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The objective of this book is to provide single platform for preparation of competitive examinations in Food Science and Technology discipline. The book contains over 10000 objective questions on the subjects such as Food Chemistry, Food Microbiology, Food Engineering, Dairy Technology, Fruits and Vegetables Technology, Cereals Technology, Meat Fish and Poultry Processing, Food Additives, Foods and Nutrition, Bioprocess Technology, Food Packaging, food Analysis, Functional Foods, Emerging Food Processing Technologies, Food Biochemistry and Miscellaneous topics. The book also contains 1500 subjective keynotes for above mentioned topics. Previous five years (2013-2017) ICAR NET Exam solved question papers (memory based) are also included in this addition. Special Features of the Book: 1. More than 10,000 MCQs for ASRB-NET, ICAR JRF-SRF and IIT GATE examination 2. Five years ICAR-NET solved question papers 3. Revised and updated 1500 subjective keynotes.
Abstract: A novel reference text for food scientists and technologists, nutritionists, analytical chemists, and microbiologists concerned with sensory evaluation provides a broad overview of food texture measurement that covers both subjective (sensory evaluation) and objective (instrumental analysis) aspects of food texture asessments. Included are discussions and information concerning rheology and microstructure analysis, psychophysics, and product testing and product optimization. Numerous illustrations, graphs, and tables are presented throughout the text, and literature citations are appended to each of the 12 text chapters. Each of the chapters was prepared by experts in their respective areas of study.
Food Science and Technology: A Series of Monographs: Food Texture and Viscosity: Concept and Measurement focuses on the texture and viscosity of food and how these properties are measured. The publication first elaborates on texture, viscosity, and food, body-texture interactions, and principles of objective texture measurement. Topics include area and volume measuring instruments, chemical analysis, multiple variable instruments, soothing effect of mastication, reasons for masticating food, rheology and texture, and the rate of compression between the teeth. The book then examines the practice of objective texture measurement and viscosity and consistency, including the general equation for viscosity, methods for measuring viscosity, factors affecting viscosity, tensile testers, distance measuring measurements, and shear testing. The manuscript takes a look at the selection of a suitable test procedure and sensory methods of texture and viscosity measurement. Discussions focus on nonoral methods of sensory measurement; correlations between subjective and objective measurements; variations on the texture profile technique; and importance of sensory evaluation. The publication is a vital source of information for food experts and researchers interested in food texture and viscosity.
Principles of Food Science incorporates science concepts into a lab-oriented foods class. This text shows how the laws of science are at work in foods prepared at home and by the food industry. Each chapter includes engaging features focusing on such areas as current research, technology, and nutrition news. Through lab experiments in the text and Lab Manual, students will practice scientifi c and sensory evaluation of foods. They will discover how nutrients and other food components illustrate basic chemistry concepts. They will examine the positive and negative impacts microorganisms have on the food supply. Students will also explore the variety of careers available to workers with a food science background.
Many statistical innovations are linked to applications in food science. For example, the student t-test (a statistical method) was developed to monitor the quality of stout at the Guinness Brewery and multivariate statistical methods are applied widely in the spectroscopic analysis of foods. Nevertheless, statistical methods are most often associated with engineering, mathematics, and the medical sciences, and are rarely thought to be driven by food science. Consequently, there is a dearth of statistical methods aimed specifically at food science, forcing researchers to utilize methods intended for other disciplines. The objective of this Brief will be to highlight the most needed and relevant statistical methods in food science and thus eliminate the need to learn about these methods from other fields. All methods and their applications will be illustrated with examples from research literature. ​
The Book Presents A Clear And Systematic Account Of The Composition And Nutritive Value Of Different Types Of Foods. Cereals, Pulses, Nuts, Milk, Vegetables, Fruits And Spices Have Been Discussed In Considerable Detail. Fats And Oils, Sugar And Various Beverages And Appetisers Have Also Been Explained. Separate Chapters Have Been Devoted To Eggs And Flesh Foods. Ways Of Evaluating Food Quality Alongwith Food Preservation Have Been Explained In Detail. Various Food Laws And Standards In Relation To Adulteration Have Been Highlighted Alongwith The Recent Trends In Food Technology. With Its Detailed Coverage And Simple Style Of Presentation, This Is An Essential Text For Home Science Students. This Book Is Also A Valuable Reference Source For Anyone Interested In Knowing More About Food And Nutrition.
This second edition laboratory manual was written to accompany Food Analysis, Fourth Edition, ISBN 978-1-4419-1477-4, by the same author. The 21 laboratory exercises in the manual cover 20 of the 32 chapters in the textbook. Many of the laboratory exercises have multiple sections to cover several methods of analysis for a particular food component of characteristic. Most of the laboratory exercises include the following: introduction, reading assignment, objective, principle of method, chemicals, reagents, precautions and waste disposal, supplies, equipment, procedure, data and calculations, questions, and references. This laboratory manual is ideal for the laboratory portion of undergraduate courses in food analysis.