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Cooking as a Chemical Reaction: Culinary Science with Experiments 2nd edition [Kõva köide]

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(Yeditepe University, Istanbul, Turkey)
  • Formaat: Hardback, 392 pages, kõrgus x laius: 254x178 mm, kaal: 544 g, 303 Halftones, black and white; 31 Illustrations, black and white
  • Ilmumisaeg: 24-Jun-2019
  • Kirjastus: CRC Press
  • ISBN-10: 1138597120
  • ISBN-13: 9781138597129
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Cooking as a Chemical Reaction: Culinary Science with Experiments 2nd editionSuurem pilt
  • Formaat: Hardback, 392 pages, kõrgus x laius: 254x178 mm, kaal: 544 g, 303 Halftones, black and white; 31 Illustrations, black and white
  • Ilmumisaeg: 24-Jun-2019
  • Kirjastus: CRC Press
  • ISBN-10: 1138597120
  • ISBN-13: 9781138597129
Teised raamatud teemal:
Teised raamatud sellest sooduspakkumisest: Taylor & Francis teadusraamatud International Student Editions hindadega
Püsilink: https://www.kriso.ee/db/9781138597129.html
Märksõnad:
With this book, students are able to perform experiments and then make observations that they will frequently see in the kitchen and other food preparation and processing areas and learn the science behind these phenomena. The second edition of Cooking as a Chemical Reaction: Culinary Science with Experiments features new chapters on food hygiene and safety, kitchen terminology, and taste pairing, as well as an expanded chapter on the role of food additives in culinary transformations.

The text uses experiments and experiences from the kitchen, and other food preparation areas, rather than theory, as the basic means of explaining the scientific facts and principles behind food preparation and food processing. It engages students in their own learning process. This textbook is designed so that students can first perform certain experiments and record their observations in tables provided in the book. The book then explains the science behind their observations.

Features:











Experiments and recipes form the basic means of teaching culinary chemistry











Features new chapters on food hygiene and safety, kitchen terminology, and taste pairing











Employs real kitchen practices to explain the subjects











Covers traditional food chemistry including water in culinary transformations, protein, carbohydrates, fats, sensorial properties

Many concepts throughout the book are marked with a symbol that indicates the concept is one that they will come across frequently not just in this text, but in the kitchen and other food preparation and processing areas. A second symbol precedes the scientific explanation of the observation made during the experiments in the chapter. At the end of each chapter, students are presented with important points to remember, more ideas to try, and study questions to reinforce concepts that were presented in the chapter. The book is designed for each chapter to be read and studied in chronological order, as the concepts of each chapter will reoccur in subsequent chapters.

