13 Number: 978-3540674665
• Book Dimensions: 9.3 x 6.2 x 0.6 inches
• Weighs: 1.4 pounds

Product Review


"This year, at last, we have a book which shows how a practical understanding of physics and chemistry can improve culinary performance… [Barham] first explains, in a lucid non-textbooky way, the principles behind taste, flavour and the main methods of food preparation, and then gives fool-proof basic recipes for dishes from roast leg of lab to chocolate soufflé."
- FINANCIAL TIMES WEEKEND

"This book is full of interesting and relevant facts that clarify the techniques of cooking that lead to the texture, taste and aroma of good cuisine. As a physicist the author introduces the importance of models in preparing food, and their modification as a result of testing (tasting)."
-THE PHYSICIST

"Focuses quite specifically on the physics and food chemistry of practical domestic cooking in terms of real recipes. Industrial food technologists and process engineers will not find design equations or process flowsheets. Instead they, and those with more immediate home cooking interests, will find a clear, fascinating, informative and serviceable description of the scientific phenomena occurring during domestic cooking, and how to exploit an understanding thereof to achieve results consistently, adapt recipes confidently and adeptly rescue catastrophes. Each chapter starts with an overview of the scientific issues relevant to that food group, e.g. toughness of meat, thickening of sauces, collapse of sponge cakes and soufflés. This is followed by actual recipes, with the purpose behind each ingredient and technique explained, and each recipe followed by a table describing some common problems, causes and solutions. Each chapter then ends with suggested experiments to illustrate some of the scientific principles exploited in the chapter."
-FOOD & DRINK NEWSLETTER

"Will be stimulating for amateur cooks with an interest in following recipes and understanding how they work. They will find anecdotes and, sprinkled throughout the book, scientific points of information The book is a pleasant read and is an invitation to become better acquainted with the science of cooking."
-NATURE

"You do not have to be a chemist or a physicist to cook a meal, any more than you need a qualification in engineering to drive a car; but in both cases, a little technical knowledge can help when things go wrong. That is the reasoning behind this odd volume that combines an explanation of the scientific principles of cooking with a down-to-earth guide to kitchen utensils, some experiments to try at home, and a random collection of around forty recipes."
-THE ECONOMIST

"I believe that cooking is a bit like this: it is natural ability, not scientific knowledge that makes a good cook. Not withstanding, as physicists who are always asking "why is it so?," this book is full of interesting and relevant facts that clarify the techniques of cooking that lead to the texture, taste and aroma of good cuisine. As a physicist the author introduces the importance of models in preparing food, and their modification as a result of testing (tasting)"

- THE PHYSICIST

"…At last, we have a book which shows how a practical understanding of physics and chemistry can improve culinary performance … [Barham] first explains, in a lucid non-textbooky way, the principles behind taste, flavour and the main methods of food preparation, and then gives fool-proof basic recipes for dishes from roast leg of lab to chocolate soufflé."

–Financial Times Weekend

"Will be stimulating for amateur cooks with an interest in following recipes and understanding how they work. They will find anecdotes and, sprinkled throughout the book, scientific points of informationThe book is a pleasant read and is an invitation to become better acquainted with the science of cooking."

–Nature

Product Description


A kitchen is no different from most science laboratories and cookery may properly be regarded as an experimental science. Food preparation and cookery involve many processes which are well described by the physical sciences. Understanding the chemistry and physics of cooking should lead to improvements in performance in the kitchen. For those of us who wish to know why certain recipes work and perhaps more importantly why others fail, appreciating the underlying physical processes will inevitably help in unravelling the mysteries of the "art" of good cooking.

Strong praise from the reviewers -

"Will be stimulating for amateur cooks with an interest in following recipes and understanding how they work. They will find anecdotes and, sprinkled throughout the book, scientific points of information The book is a pleasant read and is an invitation to become better acquainted with the science of cooking." - NATURE

"This year, at last, we have a book which shows how a practical understanding of physics and chemistry can improve culinary performance… [Barham] first explains, in a lucid non-textbooky way, the principles behind taste, flavour and the main methods of food preparation, and then gives fool-proof basic recipes for dishes from roast leg of lab to chocolate soufflé." - FINANCIAL TIMES WEEKEND

"This book is full of interesting and relevant facts that clarify the techniques of cooking that lead to the texture, taste and aroma of good cuisine. As a physicist the author introduces the importance of models in preparing food, and their modification as a result of testing (tasting)."- THE PHYSICIST

"Focuses quite specifically on the physics and food chemistry of practical domestic cooking in terms of real recipes Each chapter starts with an overview of the scientific issues relevant to that food group, e.g. toughness of meat, thickening of sauces, collapse of sponge cakes and soufflés. This is followed by actual recipes, with the purpose behind each ingredient and technique explained, and each recipe followed by a table describing some common problems, causes and solutions. Each chapter then ends with suggested experiments to illustrate some of the scientific principles exploited in the chapter." - FOOD & DRINK NEWSLETTER

 

Reader Reviews
I recently purchased "On Food and Cooking", hoping to find a good, comprehensive book on food science. While there was a lot of good detail in that book, much of the detail was buried among less interesting historical digressions, and the space taken up by those digressions seemed to be depriving me of some details I really did care about. In contrast, "The Science of Cooking" makes no pretense of being encyclopedic in its coverage of food science. Instead, the focus is directly on the chemical and physical processes at work in the kitchen. As such, it succeeds admirably, and much of the information that seemed "missing" from "On Food and Cooking" here seems simply absent because it is outside the scope of the work. While the introductory material gets a little condescending at times (I mean, who actually needs to be told what an atom is?), and some of the sidebars get overly technical for most people (do you really care about differential equations?), such sections are easily ignored. The few really queasy technical discussions are even set in a different background color to let you know they may not be for the faint-of-heart (and the rest of those colored sidebars are quite readable and interesting on their own). Be aware that the author is a scientist, not a chef. This book is tightly focused on chemical and physical effects of ingredients. Things like flavor and food safety are not part of the discussion, beyond a few passing mentions. Most notably, the author repeatedly demonstrates a lack of understanding of the effects of salt on flavor, and talks of things like clarifying cold stocks with raw egg whites without a discussion of slmonella (which is admittedly perceived as less of a problem in the author's native Britain). The book is organized like a textbook, with sidebars, tables, and even little experiments at the end of each chapter. There are useful conversion tables, and charts on various topics. It is easy to skip over what you find uninteresting and to skip directly to the information you need when using the book for reference. The information here is valuable, concise, and well-presented. You'll find yourself understanding things like the difference between saturated and unsaturated fats (and why you should care as a cook), how foams form (and why they collapse), why and how cooking affects flavor and texture, etc. I was able to read through this book very quickly and easily, while learning (and even retaining) more information than I normally would from a non-fiction book of this sort. This book is definitely an excellent overview of the processes involved in cooking, and indeed, probably contains as much information as most of us are ever likely to use on the subject. Why 4 stars and not 5, you ask? There are some important omissions that bothered me. The most glaring examples are that there's no discussion of osmotic pressure, or the role of pH in various processes, topics that "On Food and Cooking" covered admirably. The section on cooking utensils and appliances is largely a waste of space, in part because the author is British and doesn't have access to many of the alternatives that have become common in serious American kitchens. Be warned, the book is very British in its use of language. You will need to know that "hob" is a British English for "stove", for example. Also, all of the recipes use metric weights and volumes, so should you actually wish to follow them (not something I'd particularly recommend), you'll need an accurate metric food scale and measuring cups.