knox aca y s4 chemistry - welcome | knox academy€¦ · · 2016-03-22to demonstrate you have...
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Knox Academy S4 Chemistry
Chapter 2.1: Plants and their Products 55
Chapter 2.1: Plants and their Products
In this chapter, you will learn about the importance of plants and the products which they produce. You will develop an understanding of how the raw products produced by plants may be altered by chemists to produce consumer products which you rely upon for your everyday life.
Plants are responsible for generating the majority of raw materials used by industry to produce consumer products from breakfast cereal to shampoo. Without plants we would not be able to remain alive. Plants and their products are used to manufacture and design pharmaceuticals, soaps, cosmetics, dyes, medicines, foods and food colourings.
Many plants produce specific compounds in the form of essential oils. Humans use these essential oils to manufacture a variety of cosmetics, medicines and complementary therapies.
Activity 2.1: Plant Products
Read the following paragraph and use the information which it contains to copy and complete the table that follows.
“If we study the ingredients lists of many cosmetics and personal hygiene products we find they are produced from substances extracted from plants. Toothpaste is made of alginate (extracted from seaweed), titanium dioxide and spearmint or peppermint essential oils for a fresh minty taste. Shampoos, conditioners and shower gels are usually made from a base of plant sterol compounds which have an unpleasant scent. To encourage consumers to buy their product, manufacturers add essential oils to improve the smell. Such essential oils include lemon, rosemary and orange. Lavender essential oils are often added to a wide range of consumer products, as they are attributed to calm the body, reduce pain and improve a sense of well-being. Products containing lavender oils include hand creams, body lotions, bubble bath and massage oils. Eucalyptus oil is said to be a powerful decongestant, and is often added to inhalation preparations associated with treating colds and coughs. Many of the preparations and fillings used by dentists contain clove oil. Clove oil is associated with anaesthetic and anti-inflammatory properties.”
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Knox Academy S4 Chemistry
Chapter 2.1: Plants and their Products 56
Consumer Product Plant Source / Product Reason for use Toothpaste Provides a gel to hold
titanium dioxide Spearmint or Peppermint
Oils
Shampoo Bubble Bath
Inhalation oil e.g. Karvol Massage Oil Dental Filling
Essential oils can be extracted from plant material by the process of steam distillation. We can carry out small scale steam distillation in the laboratory. The quantity and quality of the oil produced is determined by the original plant material used.
Activity 2.2: Steam Distillation
Watch your teacher demonstrate the process of steam distillation.
(a) Draw a labelled sectional diagram of the apparatus used. (b) Colour the area where evaporation takes place red. (c) Colour the area where condensation takes place blue. (d) The distillate contains a mixture of water and essential oils, suggest how we
could extract the essential oils from the distillate.
Plants are responsible for producing a group of compounds known as fats and oils. This group of compounds is essential for human health. They provide a rich energy source as food. Fats and oils can be broken up into glycerol and fatty acids. Fatty acids are essential for the correct functioning of our bodies and form our cell membranes. Fatty acids can be used to produce consumer products such as soaps – which are crucial to maintaining clean and healthy skin.
Activity 2.3: Producing Soap
Soap has been used as a cleaning chemical for many thousands of years. Soap is produced by a saponification reaction. This reaction is exothermic.
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Knox Academy S4 Chemistry
Chapter 2.1: Plants and their Products 57
The main chemicals used to manufacture soap are a fat or oil and an alkali solution. Fat molecules are made up of one glycerol molecule joined to three fatty acid molecules.
During the process of producing soaps, the fat molecule is hydrolysed under alkaline conditions. This produces a glycerol molecule and metal salts of the fatty acids. In order to separate the reaction mixture, saturated salt solution is added. The metal salts of the fatty acids (e.g. sodium stearate – sodium salt of stearic acid) are what we commonly call soap. Soap molecules are very special in that they are able to dissolve in both water (hydrophilic substances) and oil (hydrophobic substances).
The ionic head of the structure dissolves in hydrophilic substances whilst the covalent tail dissolves in hydrophobic substances. This dual solubility allows soap to dissolve grease and oils from our skin and suspend them in water – as happened when you had your shower this morning! You are going to manufacture soap using olive oil and sodium hydroxide solution. The soap you will make is very soft. To demonstrate you have made soap you will attempt to form a lather with hot tap water.
Materials:
250 ml beaker olive oil 2 x boiling tubes 1 mol l-1 sodium hydroxide solution large stopper Saturated sodium chloride solution 3 x 10 cm3
syringes detergent test tube rack waste bottle damp paper towel wooden splint
Glyc
erol
Fatty Acid
Fatty Acid
Fatty Acid
Ionic Head
(hydrophilic)
Covalent Tail
(hydrophobic)
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Knox Academy S4 Chemistry
Chapter 2.1: Plants and their Products 58
Method:
1. Using a syringe, place 10 cm3 1.0 mol l-1 sodium hydroxide solution in a clean boiling tube.
2. Add 5 cm3 olive oil using a separate syringe.
3. Stopper the tube and shake for 5 minutes. 4. Half fill the beaker with water from a freshly boiled kettle. 5. Remove the stopper from your boiling tube and replace with a loose plug of damp
paper towel, and place the boiling tube into the hot water. Leave for 5 minutes. 6. Remove the boiling tube from the hot water and place in a rack. Leave to cool
for 10 minutes. 7. Remove the plug of damp paper towel and add 10 cm3
of saturated sodium chloride solution using a separate syringe, stopper and shake for 30 seconds.
8. Empty the contents of the beaker and half fill once more with water from a freshly boiled kettle.
9. Remove the stopper from your boiling tube and replace with a loose plug of damp paper towel, and place the boiling tube into the hot water. Leave for 5 minutes.
10. Remove the boiling tube from the hot water and place in a rack. Leave to cool for 10 minutes without moving the rack or tube.
11. Carefully examine your boiling tube. The reaction mixture will have separated into three layers – your soap is in the lumpy solid floating on the top.
12. Using your wooden splint carefully scrape off some of the lumpy white solids and place in your second boiling tube – being careful not to take with it any of the yellow oil.
13. Add 3 cm depth of hot tap water to your soap. Stopper the tube and shake for 30 seconds. You should have produced a soapy lather.
