Experimental Food Science
eBook - ePub

Experimental Food Science

  1. 541 pages
  2. English
  3. ePUB (mobile friendly)
  4. Available on iOS & Android
eBook - ePub

Experimental Food Science

About this book

This textbook presents the scientific basis for understanding the nature of food and the principles of experimental methodology as applied to food. It reviews recent research findings and specific technological advances related to food. Taking an experimental approach, exercises are included at the end of each chapter to provide the needed experience in planning experiments. Emphasizing the relationships between chemical and physical properties, basic formulas and procedures are included in the appendix.- Demonstrates the relationships among composition, structure, physical properties, and functional performance in foods- Suggested exercises at the end of each chapter provide students with needed experience in designing experiments- Extensive bibliographies of food science literature- Appendix of basic formulas and procedures

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Yes, you can access Experimental Food Science by Steve Taylor in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Biophysics. We have over one million books available in our catalogue for you to explore.

Information

Publisher
Academic Press
Year
2012
Print ISBN
9780121579203
eBook ISBN
9780323140041
Edition
3
Topic
Technology & Engineering
Subtopic
Biophysics
Index
Technology & Engineering
PART I
FOOD EXPERIMENTATION
CHAPTER 1

FOOD EXPERIMENTATION

Publisher Summary

The experimental study of food is concerned with why foods are handled, processed, and prepared as they are; how and why variations in ingredients or treatments influence the quality of food; and how this knowledge can be used to improve the quality of food products. This chapter presents a scientific approach to the experimental study of food. The scientific approach includes three basic steps: (1) defining the problem and arriving at the hypothesis, (2) testing the hypothesis in a carefully designed and controlled experiment, and (3) accepting or rejecting the hypothesis in a report of the results. The chapter discusses the procedures used to control the experimental conditions. Formulas (recipes) for products may be presented in several different forms. The uniformity of each ingredient must be controlled in a food experiment. Temperature control and measurement also are important in an experiment. The quantity of each ingredient is controlled through measuring and/or weighing. Variations in the techniques used to prepare samples for experimental work are more difficult to control than variations in the quality and amount of food used, especially for batters and doughs. Objective and sensory evaluation may be used to determine the effects of treatments on the quality of products. The principles of sensory evaluation of food should be used in conducting sensory tests. The necessary parts of an experiment report are objectives or purpose, methods, results (data), discussion of results, conclusions, and reference list. Before drawing conclusions, it is necessary to interpret the data. After the data are interpreted, conclusions can be drawn.
I. INTRODUCTION
II. USING AND PRESENTING FORMULAS
III. CONTROLLING EXPERIMENTS
A. Uniformity of Ingredients
B. Temperature Control
C. Measurements of Quantity
IV. CONTROLLING TECHNIQUES
V. EVALUATING RESULTS OF CLASS EXPERIMENTS
VI. REPORTING THE RESULTS
A. Recording Data
B. Analyzing and Interpreting Data
C. Drawing Conclusions
Suggested Exercises
References

I. INTRODUCTION

A scientific approach to the experimental study of food is presented in this book. The experimental study of food is concerned with why foods are handled, processed, and prepared as they are, how and why variations in ingredients or treatments influence the quality of food, and how this knowledge can be used to improve the quality of food products. The scientific approach includes three basic steps: defining the problem and arriving at the hypothesis; testing the hypothesis in a carefully designed and controlled experiment; and accepting or rejecting the hypothesis in a report of the results. The scientific study of food is an exciting field of investigation. Adequate answers to some food-related problems have been found, often by applying sciences, such as chemistry, physics, biology, and microbiology, that are basic to the study of foods. Answers to other problems are only partial or not yet known. Incomplete answers and the unknown offer challenges to the food scientist. Students can find challenging questions to study in an experimental foods class.
This book is divided into two parts. Part I explores methods used in food science and should serve as a reference for laboratory work and for understanding the basic food science principles discussed in Part II. Understanding of the methods described in Chapters 3 and 4 will facilitate an understanding of the literature in food science. Part I can serve as a guide to the student who is starting an independent problem in experimental foods, who wants to expand the suggested exercises outlined at the ends of the chapters, or who wants to develop experiments using the formulas in the Appendix as a guide.
This textbook contributes to several sections of a research report. Part II is essentially a review of literature, both recent and older. The most current literature must always be reviewed, because information in food science changes rapidly; older literature provides the foundation for our understanding of food and its functional properties. Suggestions for reviewing the literature are included in Chapter 2. Appendix A contains experimental formulas. The procedures in Appendix A, although written as instructions, provide information for writing procedures for a report.
The other essential parts of the research reportā€”the data, the discussion of the results, the conclusions, and the reference listā€”should be incorporated into the studentā€™s notebook or laboratory report. The reference list should give credit to the sources of information used in preparation of the report. Those sources should be cited in the text. For reference lists in this text and citations within the text, the Institute of Food Technologistsā€™ (IFT) style with some modification has been used. Details of this style are found in the style guide published by the IFT (1988). The style has been modified for this book to provide chapter numbers and inclusive page numbers. This will facilitate the process of obtaining copies of papers via interlibrary loan if not available to the reader. In addition, states are spelled out to facilitate information retrieval by international readers. For class reports, either this style or one of the styles used in other professional journals may be selected. It is important, however, that the same style be used throughout a report.
Suggested exercises at the end of each chapter include suggested experimental variations in treatment or ingredients. Basic formulas and procedures for some basic products are given in the Appendix. For other suggested exercises literature references may be given for formulas and procedure. The product from the basic formula serves as a control, in other words, a basis for comparison of the experimental products. Variations not described in the suggested exercise may better serve the needs and interests of a class. For example, related problems of current concern and interest may serve as a basis for class or individual projectsā€”interesting projects may be suggested by class members. It is assumed that students using this book have some background in food science and thus can be involved in planning the details of experiments based on the suggested exercises.
Carefully controlled experiments with appropriate replication are necessary if the results are to be meaningful and, in the case of more extensive research studies, worthy of publication. Experiments should be controlled experiments. In other words, in a simple controlled experiment one factor (independent variable) is varied while all other conditions that might affect the results are controlled as much as possible. The effects of variation of that factor on selected quality attributes of the products (dependent variables) are measured. In a study of the effect of level of oat bran on the volume of muffins, level of oat bran is the independent variable and volume of the muffins is the dependent variable.
If more than one factor is altered (there is more than one independent variable), it is difficult without more than simple statistical analysis to determine the cause of any changes that might be observed in the quality of the products. More than one factor may be varied in a more complex experiment, which is called a factorial experiment. For example, to study the effects of both sugar and salt level on the quality of yeast bread a study could be designed to look at all possible combinations of sug...

Table of contents

  1. Cover image
  2. Title page
  3. Table of Contents
  4. FOOD SCIENCE AND TECHNOLOGY: A Series of Monographs
  5. Copyright
  6. PREFACE
  7. PART I: FOOD EXPERIMENTATION
  8. PART II: FOOD SCIENCE TODAY
  9. BASIC FORMULAS AND PROCEDURES
  10. CONVERSION TABLE FOR OVEN TEMPERATURES
  11. SOURCES OF EQUIPMENT
  12. IMPROVISED TESTS
  13. TABLE FOR SENSORY DIFFERENCE TESTS
  14. INDEX
  15. FOOD SCIENCE AND TECHNOLOGY: A Series of Monographs