When you're cooking, you're a chemist! Every time you follow or modify a recipe, you are experimenting with acids and bases, emulsions and suspensions, gels and foams. In your kitchen you denature proteins, crystallize compounds, react enzymes with substrates, and nurture desired microbial life while suppressing harmful bacteria and fungi. And unlike in a laboratory, you can eat your experiments to verify your hypotheses. In Culinary Reactions, author Simon Quellen Field turns measuring cups, stovetop burners, and mixing bowls into graduated cylinders, Bunsen burners, and beakers. How does altering the ratio of flour, sugar, yeast, salt, butter, and water affect how high bread rises? Why is whipped cream made with nitrous oxide rather than the more common carbon dioxide? And why does Hollandaise sauce call for “clarified” butter? This easy-to-follow primer even includes recipes to demonstrate the concepts being discussed, including: &· Whipped Creamsicle Topping—a foam &· Cherry Dream Cheese—a protein gel &· Lemonade with Chameleon Eggs—an acid indicator
Get the Summary of Simon Quellen Field's Culinary Reactions in 20 minutes. Please note: This is a summary & not the original book. "Culinary Reactions" by Simon Quellen Field delves into the chemistry behind cooking, emphasizing the importance of precise measurements for reproducible results. The book explains how understanding ingredient functions and processes allows for creative adjustments. It covers the historical and modern methods of ingredient preparation, such as sifting flour and the significance of egg sizes...
Written at the undergraduate level, Cooking as a Chemical Reaction: Culinary Science with Experiments provides experiments geared for students in culinary arts, nutrition, dietetics, food science and technology, and gastronomy programs. It is intended for students with limited scientific background who are studying different aspects of food prepara
Applying a scientific approach this unique book covers both pediatric and adult adverse reactions to foods and food additives. Following the successful formula of the previous editions, Food Allergy has established itself asthe comprehensive reference for those treating patients with food allergy or suspected allergy. The book has been thoroughly revised and updated presenting new chapters devoted to food biotechnology and genetic engineering, seafood toxins, future approaches to therapy and hidden food allergens. Food Allergy, fourth edition, is divided into five sections featuring key concept boxes for each chapter. Displayed in a logical manner the book is a practical, readable reference for use in the hospital or private practice setting.
Based on the popular Harvard University and edX course, Science and Cooking explores the scientific basis of why recipes work. The spectacular culinary creations of modern cuisine are the stuff of countless articles and social media feeds. But to a scientist they are also perfect pedagogical explorations into the basic scientific principles of cooking. In Science and Cooking, Harvard professors Michael Brenner, Pia Sörensen, and David Weitz bring the classroom to your kitchen to teach the physics and chemistry underlying every recipe. Why do we knead bread? What determines the temperature at which we cook a steak, or the amount of time our chocolate chip cookies spend in the oven? Science and Cooking answers these questions and more through hands-on experiments and recipes from renowned chefs such as Christina Tosi, Joanne Chang, and Wylie Dufresne, all beautifully illustrated in full color. With engaging introductions from revolutionary chefs and collaborators Ferran Adria and José Andrés, Science and Cooking will change the way you approach both subjects—in your kitchen and beyond.
Presents scientific answers to a series of miscellaneous questions, covering such topics as "Why are bubbles round," "Why are the Earth, Sun, and Moon all spinning," and "How you can tell the temperature by listening to a cricket."
How much do you really know about how the human body works and how it reacts to food, exercise, nutrition, and the environment? While most people have read about at least one fad diet, they're left wondering about the greater biochemistry, psychology, sociology, and physiology of the obesity crisis in the United States. Gut Reactions by chemist Simon Quellen Field shows readers how their bodies react to food and the environment and how their brains affect what and how much they eat. It reveals why some diets work for some people but not for others, based on genetics, previous weight history, brain chemistry, environmental cues, and social pressures. It explores how dozens of hormones affect hunger and satiety and interact with the brain and the gut to regulate feeding behavior. And it explains the addictive nature of foods that interact with the same dopamine and opioid receptors in the brain as cocaine, heroin, amphetamines, and nicotine. Whether you're looking to lose weight, put on muscle mass, or simply understand how your metabolism or gut microbiome impact your food cravings, Simon Quellen Field has the scientific answers for you.