14. Dispose of your reaction mixture into the waste bottle and wash all equipment with hot water and detergent.
Activity 2.4: Product Design
You are tasked with designing a new body lotion. The lotion is designed to be applied to minor sunburn. Using the resources available, identify three plant essential oils you should add to the base mixture to soothe the skin.
Prepare an A3 poster to present your findings in a clear and interesting manner.
Activity 2.5: Summary
Based on the work you have completed in this chapter, complete Summary 2.1
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Knox Academy S4 Chemistry
Chapter 2.2: Biochemical Reactions 59
Chapter 2.2: Biochemical Reactions
In this chapter, you will learn about the biochemical reactions that occur in living things and are necessary to sustain life. You will be introduced to the vital role plants play in maintaining a balance within the Earth’s atmosphere and the potentially devastating impact humans have upon the Earth’s wide and varied ecosystems.
Photosynthesis is the process by which green plants capture light energy in chlorophyll and use this energy to break up water into hydrogen and oxygen. Hydrogen atoms and molecules of carbon dioxide are then joined together to produce glucose – a carbohydrate. Oxygen atoms combine to form oxygen molecules that are released as a waste product. In order for a green plant to be able to carry out photosynthesis light and carbon dioxide must be present. Due to the potential for osmosis, plants store glucose molecules as starch.
Word equation for photosynthesis:
water + carbon dioxide glucose + oxygen
We can determine if the leaves of a plant are carrying out photosynthesis due to the presence or absence of starch. We test for starch using iodine solution. Iodine solution changes colour from brown to blue/black in the presence of starch.
Activity 2.6: Testing leaves for starch
Materials:
boiling tube boiling water cork borer alcohol tweezers iodine solution white tile variegated leaf 250 cm3 beaker “dark” leaf absence of carbon dioxide leaf
Method:
1. Place leaf onto white tile, and using cork borer cut a disc from the leaf ensuring you capture the white and green parts of the leaf in your disc.
2. Half-fill the large beaker with water from a freshly boiled kettle. 3. Using forceps, place leaf disc in the hot water and leave for 1 minute
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Knox Academy S4 Chemistry
Chapter 2.2: Biochemical Reactions 60
4. Place 10 drops of alcohol into bottom of boiling tube. 5. Remove leaf disc from hot water using forceps, and place in boiling tube with
alcohol. 6. Ensure disc is covered by alcohol – adding a few more drops if necessary. 7. Place boiling tube into beaker of hot water, and leave for 10 minutes. 8. Remove leaf disc from boiling tube, rinse in beaker of hot water. Retain green
coloured solution in boiling tube. DO NOT POUR DOWN SINK. 9. Spread disc out on white tile and cover with iodine solution and leave for 5 minutes
and observe colour. 10. Whilst waiting, return green coloured alcohol solution to the solvent waste bottle. 11. Repeat the experiment, using the leaves of a plant kept in the dark and the plant
grown in the absence of carbon dioxide. (a) Copy and complete the following table:
Condition
Iodine solution
Areas containing starch?
Areas carrying out photosynthesis?
variegated leaf
lack of light
absence of carbon
dioxide
(b) The chemical formula for glucose is C6H12O6. Use this to write a balanced chemical equation for the formation of glucose by photosynthesis
Plants are said to be producers as they can harness the light energy from the sun and use it to produce their own food source (glucose). Glucose is stored as starch for later use as a food by the plant.
Animals, and non-green plants such as fungi, are unable to produce their own food by photosynthesis and must eat other organisms to obtain their energy. Animals and non-green plants are said to be consumers.
Producers and consumers both release energy from their food by the process of respiration. During respiration, the energy stored in a molecule of glucose is released.
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Knox Academy S4 Chemistry
Chapter 2.2: Biochemical Reactions 62
Heat energy becomes trapped in the earth’s atmosphere rich in carbon dioxide Trapped heat energy increases the temperature of the atmosphere, leading to global warming.
In nature photosynthesis uses up carbon dioxide and releases oxygen. Whilst respiration uses up oxygen and releases carbon dioxide. Photosynthesis and respiration maintain the careful balance of gases responsible for global warming.
Human activities on Earth have upset the balance of oxygen and carbon dioxide that nature had previously maintained. If we destroy more rainforests we are decreasing the number of trees available to take in carbon dioxide from the atmosphere – this will increase the carbon dioxide concentration of the atmosphere.
HEAT
An atmosphere rich in carbon dioxde
carbon dioxide
oxygen
photosynthesis
respiration
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Knox Academy S4 Chemistry
Chapter 2.2: Biochemical Reactions 63
If we burn more fossil fuels we are pumping more carbon dioxide into the atmosphere. This will increase the carbon dioxide concentration of the atmosphere.
Without action, the carbon dioxide concentration of the atmosphere will continue to increase the rate of global warming will accelerate and sea levels will rise at a rapid rate
Activity 2.8: Summary
Based on the work you have completed in this chapter, complete Summary 2.2.
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Knox Academy S4 Chemistry
Chapter 2.3: Carbohydrates 64
Chapter 2.3: Carbohydrates In this chapter, you will learn about a group of compounds called carbohydrates. You will be able to state the chemical tests used to identify specific groups of carbohydrates, whilst also considering examples of the chemical reactions carbohydrates may be involved in. Carbohydrates are a group of compounds all containing the elements carbon, hydrogen and oxygen. They are produced by green plants as the result of photosynthesis for the storage of energy. Animals can access the chemical energy stored in their molecules by respiration. Carbohydrates can be split into two main groups, depending on their structure:
simple carbohydrates – sugars such as glucose, fructose, maltose, lactose and sucrose
complex carbohydrates – storage and structural compounds such as starch, cellulose and glycogen.
Activity 2.9: Identifying Reducing Sugars We can use Benedict’s solution to identify reducing sugars. On heating, reducing sugars cause Benedict’s solution to change colour from blue to brick red. Most simple carbohydrates are said to be reducing sugars. However one or more may give a negative result – Benedict’s solution remains blue on heating. You will test a series of simple carbohydrates to identify which are reducing sugars. Materials: 5 test tubes glucose powder 250 cm3 beaker sucrose powder test tube rack maltose powder kettle lactose powder Benedict’s solution fructose powder Method:
1. Set the kettle to boil and label the test tubes for each sugar. (G, S, M, L and F are appropriate).
2. Pour a depth of 2cm water into each test tube. 3. Place ½ a spatula measure of the appropriate sugar into the
appropriate tube. 4. Add 10 drops of Benedict’s solution to each test tube and carefully
mix.