Written at the undergraduate level, this book is designed 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 preparation and processing.
Preface xiii
Acknowledgments xv
Author xvii
1 Measurements and Units 1(22)
Why Do We Need Mathematics in Culinary Processes?
1(1)
Types of Measurements in the Kitchen
1(4)
Units of Measurements in Culinary Calculations
5(4)
Rule
7(2)
Everyday Calculations in the Kitchen
9(4)
Fractions and Percentages
9(2)
Yield Percent
11(1)
Recipe Yield Conversion
11(2)
Simplified Cost Calculations for Culinary Operations
13(3)
Simplified Statistics for Culinary Operations
16(1)
Experiment 1.1
17(3)
Points to Remember
20(2)
Study Questions
21(1)
Selected References
22(1)
2 Basic Food Chemistry 23(16)
Food Processing Is All about Chemistry
23(4)
Experiment 2.1
27(2)
Experiment 2.2
29(7)
The Science Behind the Results
33(3)
Points to Remember
36(1)
Selected References
37(2)
3 Water in Culinary Transformations 39(50)
Functional Properties of Water in Culinary Processes
39(2)
Structure of Water
41(4)
Experiment 3.1
45(6)
The Science Behind the Results
49(2)
Experiment 3.2
51(6)
The Science Behind the Results
55(2)
Experiment 3.3
57(6)
The Science Behind the Results
61(2)
Experiment 3.4
63(6)
The Science Behind the Results
67(2)
Experiment 3.5
69(6)
The Science Behind the Results
73(2)
Experiment 3.6
75(6)
The Science Behind the Results
79(2)
Experiment 3.7
81(5)
The Science Behind the Results
85(1)
Points to Remember
86(1)
More Ideas to Try
87(1)
Study Questions
87(1)
Selected References
87(2)
4 Carbohydrates in Culinary Transformations 89(56)
Functional Properties of Carbohydrates in Culinary Processes
89(1)
Carbohydrate Structure
90(3)
General Formula for Carbohydrates
90(3)
Experiment 4.1
93(6)
The Science Behind the Results
97(2)
Experiment 4.2
99(8)
The Science Behind the Results
105(2)
Experiment 4.3
107(4)
The Science Behind the Results
109(2)
Experiment 4.4
111(8)
Study Questions
113(2)
The Science Behind the Results
115(4)
Experiment 4.5
119(6)
The Science Behind the Results
123(2)
Experiment 4.6
125(6)
The Science Behind the Results
129(2)
Experiment 4.7
131(4)
Study Questions
132(1)
The Science Behind the Results
133(2)
Experiment 4.8
135(4)
Study Question
136(1)
The Science Behind the Results
137(2)
Experiment 4.9
139(3)
The Science Behind the Results
141(1)
Points to Remember
142(1)
More Ideas to Try
143(1)
Study Questions
143(1)
Selected References
143(2)
5 Proteins in Culinary Transformations 145(68)
Functional Properties of Proteins in Culinary Processes
145(1)
Protein Structure
146(5)
Experiment 5.1
151(6)
The Science Behind the Results
155(2)
Experiment 5.2
157(6)
Study Questions
159(2)
The Science Behind the Results
161(2)
Experiment 5.3
163(4)
The Science Behind the Results
165(2)
Experiment 5.4
167(4)
The Science Behind the Results
169(2)
Experiment 5.5
171(4)
The Science Behind the Results
173(2)
Experiment 5.6
175(6)
Study Questions
177(2)
The Science Behind the Results
179(2)
Experiment 5.7
181(6)
The Science Behind the Results
185(2)
Experiment 5.8
187(4)
The Science Behind the Results
189(2)
Experiment 5.9
191(6)
The Science Behind the Results
195(2)
Experiment 5.10
197(6)
Study Questions
198(3)
The Science Behind the Results
201(2)
Experiment 5.11
203(7)
The Science Behind the Results
209(1)
Points to Remember
210(1)
More Ideas to Try
211(1)
Study Questions
211(1)
Selected References
211(2)
6 Fats and Oils in Culinary Transformations 213(44)
Functional Properties of Fats and Oils in Culinary Processes
213(1)
Fat and Oil Structure
214(3)
Experiment 6.1
217(6)
The Science Behind the Results
219(4)
Experiment 6.2
223(2)
Experiment 6.3
225(6)
The Science Behind the Results
229(2)
Experiment 6.4
231(6)
Study Questions
233(2)
The Science Behind the Results
235(2)
Experiment 6.5
237(6)
The Science Behind the Results
241(2)
Experiment 6.6
243(6)
The Science Behind the Results
245(4)
Experiment 6.7
249(6)
The Science Behind the Results
253(1)
More Ideas to Try
254(1)
Study Questions
254(1)
Points to Remember
255(1)
Selected References
256(1)
7 Keys to Developing the Perfect Bite: New Food Product Development and Sensory Evaluation Tests 257(14)
Reasons to Develop a New Food Product
257(1)
Stages in New Food Product Development
258(2)
Idea Development
259(1)
Product Development
259(1)
Commercialization
260(1)
How to Carry Out Sensory Evaluation Tests
260(9)
Points to Remember
269(1)
Selected References
270(1)
8 The Science of Flavor and Flavor Pairing 271(36)
Experiment 8.1
273(4)
The Science Behind the Results
275(2)
Experiment 8.2
277(6)
The Science Behind the Results
281(2)
Experiment 8.3
283(4)
Experiment 8.4
287(16)
The Science Behind the Results
289(14)
Points to Remember
303(1)
More Ideas to Try
304(1)
Selected References
304(3)
9 Food Additives in Culinary Transformations 307(40)
Classification of Food Additives
307(6)
Intentional/Direct Food Additives
307(1)
Unintentional/Indirect Food Additives
308(5)
Experiment 9.1
313(4)
Hydrocolloids in Culinary Transformations
317(2)
Experiment 9.2
319(6)
Experiment 9.3
325(14)
The Science Behind the Results
331(8)
Experiment 9.4
339(5)
The Science Behind the Results
343(1)
Study Question
343(1)
More Ideas to Try
343(1)
Points to Remember
344(1)
Selected References
345(2)
10 Food Safety and Hygiene in Culinary Transformations 347(30)
Consumers Have a Right to Expect That the Foods They Consume
Will Be Safe and of High Quality
347(1)
Food Safety Has to Do with Controlling Potential Foodborne Hazards
348(1)
Experiment 10.1
349(6)
The Science Behind the Results
353(2)
Experiment 10.2
355(12)
The Science Behind the Results
361(6)
Experiment 10.3
367(4)
The Science Behind the Results
369(2)
Safe Practices are Important to Avoid Foodborne Illness
369(2)
Experiment 10.4
371(3)
The Science Behind the Results
373(1)
Points to Remember
374(1)
More Ideas to Try
375(1)
Study Questions
375(1)
Selected References
375(2)
Extended Glossary 377(10)
Index 387
Sibel Ozilgen, Ph.D., is the Head of the Gastronomy and Culinary Arts Department at Yeditepe University, where she has been a faculty member since 2005. Dr. Ozilgen completed her Ph.D. degree in food engineering at Middle East Technical University in Turkey. She attended the University of California as a concurrent student during her Ph.D. study. Dr. Ozilgen taught classes and conducted research at Massey University in New Zealand and is the author or coauthor of numerous refereed publications and books, one of which concerns the eating habits of preschool children (Alfa Publishing Co., Turkey, 2007). Her research and teaching interests lie in the area of food science, food safety, food product development, and the eating habits of different consumer groups.