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 Molymods (C,H,O, each group will need 6 carbon, 12 hydrogen & 6 oxygen)  Practical Activity 19 (PAG 9)  Repro sheet for Practical Activity 19.

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Presentation on theme: " Molymods (C,H,O, each group will need 6 carbon, 12 hydrogen & 6 oxygen)  Practical Activity 19 (PAG 9)  Repro sheet for Practical Activity 19."— Presentation transcript:

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2  Molymods (C,H,O, each group will need 6 carbon, 12 hydrogen & 6 oxygen)  Practical Activity 19 (PAG 9)  Repro sheet for Practical Activity 19

3  Know about monosaccharides  Compare alpha and beta glucose molecules  Describe the ring structure and properties of glucose and ribose  Compare hexose and pentose monosaccharides  Explain the formation and breakage of glycosidic bonds  Carry out benedict’s test for reducing sugars

4  C 6 H 12 O 6

5  A3 Memory Game

6  What are the differences? - Compare alpha and beta glucose molecules

7 Remember you can check you’ve done it right by counting the number of C,H,Os and that they all have the right number of bonds - Compare alpha and beta glucose molecules

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9  Make model of alpha glucose and beta glucose using page 93 of the textbook and the molymods - Compare alpha and beta glucose molecules

10 - Describe the ring structure and properties of glucose and ribose - Compare hexose and pentose monosaccharides

11  Hexose = 6 carbon atoms  Pentose = 5 carbon atoms - Describe the ring structure and properties of glucose and ribose - Compare hexose and pentose monosaccharides

12  Alpha glucose  Maltose  Amylose  Monosaccharide  Disaccharide  Polysaccharide  Glycosidic bonds form between two glucose molecules by a condensation reaction - Explain the formation and breakage of glycosidic bonds

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14  Sucrose  Fructose + Glucose  Lactose  Glucose + Galactose  Maltose  Glucose + Glucose - Explain the formation and breakage of glycosidic bonds Sucrose Maltose

15  Qualitative Testing: Food Tests  You will need in your lab book:  A method for one of the food tests  Results tables for all the food tests  Photos of all the food tests  To be completed by the end of lesson 6 biological molecules

16  What is the colours of the positive and negative test for:  Starch?  Glucose? Practical Skills: Evaluative Analysing experiment - Carry out benedict’s test for reducing sugars

17 1. Add sample to a test tube 2. Add Benedict’s solution and put in a water bath, heat sample. 3. Positive test will show a brick red and a range of colours between depending on amount. - Carry out benedict’s test for reducing sugars

18 1. Add sample to a test tube 2. Add HCl, heat for 5 mins 3. Sodium hydrogen carbonate to neutralise 4. Add Benedict’s solution and put in a water bath, heat sample. 5. Positive test will show a brick red and a range of colours between depending on amount. - Carry out benedict’s test for reducing sugars

19 1. Add sample to a well in a spotting tile 2. Add iodine solution to the well 3. Positive result will show a colour change from orange/brown to blue/black - Carry out benedict’s test for reducing sugars

20 Testing forDescriptionNegative Result Positive Results StarchAdd iodineBrownBlue/black Reducing SugarAdd Benedict’s Heat to 80 o C BlueOrange/Red Non-reducing sugar Negative to RS Boil in acid Neutralise Add Benedict’s Heat to 80 o C BlueOrange/Red

21 1. Sketch alpha and beta glucose in their simplest form to show their structural differences 2. What type of reaction forms a glycosidic bond?  Condensation - Compare alpha and beta glucose molecules - Describe the ring structure and properties of glucose and ribose - Compare hexose and pentose monosaccharides - Explain the formation and breakage of glycosidic bonds - Carry out benedict’s test for reducing sugars

22 3. Sketch in full the alpha glucose structure 4. What is lactose an example of?  Disaccharide 5. What monosaccharides are sucrose made from?  Glucose & Fructose - Compare alpha and beta glucose molecules - Describe the ring structure and properties of glucose and ribose - Compare hexose and pentose monosaccharides - Explain the formation and breakage of glycosidic bonds - Carry out benedict’s test for reducing sugars

23  Write up practical in lab book, must include:  method for Reducing Sugar  Results for reducing sugar and iodine test  Photos of results

24  Make 2 alpha glucose molecule and join them together by a glycosidic bond to make maltose  Get your teacher to check your model  Join your maltose model with another groups’ to make amylose

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