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Knox Academy S4 Chemistry
Chapter 2.3: Carbohydrates 65
5. Half-fill the 250 cm3 beaker with water from a freshly boiled kettle. Place your test tubes in the hot water.
6. Leave for 10 minutes then examine the colour of each test tube.
(a) Draw a suitable table to record your observations in. (b) Which simple sugar are reducing sugars? (c) Which simple sugar is not a reducing sugar, and gives a negative result
with Benedict’s solution? Activity 2.10: Identifying starch We can use iodine solution to identify substances containing the complex carbohydrate starch. On contact with starch, iodine solution changes colour from brown to blue/black. You will use iodine solution to identify which foods contain the complex carbohydrate starch. Materials: bread dimple tile pasta spatula sucrose iodine solution dried egg white lentils Method:
1. Place a small sample of the solid food in a dimple of the dimple tile. 2. Add 3 drops of iodine solution. 3. Observe the colour.
(a) Record your results in a suitable table. (b) Which of the foods contained starch? What would you usually associate
these foods as being responsible for in our diet? (c) Is there a definitive chemical test for the carbohydrate sucrose?
Iodine is used a simple chemical test for the complex carbohydrate starch. No simple chemical tests exist for glycogen, cellulose or chitin. All carbohydrates are made up of subunits called saccharides joined together. Each saccharide is made up of 6 carbon atoms and their associated hydrogen and oxygen atoms. Monosaccharides are made up of a single 6 carbon unit. Disaccharides are made up of two 6 carbon units joined together.
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Knox Academy S4 Chemistry
Chapter 2.3: Carbohydrates 66
Activity 2.11: Simple carbohydrate formulae
(a) Examine the models of glucose, fructose, sucrose and maltose. Use these to help you copy and complete the table below.
sugar
No. of atoms
Formula
Monosaccharide or Disaccharide? C H O
glucose
fructose
sucrose
maltose
(b) Examine the models of glucose and fructose. What do you notice about
these two molecules? (c) Examine the models of sucrose and maltose. What do you notice about
these two molecules? Two molecules that share the same chemical formula but have different arrangements of atoms are said to be isomers. Isomers contain the same number of each type of atom, but have them arranged differently. They share the same chemical formula but different structural formulae. Due to the differences in the arrangement of atoms inside the molecule, isomers may chemically different in terms of how they react with other substances. Starch and other complex carbohydrates are formed from many smaller subunits (called monomers) joined together in a long chain (called a polymer). They are made up of many saccharide subunits joined together – forming polysaccharides molecules. In plants, many thousands of glucose molecules produced during photosynthesis are joined together to make a molecule of starch. This occurs by the process of condensation polymerisation.
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Knox Academy S4 Chemistry
Chapter 2.3: Carbohydrates 67
During a condensation reaction, two monomer molecules each lose one or more atoms so that the monomers can join together. If many monomer molecules join together a polymer is formed. The atoms lost by each monomer molecule join together to form a small molecule. e.g. Plants store the starch molecules for future use as an energy source. The enzyme phosphorylase is used by plants to speed up the chemical reaction and allow it to occur at room temperature. In order to use the glucose molecules stored in a starch molecules, the starch molecules must be hydrolysed. A hydrolysis reaction is the opposite of a condensation reaction. During a hydrolysis reaction, a small molecule is inserted between two monomers, forcing one monomer to break off from the polymer. Activity 2.12: Model Gut We eat foods rich in starch to provide our bodies with an energy source. Starch is too large a molecule to pass from our guts into our blood so before our bodies may access the energy rich molecules, a starch polymer must be broken down into glucose monomers. Our bodies use the enzyme amylase to hydrolyse starch into maltose. Maltose may then be further broken down into glucose.
glucose atoms being lost
OH HO OH HO OH HO OH HO
O HO
condensation polymerisation
O O OH part of a starch polymer
H2O H2O H2O small water molecules
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Knox Academy S4 Chemistry
Chapter 2.3: Carbohydrates 68
starch → maltose → glucose polysaccharide disaccharide monosaccharide Maltose is a reducing sugar, so we may use Benedict’s solution to detect the hydrolysis of starch into maltose. Maltose is small enough to pass through the gut wall into the blood and be transported around the body. Materials: visking tubing starch solution 2 x boiling tube amylase solution 2 x 250 cm3 beaker Benedict’s solution 4 x test tubes iodine solution filter funnel test tube rack Method:
1. Soak the visking tubing in warm tap water for 5 minutes. 2. Knot one end of the visking tubing. 3. A quarter fill a boiling tube with starch solution, add 10 drops of amylase
solution and mix gently. 4. Insert the filter funnel in the open end of the visking tubing and ¾ fill
with the starch / amylase mixture. 5. Expel all the air and carefully knot the end to make a sausage. 6. Rinse the visking tubing with cold tap water. 7. Half fill one 250 cm3 beaker and the other boiling tube with warm tap
water. 8. Place the visking tubing sausage in the boiling tube of warm water, and
then place the boiling tube in the beaker of warm water. Leave for 20 minutes in a warm place.
9. Meanwhile, draw a sectional diagram of the apparatus you have set up. The warm water contained in the boiling tube represents the blood, the visking tubing the gut wall and the starch / amylase mixture food. Label two test tubes “G” for gut and two test tubes “B” for blood.
10. After the 20 minutes are up, carefully remove the boiling tube from its water bath. Remove the visking tubing from the boiling tube and divide the water of the boiling tube between the two test tubes marked “B” for blood. Carefully cut open the visking tubing and divide the contents between the two test tubes marked “G” for gut.
11. Test one of each tube for starch and reducing sugar.
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Knox Academy S4 Chemistry
Chapter 2.3: Carbohydrates 69
(a) Copy and complete the following table.
Fluid
iodine solution
Benedict’s solution
Blood
Gut
(b) Was starch able to diffuse from the centre of the gut into the blood? (c) Why is amylase required by the human body to assist in the hydrolysis of
starch in our food? Activity 2.13: Summary Based on the work you have completed in this chapter, complete Summary 2.3
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Knox Academy S4 Chemistry
Chapter 2.4: Hydrocarbons 70
Chapter 2.4: Hydrocarbons
In this chapter, you will learn to identify the functional groups of various homologous series of hydrocarbon compounds. You will learn the rules of naming hydrocarbon molecules and be able to apply these rules. By the end of this chapter you will be able to describe the properties and general chemical reactions each homologous series of compounds is involved in.