Whether you know it or not, you become a chemist any time you step into a kitchen. As you cook, you oversee intricate chemical transformations that would test even the most hardened of professional chemists. Focussing on how and why we cook different dishes the way we do, this book introduces basic chemistry through everyday foods and meal preparations. Through its unique meal-by-meal organisation, the book playfully explores the chemistry that turns our food into meals. Topics covered range from roasting coffee beans to scrambling eggs and gluten development in breads. The book features many experiments that you can try in your own kitchen, such as exploring the melting properties of cheese, retaining flavour when cooking and pairing wines with foods. Through molecular chemistry, biology, neuroscience, physics and agriculture, the author discusses various aspects of cooking and food preparation. This is a fascinating read for anyone interested in the science behind cooking.
Written as a textbook with an online laboratory manual for students and adopting faculties, this work is intended for non-science majors / liberal studies science courses and will cover a range of scientific principles of food, cooking and the science of taste and smell. Chapters include: The Science of Food and Nutrition of Macromolecules; Science of Taste and Smell; Milk, Cream, and Ice Cream, Metabolism and Fermentation; Cheese, Yogurt, and Sour Cream; Browning; Fruits and Vegetables; Meat, Fish, and Eggs; Dough, Cakes, and Pastry; Chilies, Herbs, and Spices; Beer and Wine; and Chocolate, Candy and Other Treats. Each chapters begins with biological, chemical, and /or physical principles underlying food topics, and a discussion of what is happening at the molecular level. This unique approach is unique should be attractive to chemistry, biology or biochemistry departments looking for a new way to bring students into their classroom. There are no pre-requisites for the course and the work is appropriate for all college levels and majors.
Named one of the Best Fall Cookbooks 2020 by The New York Times, Eater, Epicurious, Food & Wine, Forbes, Saveur, Serious Eats, The Smithsonian, The San Francisco Chronicle, The Los Angeles Times, The Boston Globe, The Chicago Tribune, CNN Travel, The Kitchn, Chowhound, NPR, The Art of Eating Longlist 2021 and many more; plus international media attention including The Financial times, The Globe and Mail, The Telegraph, The Guardian, The Independent, The Times (U.K.), Delicious Magazine (U.K.), The Times (Ireland), and Vogue India and winner of The Guild of U.K. Food Writers (General Cookbook). Finalist for the 2021 IACP Cookbook Award. "The Flavor Equation" deserves space on the shelf right next to "Salt, Fat, Acid, Heat" as a titan of the how-and-why brigade."– The New Yorker "Deep and illuminating, fresh and highly informative... a most brilliant achievement." – Yotam Ottolenghi "[A] beautiful and intelligent book." – J. Kenji López-Alt, author The Food Lab and Chief Consultant for Serious Eats.com Aroma, texture, sound, emotion—these are just a few of the elements that play into our perceptions of flavor. The Flavor Equation demonstrates how to convert approachable spices, herbs, and commonplace pantry items into tasty, simple dishes. In this groundbreaking book, Nik Sharma, scientist, food blogger, and author of the buzz-generating cookbook Season, guides home cooks on an exploration of flavor in more than 100 recipes. • Provides inspiration and knowledge to both home cooks and seasoned chefs • An in-depth exploration into the science of taste • Features Nik Sharma's evocative, trademark photography style The Flavor Equation is an accessible guide to elevating elemental ingredients to make delicious dishes that hit all the right notes, every time. Recipes include Brightness: Lemon-Lime Mintade, Saltiness: Roasted Tomato and Tamarind Soup, Sweetness: Honey Turmeric Chicken Kebabs with Pineapple, Savoriness: Blistered Shishito Peppers with Bonito Flakes, and Richness: Coconut Milk Cake. • A global, scientific approach to cooking from bestselling cookbook author Nik Sharma • Dives deep into the most basic of our pantry items—salts, oils, sugars, vinegars, citrus, peppers, and more • Perfect gift for home cooks who want to learn more beyond recipes, those interested in the science of food and flavor, and readers of Lucky Peach, Serious Eats, Indian-Ish, and Koreatown • Add it to the shelf with cookbooks like The Food Lab: Better Home Cooking Through Science by J. Kenji López-Alt; Ottolenghi Flavor: A Cookbook by Yotam Ottolenghi; and Salt, Fat, Acid, Heat: Mastering the Elements of Good Cooking by Samin Nosrat.