fats and natural rubber module 3 carbon compounds with answers
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fats and natural rubber module 3 carbon compounds with answers
- 2. Saturated fat Fat molecule that has no carbon –carbon double bonds Unsaturated fat Fat molecule that has at least ONE carbon –carbon double bonds
- 3. Oil Liquid at room temperature and found in plants Fat Solid at room temperature and found in animals
- 4. Glycerol An alcohol that has 3 hydroxyl group in 1 molecule Fatty Carboxylic acid that has a acids long chain carbon, about 10 to 20 carbon atoms and has only one carboxyl group
- 5. Examples Coconut oil, corn oil of oils Examples of fats Meat, butter, cheese
- 6. Examples of saturated Meat, butter, cheese fats Examples of unsaturated Soybeans, peanuts, sunflower fats seeds, maize
- 7. cholesterol White, fatty substance that make blood vessels become hard and narrow Hydrogenation Addition of hydrogens to the double bonds between 2 carbon atoms
- 8. a) State 2 similarities between fats and oils? •Both are esters •Both occur naturally in living tissues of organisms
- 9. b) Fill in the table below to list differences between oils and fats Oils Fats a)sources Plants and Animals animals • Physical liquid solid state a)Melting Lower than Higher point 20 oC than 20 o C
- 10. c) Fill in the table below to list differences between saturated and unsaturated fats Unsaturated Saturated fats fats ( C=C) (C-C) a)Proportion of More More saturated molecules unsaturated molecules than between molecules than unsaturated saturated and saturated molecules unsaturated molecules fats
- 11. c) Fill in the table below to list differences •between saturated and unsaturated fats Unsaturated Saturated fats fats ( C=C) (C-C b) Physical Mostly Mostly solids state at liquids room temp
- 12. c) Fill in the table below to list differences •between saturated and unsaturated fats Unsaturated Saturated fats fats ( C=C) (C-C) c) Melting Lower Higher melting point melting point point
- 13. c) Fill in the table below to list differences •between saturated and unsaturated fats Unsaturated Saturated fats ( C=C) fats d) sources Plants and (C-C) Animals vegetables
- 14. d) Why do unsaturated fats turn bad or spoil easily? They contain carbon-carbon double bond that can easily reacts in the air.
- 15. e) Explain how unsaturated fats can be changed to saturated fats? •Through catalytic hydrogenation Where carbon-carbon double bond absorbs one mole hydrogen •The process is carried out by bubbling hydrogen gas through hot liquid oil in the presence of fine particles of nickel catalyst at temp of 200 o C and pressure 4 atm
- 16. Answer the following questions •FATS Oils and fats are esters Carboxylic + Alcohol Fats or + water acids oil Glycerol or 1,2,3- Fatty acid propanetriol Has a very long chain carbon, (about 10-20 atoms) Examples, palmitic acids, stearic acids, linoleic acids
- 17. a) From diagram above, what is glycerol?Draw its molecular formula • Glycerol is an alcohol with three hydroxyl group in one molecule of glycerol
- 18. b) From diagram above, what is the difference between a fat molecule and a fatty acid molecule? •A fat molecule is formed when long- chained carboxylic acid reacts with alcohol with three OH-groups (glycerol) •A fatty acid molecule is carboxylic acid molecule that has a long chain carbon atom ( about 10- 20 atoms)
- 19. c) Hexanoic acid and pentanol react together to form a product. Name the product formed and state its homologous series Name of product: pentyl hexanoate Homologous series : ester
- 20. •Can hexanoic acid and pentanol react together to form Fat or Oil? Explain your answer No, because hexanoic acid is a short chain carboxylic acid with carbon atoms only 6 atoms and pentanol is not a glycerol
- 21. •Can decanoic acid and glycerol react together to form Fat or Oil? Explain your answer Yes, because decanoic acid is a long chain carboxylic acid with carbon atom is 10 and reacts with glycerol
- 22. a) List examples of natural polymers and their monomers
- 23. •Complete the structural formula of natural rubber in the diagram below
- 24. •Or draw the structural formula of natural rubber in a simpler form
- 25. *** draw structure of its monomer! 2-METHYLBUT-1,3-DIENE
- 26. b) State the properties of natural rubber •White ……SOLID……… at room temperature •Elasticity that ………DECREASE …… overtime •Soft •Sensitive to …………HEAT..
- 27. •State 3 uses of natural rubber •In the making of tyres, footwear, rubber threads, rubber foam, conveyor belts and bitumen roads •Buildings built on rubber blocks or rubber bearings to help absorb vibration •Making of gloves, tubes and hoses
- 28. •Latex is a …………COLLOID………… •It consists of ……RUBBER PARTICLES particles dispersed in ……WATER… •Each rubber particle is made-up many long- chain ………RUBBER………..molecules enclosed by a ………PROTEIN..-like membrane which is ……NEGATIVELY-charged
- 30. Process 1 The repulsion between the …… NEGATIVELY …..charged particles prevent the ……RUBBER particles from coming close to each OTHER THEREFORE LATEX COULD NOT COAGULATE
- 31. Process 2 •When an ACID is added to latex, OR when latex is exposed to AIR , the BACTERIA ..from the air enters the latex and produce LACTIC acid that form HYDROGEN …ions. This HYDROGEN ….ions neutralize the NEGATIVE charges on the protein membrane.
- 32. Process 3 •The rubber PARTICLES can now come close together. This enable them to COLLIDE .with one another resulting in the BREAKAGE of the protein membranes.
- 33. Process 4 •a) the collision between the rubber particles cause the membrane to break •B) the rubber molecules inside the membranes are now set free Draw diagram .
- 34. Process 5 •The rubber molecules COMBINE …… with one each other and clump together . The latex is now coagulated
- 35. iv) Describe how to prevent the coagulation of latex By adding AMMONIA ….solution, that contains …HYDROXIDE ……….ions which …NEUTRALIZE ………. the acid produced by the bacteria . Therefore rubber particles remain … NEGATIVELY…… charged and the coagulation is PREVENTED
- 36. VULCANISED RUBBER a) What is meant by vulcanization of rubber? ADDITION OF SULPHUR TO RUBBER AT 140 OC AND HIGH PRESSURE IN THE PRESENCE OF ZINC OXIDE AS THE CATALYST
- 37. b) In industry, how does the vulcanization of rubber is carried out? By heating latex with SULPHUR or a solution of sulphur monochloride in methylbenzene as solvent
- 38. c) Describe how sulphur atoms change the properties of rubber •In vulcanization , sulphur ….atoms form cross-link …between rubber molecules •These cross – LINK prevent rubber MOLECULES from sliding too much when STRETCHED •The rubber molecules return to their ORIGINAL ….. position after being stretched.
- 39. d) Draw cross-linkage of sulphur
- 40. e) Compare and contrast the properties of vulcanized and unvulcanised rubber •Similarities Both are ELASTIC Both are HEAT AND ELECTRICAL INSULATORS
- 41. •Differences Vulcanised Differences Unvulcanis ed rubber More elastic Elasticity LESS elastic Harder Hardness SOFTER More tensile Tensile strength LESS strength tensile strength
- 42. •Differences Vulcanised Differences Unvulcanis ed rubber More Resistance to LESS resistance to heat resistance heat to heat LESS SOLUBLE Effect of MORE organic solvents SOLUBLE
- 43. f) State one advantage of natural rubber over synthetic rubber Only natural rubber can take the tremendous STRESS, STRENGH AND HEAT ………produced during landing and taking off of an aero plane