Activity 2.14: Prior Learning
Based on the work you have completed in S1 to S3, complete Prior Learning 2.1.
The cycloalkanes are a homologous series of hydrocarbons, which all share the same general formula CnH2n. The atoms are arranged in a ring structure – with each C-C bond being single. The cycloalkanes are saturated molecules and will not rapidly decolourise bromine solution.
Activity 2.15: Cycloalkanes
Collect a set of molymod atoms. Use the molymod kit to create models of the cycloalkanes and complete the table below.
Name
No. carbon atoms
No. hydrogen
atoms
Chemical Formula
Structural Formula
cyclopropane cyclobutane cyclopentane cyclohexane cycloheptane cycloctane
Molecules can be grouped into homologous series based on their structural features. Each member of the homologous series has the same general formula and similar chemical properties. Each member of a homologous series contains one particular feature in common with the other members of the homologous series – this is the functional group of the homologous series.
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Knox Academy S4 Chemistry
Chapter 2.4: Hydrocarbons 71
Activity 2.16: Functional Groups
(a) Use a molymod kit to build a molecule of propane, propene and cyclopropane. (b) Copy and complete the table below.
Homologous
Series
Example
Structural Formulae
Functional
Group
Alkanes
Alkenes
Cycloalkanes
Isomers are compounds which share the same chemical formula but have different structural formulae. Alkenes and cycloalkanes share the same general formula CnH2n, so an alkene and its corresponding cycloalkane is an isomers.
Activity 2.17: Isomers
Use a molymod kit to build a model of propene and a model of cyclopropane.
(a) Copy and complete the table which follows. Your teacher may allow you to test samples of each chemical with bromine solution.
Homologous series
Alkene
Cycloalkane
Example
Chemical Formula
Structural Formula
Effect on bromine solution
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Knox Academy S4 Chemistry
Chapter 2.4: Hydrocarbons 72
(b) Copy: “Propene and cyclopropane are isomers – they have the same chemical formula but different structural formulae.“
(c) Do propene and cyclopropane react in the manner with bromine solution? Why?
Isomers share the same chemical formulae, therefore, simply writing the chemical formula of a substance does not clearly identify the substance. To identify a substance we must draw the full structural formula or write its systematic name.
When using systematic names there are a series of rules which should be obeyed:
1. Identify the functional group of the molecule. 2. Identify the longest chain of carbons containing the functional group. 3. Number the carbon chain from the end of the molecule to minimise the number
attributed to the functional group. 4. Write the name of the longest carbon chain, identifying the position of any
functional group e.g. C=C. 5. Identify any branches (see the table below) or side groups and their associated
carbon atoms. 6. List the branches or side groups in alphabetical order separating the branches
from the main name with a hyphen. 7. In front of the branches, list the numbers of the carbon atoms that the
branches or side chains are attached to. Separate the numbers using commas.
Structure Branch
name Number of
Branches Prefix Halogen Side group
name -CH3 methyl 1 - -I (iodine) iodo -C2H5 ethyl 2 di -Br (bromine) bromo -C3H7 propyl 3 tri -Cl chloro
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Knox A
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Knox Academy S4 Chemistry
Chapter 2.4: Hydrocarbons 74
Physical properties of a substance include the changes of physical state such as melting or boiling points. The observations made regarding a substance’s physical properties refer to the pure substance without need for participation in a chemical reaction.
Activity 2.19: Physical Properties
(a) Use the information contained within your data booklet to copy and complete the following table.
Chemical Melting Point (°C) Boiling Point (°C) Butane Pentane Hexane
But-1-ene Pent-1-ene Hex-1-ene
Cyclobutane Cyclopentane Cyclohexane
(b) On the same set of axis, with number of carbons on the x-axis and temperature on the y-axis, draw three line graphs:
i. alkane melting point ii. alkene melting point iii. cycloalkane melting point
(c) What general statements can you make regarding the melting and boiling points
of substances as the number of carbon atoms in the main chain increases?
The chemical properties of a substance detail how the substance reacts with other substances. During a chemical reaction at least one new substance is formed. Common examples of reactions involving hydrocarbons include combustion and addition.
Activity 2.20: Combustion of a Hydrocarbon
All hydrocarbon molecules are made up of hydrogen and carbon atoms only. When a hydrocarbon molecule undergoes a combustion reaction, it reacts with oxygen from the air.
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Knox Academy S4 Chemistry
Chapter 2.4: Hydrocarbons 75
In S3, you explored the products of combustion for an alkane. Watch your teacher demonstrate the combustion of an alkene.
(a) Draw a labelled sectional diagram of the apparatus used to demonstrate the products of combustion of an alkene.
(b) Cobalt chloride paper changes from blue to pink, what does this show? (c) Lime water changes from clear to cloudy, what does this show? (d) Write a word equation to show the general combustion of an alkene? (e) Write a balanced chemical equation for the combustion of the alkene you
watched being burned. (f) Imagine you repeated the experiment using cyclohexane.
i. What are the products of combustion of cyclohexane? ii. Write a balanced chemical equation for the combustion of cyclohexane.
To test if a hydrocarbon molecule is saturated or not, Bromine molecules are mixed with the molecule. If the hydrocarbon molecule is unsaturated rapid decolourisation occurs. If the hydrocarbon molecule is saturated no rapid decolourisation occurs.
The test for saturation utilises an addition reaction. During an addition reaction, atoms are added across the C=C bond. Addition of halogen atoms across the C=C bond are known as halogenation reactions. Addition of hydrogen atoms across the C=C bond are known as hydrogenation.
Activity 2.21: Halogenation
1. Using molymod atoms, build a model molecule of ethene (C2H4). 2. Build a model molecule of bromine (Br2). 3. Add the bromine atoms to the molecule of ethene across the double bond. 4. Look at the molecule you have made, what is the systematic name?
(a) Write a word equation for the reaction you have modelled. (b) Under each word in the equation, draw the corresponding structural formula. (c) Add labels to show which chemicals are saturated and which are unsaturated.
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Knox Academy S4 Chemistry
Chapter 2.4: Hydrocarbons 76
Activity 2.22: Hydrogenation
1. Using molymod atoms, build a model molecule of pent-2-ene (C5H10). 2. Build a model molecule of hydrogen (H2). 3. Add the hydrogen atoms to the molecule of pent-2-ene across the double bond. 4. Look at the molecule you have made, what is the systematic name?
