1. Functional properties of food

2. Year 11: Objectives What Understand functional properties of foods How Research into functional properties and their uses Why To be able to apply them to your own learning and when preparing food for others Bronze Identify the functional properties of protein, starch, sugar, fats and oils Bronze Identify the functional properties of protein, starch, sugar, fats and oils Silver Be able to explain the functional properties of different food groups and what happens when heat is applied Silver Be able to explain the functional properties of different food groups and what happens when heat is applied Gold Predict what happens to the properties of different foods at key temperatures, being able to describe in detail the terms gelatinisation, gel, suspension and modified starch Gold Predict what happens to the properties of different foods at key temperatures, being able to describe in detail the terms gelatinisation, gel, suspension and modified starch Outcomes

3. Carbohydrates - Starch 2 main types of carbohydrates – Starch, found in flour, potatoes, pasta, rice and bread – Sugars, found in fruits, drinks and sweet baked products – Modified starch is used in commercial production

4. Types of starch Obtained from cereals such as wheat and maize – Wheat flour – Cornflour – Arrowroot

5. Uses of starch Bulking – forms the main structure of a product e.g. In biscuits, cakes and pastry. Thickening agent – Raw starch tastes floury – Needs to be cooked

6. Gelatinisation 1.Starch particles do not dissolve in cold liquid, they form a suspension. 2.If the liquid isn’t stirred, the starch granules sink to the bottom, stick together and form lumps. 3.At 60˚C, the starch granules begin to absorb the liquid and swell. 4.At 80˚C, the granules will have absorbed 5x their volume until they burst open, releasing starch into the liquid. 5.Gelatinisation is complete when the liquid reaches 100˚C. 6.When the sauce cools, it gets even thicker, setting into a gel.

7. Heat starch granules in liquid Starch granules become swollen at 60˚C Starch granules burst at 80˚C The liquid thickens and gelatinizes at 100˚C Starch gelatinizes when heated in a liquid, producing a thickened liquid

8. Effects of Heat

9. Egg White starts to coagulate until it turns from a liquid to a solid. Egg yolk continues to cook until it becomes dry and hard. Over cooking – green and black ring [iron sulphur] forms around the yolk.

10. Cheese Fat in the cheese melts and separates. Protein coagulates and shrinks. Over cooking makes cheese tough and stringy. Makes the cheese hard to digest.

11. Meat Kills bacteria. Makes it tender. Improves flavour. As the heat increases the structure of the meat tightens and it becomes firmer. Meat shrinks in size. Colour changes Fat melts.

12. Pasta - carbohydrate Starch grains start to soften. The pasta absorbs water and swells in size. Change of colour. As the temperature increases the starch escapes.

13. Vegetables Makes the food more digestible. Reduces the bulk. Vitamins can be lost in water – leached out. (water soluble vitamins B and C) Heat destroys vitamins. Over cooking softens the structure.

14. Sugar Dry heat converts the Starch into a simple sugar DEXTRIN. Further cooking cause caramelisation. Sugar is heated to very high temperature, turns brown and thickens adding flavour. Over cooking blackens the mixture.

15. Bread Flour forms the structure. When the bread is cooked dextrinisation occurs. Starch from the flour is converted into sugar, which is caramelised giving the bread colour.

16. Why cook foods? Destroys bacteria. Short term preservation. Makes food easier to digest. More appealing and attractive. Warm meal. Enhance flavours.