Lectures will address the following topics:
General introduction to food chemistry. Historical introduction to science in the kitchen. Carbohydrates: monosaccharides, disaccharides and polysaccharides. Origin and biological functions. The various types of carbohydrates found in plants and animals. Functional properties of sugars. Classification of monosaccharides, derived monosaccharides, polyalcohols, cyclic form, the case of fructose, examples of functions in some pastry recipes of the use of glucose, fructose, lactose and sucrose. Sweetening power, artificial sweeteners, granita thermodynamics. The various commercial types of sucrose, invert sugar, glucose syrup, lactose and the reaction of Maillard, caramel and candy. Fats and their biological function. Classification of fatty acids: saturated, monounsaturated, polyunsaturated, cis and trans. Triglycerides. Composition of some vegetable and animal fats. Butter, production, structure and properties, melting profile, clarified butter, production, gastronomic uses, because the cream mounts, the structure of the milk, the fat globules, the milk proteins: casein and whey protein, thermal coagulation, acid and rennet, cheeses and dairy products. Mascarpone. Proteins, their biological role, primary, secondary and tertiary structure, denaturation and coagulation. Functional properties of proteins used in gastronomy, cooking meat, Count Rumford, Justus von Liebig, the theory of pore sealing, cooking at low temperatures, collagen, important enzymes in gastronomic preparations, egg, structure and composition , composition of albumen and yolk. Culinary uses, French, Swiss and Italian meringue. Polysaccharides. Starches and their properties. Amylose and amylopectin. Functional properties. Flour, strength W, use of various types of flour, gluten, gels. Chocolate, properties of cocoa butter, polymorphism and chocolate tempera. Scientific analysis of some recipes.