(a) Write a word equation for the reaction you have modelled. (b) Under each word in the equation, draw the corresponding structural formula. (c) Add labels to show which chemicals are saturated and which are unsaturated.
Alkanes may be converted into alkenes by cracking – where long chain alkanes are broken down into shorter carbon chains. During the process of cracking at least one unsaturated product is made due to insufficient hydrogen atoms being available in the parent molecule to make all saturated products.
Activity 2.23: Cracking Octane
1. Using molymod atoms, build a model molecule of octane (C8H18). 2. Split the molecule in two, to make a molecule of butane (C4H10). 3. Form a molecule with the remaining atoms. (You may need to use some different
shaped bonds to fill on the spaces – do not add any additional atoms). 4. Look at the model you have made, what is the systematic name?
(a) Write a word equation for the reaction you have modelled. (b) Under each word in the equation, draw the corresponding structural formula. (c) Add labels to show which chemicals are saturated and which are unsaturated.
Alkanes may also be converted into alkenes by the process of dehydrogenation. During dehydrogenation, two hydrogen atoms are removed from an alkane molecule. Saturated alkanes are therefore converted into unsaturated alkenes.
Production of alkenes by dehydrogenation is of special significance in meeting the demands of the plastic industry for raw materials.
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Knox Academy S4 Chemistry
Chapter 2.4: Hydrocarbons 77
Activity 2.24: Dehydrogenation
1. Using molymod atoms, build a model molecule of hexane (C6H14). 2. Remove 2 hydrogen atoms – 1 each from carbons 3 and 4. 3. Form a molecule hydrogen (H2). 4. Reform the hydrocarbon molecule, ensuring all valencies are filled. (You may
need to use some different shaped bonds to fill on the spaces – do not add any additional atoms).
5. Look at the model you have made, what is the systematic name?
(a) Write a word equation for the reaction you have modelled. (b) Under each word in the equation, draw the corresponding structural formula. (c) Add labels to show which chemicals are saturated and which are unsaturated.
Activity 2.25: Summary
Based on the work you have completed in this chapter, complete Summary 2.4
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 78
Chapter 2.5: Alcohols In this chapter, you will learn that the alcohols are a homologous series of compounds containing carbon, hydrogen and oxygen atoms. You will be able to identify the functional group common to all alcohol molecules. You will be able to state the types of chemical reactions different classes of alcohols are involved in.
The alcohols are a homologous series of compounds. They share similar chemical properties and the same general formula. Alcohols are also known as the alkanols.
Each alcohol molecule contains at least one hydroxyl group (-OH). Hydroxyl is the functional group of alcohol molecules.
Activity 2.26: Homologous series
1. Using molymod atoms, build a model of the simplest alcohol methanol (CH3OH) 2. Using molymod atoms, build a model of the next member of the homologous
series - ethanol (C2H5OH). 3. Using molymod atoms, build a model of the next member of the homologous
series – propanol (C3H7OH). 4. Look at the models and try to identify the general formula of the alcohol series. 5. Copy and complete the following table.
Name Chemical Formula Full Structural Formula
Shortened Structural Formula
Methanol CH3OH Ethanol C2H5OH Propanol C3H7OH Butanol Pentanol Hexanol Heptanol Octanol
Alcohols follow the same rules for systematic naming as hydrocarbons. When naming alcohols we must first identify the carbon atom to which the hydroxyl group is attached, and ensure this receives the lowest possible number in the chemical name of the substance.
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 79
e.g. pentan-1-ol pentan-3-ol
Pentan-1-ol and Pentan-3-ol share the same chemical formula but have different structural formulae. Pentan-1-ol and Pentan-3-ol are isomers.
Activity 2.27: Isomers
1. Using molymod atoms, build a model of propan-1-ol 2. Using molymod atoms, build a model of an isomer of propan-1-ol. 3. Draw the full structural formulae and shortened structural formulae for each
alcohol and give their systematic names.
Alcohols are harmful to health. Most alcohols are toxic if consumed even in small quantities e.g. methanol causes blindness and brain damage. Alcoholic drinks contain the alcohol ethanol. If consumed in sufficient quantities ethanol will cause brain damage and eventually death.
Yeast cells act on sugars to produce ethanol by anaerobic respiration. Anaerobic conditions arise in the absence of insufficient oxygen to allow for aerobic respiration. Fermentation is another word used to describe anaerobic respiration.
Activity 2.28: Production of ethanol by yeast
Materials:
boiling tube boiled sugar solution stopper with delivery tube lime water test tube cooking oil test tube rack brewers’ yeast
Method:
1. Add 10 cm3 of sugar solution in a clean boiling tube. 2. Add 2 to 3 yeast granules.
C5 C4 C3 C2 H H H
H H H
H C1
H
H OH
H H C5 C4 C3 C2 H H H
H H H
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H OH
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 80
3. Carefully, pour a thin layer of oil over the sugar solution – it may help to tilt the boiling tube as you pour in the oil.
4. Pour a 3 cm depth of lime water in the test tube. 5. Arrange both the boiling tube and test tube in the test tube rack. 6. Place the stopper in the boiling tube, and the end of the delivery tube in the
lime water as shown in the photograph opposite. 7. Leave the equipment overnight before examining the lime water and smelling the
contents of the boiling tube. 8. Wash all equipment with hot soapy water before returning.
(a) Draw a labelled sectional diagram of the equipment. (b) What change occurred in the lime water? Which gas must have been produced? (c) Why was boiled sugar solution used? (d) Why was oil poured over the sugar solution in the boiling tube? (e) Describe the smell of the contents of the boiling tube.
During aerobic conditions, yeast react glucose with oxygen to release energy, and produce carbon dioxide and water.
(f) Write a balanced chemical equation for aerobic respiration in yeast.
During anaerobic conditions, yeast do not have enough oxygen available to react it with glucose. Instead, yeast break up glucose into carbon dioxide and ethanol.
(g) Write a balanced chemical equation for anaerobic respiration in yeast.
All chemical reactions in nature are only possible at environmental conditions due to a group of chemicals called enzymes. Aerobic respiration, anaerobic respiration and photosynthesis all rely on enzymes. Without enzymes biochemical processes would not be able to occur at temperatures found in the environments living things inhabit.
Enzymes:
are biological catalysts are present in every living cell reduce the temperature at which chemical reactions can occur at are sensitive to changes in temperature and pH operate best at their optimum conditions
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 81
Activity 2.29: Effect of pH on enzyme activity
Catalase is an enzyme found in every living cell, it is responsible for catalysing the breakdown of potentially harmful peroxides into harmless oxygen gas and water. We can measure the relative activity of catalase by studying the volume of foam produced when the oxygen gas is captured in bubbles by detergent. High concentrations of catalase are found in potatoes – these will be used as the source for our experiments.
Experiment 1:
Materials:
5 test tubes 10 vol hydrogen peroxide solution test tube rack 0.1 mol l-1 hydrochloric acid 1 x 10 cm3 syringe 0.01 mol l-1 hydrochloric acid 2 x 1 cm3 syringes 0.001 mol l-1 hydrochloric acid catalase suspension 0.0001 mol l-1 hydrochloric acid detergent ruler
Method:
1. Label your test tubes a to e. 2. To each test tube add the following:
Tube Volume of hydrogen peroxide (cm3)
Volume of water (cm3)
Volume of acid (cm3)
Concentration of acid (mol l-1)
a 8 1 0 n/a b 8 0 1 0.0001 c 8 0 1 0.001 d 8 0 1 0.01 e 8 0 1 0.1
3. Add 3 drops of detergent to each test tube and mix gently – DO NOT SHAKE. 4. Add 1 cm3 of catalase suspension to each test tube. 5. Leave for 10 minutes and then measure the height of foam produced in each
tube. Record your results in a suitable format. 6. Thoroughly rinse each test tube.
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 82
Experiment 2:
Materials:
5 test tubes 10 vol hydrogen peroxide solution test tube rack 0.1 mol l-1 sodium hydroxide 1 x 10 cm3 syringe 0.01 mol l-1 sodium hydroxide 2 x 1 cm3 syringes 0.001 mol l-1 sodium hydroxide catalase suspension 0.0001 mol l-1 sodium hydroxide detergent ruler
Method:
1. Label your test tubes f to j. 2. To each test tube add the following:
Tube Volume of hydrogen peroxide (cm3)
Volume of water (cm3)
Volume of sodium
hydroxide (cm3)
Concentration of sodium hydroxide
(mol l-1) a 8 1 0 n/a b 8 0 1 0.0001 c 8 0 1 0.001 d 8 0 1 0.01 e 8 0 1 0.1
3. Add 3 drops of detergent to each test tube and mix gently – DO NOT SHAKE. 4. Add 1 cm3 of catalase suspension to each test tube. 5. Leave for 10 minutes and then measure the height of foam produced in each
tube. Record your results in a suitable format.
(a) Copy and complete the table below:
tube pH height of foam (cm) tube pH height of foam (cm) a 2 f 7 b 3 g 10 c 4 h 11 d 5 i 12 e 7 j 13
(b) Plot a line graph of your results (c) How would you describe the shape of your graph? (d) Label the maximum point on your graph “optimum”.
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 83
Activity 2.30: Effect of temperature on enzyme activity
Materials:
5 test tubes 10 vol hydrogen peroxide test tube rack detergent 250 cm3 beaker catalase suspension ice bath 40 °C water bath 60 °C water bath 90 °C water bath thermometer ruler
Method:
1. Label your test tubes a to e. 2. Into each test tube place 9 cm3 hydrogen peroxide solution and add 3 drops of
detergent. Mix gently but do not shake. 3. Half fill your 250 cm3 beaker with cold tap water. 4. Add 1 cm3 of catalase suspension to each test tube. 5. Place test tube a in the ice bath, tube b in the beaker of cold water, tube c in
the 40 °C water bath, tube d in the 60 °C water bath and tube e in the 90 °C water bath.
6. Using your thermometer measure the exact temperature of each water bath in °C. A water bath thermostat is never an accurate measurement of the temperature of the water bath.
7. Leave for 10 minutes, then measure the height of foam produced in each tube.
(a) Copy and complete the table below:
tube temperature (°C) height of foam (cm) a b c d e
(b) Plot a line graph of your results. (c) How would you describe the shape of your graph? (d) Label the maximum point on your graph “optimum”.
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 84
The optimum conditions for an enzyme are the conditions at which it catalyses the reaction best. When an enzyme catalyses the reaction the best, we see the maximum rate of reaction or greatest quantity of product made per unit time.
Ethanol is drug. If we consume a large volume of ethanol, then we can reduce our ability to co-ordinate movement and increase the length of time it takes for us to respond to the events going on in the environment around us. We can measure the difference in quantities of ethanol consumed by looking at the number of units a bottle of alcoholic drinks contain.
Number of Units Drinks 1
25 ml measure of spirits (Vodka, Gin, Whisky)
125 ml glass of wine
2 1 pint of beer or lager
330 ml bottle of alcopop It takes our body approximately one hour to get rid of each unit of ethanol, after we have stopped drinking alcohol.
(a) If you were to drink 4 pints of beer, finishing your last pint at 1 am. At what time the following morning would you have got rid of all the alcohol from your body?
The current advice from the Department for Health states that men and women should monitor and limit their drinking to the following:
Men should drink no more than 21 units of alcohol per week, with no more than 4 units of alcohol consumed in any one day. Two days of each week should be alcohol free.
Women should drink no more than 14 units of alcohol per week, with no more than 3 units of alcohol in any one day. Two days of each week should be alcohol free.
During pregnancy women are advised not to drink alcohol at all. If an expectant mother does drink alcohol she should limit herself to 1 to 2 units of alcohol once or twice a week. Under no circumstances should an expectant mother become drunk. Alcohol severely affects the development of their unborn child.
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 85
Ethanol is produced by the fermentation of sugars found in fruits and vegetables. The type of alcoholic drink produced depends on the type of fruit or vegetable used.
Activity 2.31: Alcohol sources
Copy and complete the following table, using classroom resources.
Type of Alcoholic Drink
Source of sugars / carbohydrate
Vodka
Whisky
Beer
Cider
Wine
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 86
Yeast are also susceptible to high ethanol concentrations. If the alcohol concentration of environment yeast cells are kept in exceeds 14 %, most yeast cells will die. Therefore the maximum concentration of ethanol that can be produced in a solution is 14 %.
Spirits contain a minimum of 36% alcohol. To increase the concentration of alcohol in a solution above 14%, manufacturers use distillation.
Activity 2.32: Distillation of ethanol
Watch your teacher demonstrate the distillation of ethanol from a mixture of ethanol and water.
(a) Draw a labelled sectional diagram of the apparatus. (b) Colour the areas where evaporation takes place red, and the areas where
condensation takes place blue. (c) What physical property of water and ethanol is being exploited to allow for the
separation to take place by distillation?
Ethanol is an important chemical. It is used as a solvent, disinfectant and as a fuel. Production of ethanol by fermentation and subsequent distillation cannot produce sufficient quantities to meet demand. Industry can produce ethanol by the catalytic hydration of ethene.
Activity 2.33: Catalytic Hydration of Ethene
1. Using molymod atoms, build a molecule of ethene (C2H4). 2. Using molymod atoms, build a molecule of water (H2O). 3. “React” the two models together to form ethanol (C2H5OH). 4. Write a word equation, balanced chemical equation and a structural formula
equation for the “reaction” you have just performed.
Adding water onto another molecule is called hydration. Industry uses a phosphoric acid catalyst, high temperatures and pressures to achieve the product ethanol by catalytic hydration of ethene. Most alcohols, other than ethanol for human consumption, are manufactured by the catalytic hydration of their corresponding alkene.
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 88
(a) Draw a labelled sectional diagram of the apparatus you have used. (b) What happened to the colour of the bromine solution in which the products of
catalytic dehydration of ethanol were bubbled? What does this show? (c) When bromine solution was added to ethanol solution, did you observe a change
in colour? What does this show? (d) What was the purpose of the:
i. aluminium oxide powder? ii. mineral wool support?
Ethanol and other alcohols may be used as fuels. Alcohols may undergo a combustion reaction with oxygen gas from the air or be used in fuel cells to produce electricity.
Activity 2.35: Products of combustion of an alcohol
Watch your teacher demonstrate the combustion of alcohol.
(a) Draw a sectional diagram of the apparatus used to demonstrate the products of combustion of an alcohol.
(b) Cobalt chloride paper changes from blue to pink, what does this show? (c) Lime water changes from clear to cloudy, what does this show? (d) Write a word equation to show the general combustion of an alcohol. (e) Write a balanced chemical equation for the combustion of the alcohol you
watched being burned.
If we know the alcohol being burned, it is possible to calculate the quantities of products produced using a balanced chemical equation. In unit 1, you calculate various quantities using balanced chemical equations (see pages 42 to 54 of the notes).
Activity 2.36: Calculation of quantities from equations
Use the steps listed below to help you answer the questions that follow.
1. word equation 2. balanced chemical equation 3. mole ratio 4. calculate the “known” number of moles 5. calculate the “unknown” number of moles 6. calculate the “unknown” quantity required
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 89
(a) 2.3 g of ethanol was burned in a spirit burner, calculate the mass of carbon dioxide produced during the combustion reaction.
(b) 1.85 g of butan-1-ol was burned in a spirit burner, calculate the mass of water produced during the chemical reaction.
(c) What mass of methanol is required to burn to produce 3.6 g of water?
(d) What mass of ethanol is required to burn to produce 8.8 g of carbon dioxide?
We burn ethanol as a fuel to release heat energy. We can use the heat energy released to heat a known quantity of water. The quantity of heat energy released (Eh) can be calculated using a simple formula. Energy is measured in kilojoules (kJ).
Eh = c m ∆T
Where, c = 4.18 (specific heat capacitance of water) m = mass of water (in kg) being heated ∆T = change in temperature of the water
Example:
0.5 g of ethanol was burned, and the heat energy released used to heat 200 g of water. The starting temperature of the water was 20.4 °C. After heating, the temperature of the water was 26.5 °C.
Calculate the quantity of heat energy released:
a. Per gram of ethanol b. Per mole of ethanol
From the question:
mass of water : 200 g = 200 / 1000 = 0.2 kg
change in temperature: final – starting = 26.5 – 20.4 = 6.1 °C
mass of ethanol: = 0.5 g
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 90
Quantity of heat energy released by 0.5 g of ethanol:
Eh = cm∆T
= 4.18 x 0.2 x 6.1
= 5.0996
= 5.1 kJ
a. Quantity of heat energy release per gram of ethanol: mass of ethanol burned = 0.5 g quantity of heat energy from 0.5 g = 5.1 kJ quantity of heat energy per gram = 5.1 ÷ 0.5 = 10.2 kJ per gram ethanol
b. Quantity of heat energy released per mole of ethanol: mass of ethanol burned = 0.5 g no. moles of ethanol = 0.5 ÷ GFM = 0.5 ÷ 46 = 0.0109 moles quantity of heat energy from 0.5 g = 5.1 kJ quantity of heat energy per mole = 5.1 ÷ 0.0109 = 467.889 kJ mol-1 = 468 kJ mol-1
Activity 2.37: Determine the quantity of heat energy released by ethanol
Materials:
spirit burner metal can draft shield 0 to 50 °C thermometer 100 cm3 measuring cylinder access to a 2 decimal place balance
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Knox Academy S4 Chemistry
Chapter 2.5: Alcohols 92
(d) The expected value for burning ethanol is 1367 kJ mol-1. Why will your calculated value not be as high as this?
Activity 2.38: Summary
Based on the work you have completed in this chapter, complete Summary 2.5
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Knox Academy S4 Chemistry
Chapter 2.6: Carboxylic Acids and Esters 93
Chapter 2.6: Carboxylic Acids and Esters In this chapter, you will learn about the homologous series called carboxylic acids. You will examine the everyday uses this group of compounds have and role they play in producing esters. You will learn the important role which carboxylic acids and esters play in everyday life. Carboxylic acids are a group of carbon based compounds which contain a carboxyl group (-COOH) within their structures. The functional group of the carboxylic acids is the carboxyl group. The general formula of carboxylic acids is CnH2n+1COOH. Activity 2.39: Homologous Series
Name
Chemical Formula
Structural Formula
methanoic acid
ethanoic acid
propanoic acid
butanoic acid
pentanoic acid
hexanoic acid
heptanoic acid
octanoic acid
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Knox Academy S4 Chemistry
Chapter 2.6: Carboxylic Acids and Esters 97
2. Place the Bunsen under the mineral wool and heat gently to begin with, then more strongly.
3. Bubble the gases produced through the dilute universal indicator solution. 4. Continue heating the mineral wool until you notice changes in the copper
(II) oxide and the universal indicator solution. Remove the delivery tube from the universal indicator before you stop heating.
(a) What did you observe in the universal indicator? Why? (b) What did you observe in the copper (II) oxide? Why? (c) As the ethanol is oxidised, what happens to the copper (II) oxide?
When hydrogen chloride (hydrochloric acid) is dissolved in water, the molecules ionise to each release one hydrogen ion and one chloride ion.
HCl(g) → H+(aq) + Cl-(aq)
When ethanoic acid is dissolved in water, some of the molecules ionise to each release one hydrogen ion and one ethanoate ion.
CH3COOH(g) → H+(aq) + CH3COO-
(aq)
Activity 2.43: Degree of ionisation We can determine the concentration of hydrogen ions in a solution, by testing the pH of the solution. If we know the concentration of hydrogen ions in solution we can determine the degree of ionisation. Materials: 2 test tubes 0.01 mol l-1 hydrochloric acid test tube rack 0.01 mol l-1 ethanoic acid colour chart universal indicator Method:
1. Thoroughly clean both test tubes with tap water – shake out any water but do not dry the test tubes.
2. Pour 2 cm depth of each acid into separate test tubes. 3. Add 5 drops of universal indicator to each test tube. 4. Compare the colour of the indicator to the colour chart and read off the
pH number.
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Knox Academy S4 Chemistry
Chapter 2.6: Carboxylic Acids and Esters 98
(a) Using the pH number determined, calculate the hydrogen ion concentration for each solution.
HINT: [H+(aq)] = 10-pH
(b) Both acids are monoprotic - produce one hydrogen ion per acid molecule ionised. What conclusion can you reach regarding the ionisation of each acid?
Hydrochloric acid is said to be a strong acid – all of its molecules undergo ionisation to release one hydrogen ion per molecule. 1 mole of HCl(g) → 1 mole H+
(aq) Ethanoic acid is said to be a weak acid – only some of its molecules undergo ionisation, therefore the concentration of hydrogen ions in a solution is less than the original concentration of the acid.
1. mole of CH3COOH → ~0.5 moles H+(aq)
Ethanoic acid is found as a dilute solution in vinegar. Vinegar is used as a food preservative and as a cleaning chemical. Vinegar can be used as a food preservative as it has a low pH. At a low pH bacteria and fungi are unable to grow. Food is spoiled by the growth of bacteria and fungi. If we prevent their growth we can preserve food for a longer period of time. Activity 2.44: Reaction of ethanoic acid and calcium carbonate Materials: boiling tube 1.0 mol l-1 ethanoic acid test tube marble chips test tube rack universal indicator stopper with delivery tube lime water Method:
1. Pour a 3 cm depth of ethanoic acid into the boiling tube and add 5 drops of universal indicator.
2. Place a 3 cm depth of lime water in the test tube.
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Knox Academy S4 Chemistry
Chapter 2.6: Carboxylic Acids and Esters 99
3. Add 3 marble chips to the boiling tube, place the stopper in the boiling tube and bubble the gas produced during the reaction through the lime water.
(a) Draw a labelled sectional diagram of the apparatus. (b) What happened to the colour of the universal indicator? Why? (c) What change did you observe in the lime water? Why? (d) Write a balanced chemical equation for the reaction you have observed.
Some areas of the UK have hard water, this means the tap water contain higher concentrations of metal carbonates. The metal carbonates are deposited on surfaces such as shower screens and build up to form lime scale. Vinegar (containing ethanoic acid) can be used to remove lime scale by producing a soluble metal ethanoate salt, water and carbon dioxide. Carboxyllic acids, and their metal salts, are commonly found in wide variety of foods.
Benzoic acid is found in raspberries and tea. Can be used as a preservative. If added to food it is classed as E210.
Sodium benzoate (sodium salt of benzoic acid) is also used as a food preservative in soft drinks and fruit products. It is E211.
Citric acid (common name) is a carboxylic acid. It is naturally found in citrus foods and is added to many sweets to give a sharp taste. e.g. sherbet or sour plooms.
Carboxylic acids tend to have unpleasant smells. Butanoic acid is produced by sour dairy products. Hexanoic acid is responsible for giving goats their particular scent. Body odour (BO) is caused by enzymes hydrolysing molecules produced by
sweat glands to produce carboxylic acids.
Carboxylic acids can react with alcohols, in the presence of a suitable catalyst, to produce pleasant smelling ester compounds. Activity 2.45: Producing Ethyl ethanoate Materials: boiling tube ethanol test tube ethanoic acid 250 cm3 beaker concentrated sulphuric acid (teacher only) 50 cm3 measuring cylinder 0.1 mol l-1 sodium carbonate solution
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Kno
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Knox Academy S4 Chemistry
Chapter 2.6: Carboxylic Acids and Esters 101
Activity 2.46: Forming ethyl ethanoate
1. Using molymod atoms, form a molecule each of ethanol (C2H5OH) and ethanoic acid (CH3COOH).
2. Remove the atoms necessary to form one water (H2O) across the functional groups of ethanol and ethanoic acid molecules. In the process form a molecule of ethyl ethanoate.
3. Form a water molecule with the “removed” atoms.
(a) Write a word equation for the reaction you have performed. (b) Write a balanced chemical equation for the reaction. (c) Under the appropriate formula, write the structural formulae for each
compound. Identify and highlight the functional group in each molecule.
When naming esters, the alcohol lends its prefix to the –yl component of the name whilst the carboxylic acid lends its prefix to the –noate component of the name.
e.g. butanol reacts with ethanol to form butyl ethanoate. Activity 2.47: Ester components Copy and complete the following table. If required use molymod atoms to build models to check your predictions.
ester name alcohol carboxylic acid methyl methanoate
butanol benzoic acid ethyl pentanoate pentyl hexanoate
Many fruits and flowers are scented or have a pleasant taste. Ester molecules are naturally produced by the flower or fruit. The esters create the pleasant smell or taste we associate with the flower or fruit. Chemical companies can identify the ester responsible and then produce it on an industrial scale. The synthesised esters are used as flavourings and perfumes in a wide variety of consumer products. e.g. pear drops are flavoured with pentyl ethanoate
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Knox Academy S4 Chemistry
Chapter 2.6: Carboxylic Acids and Esters 102
Esters are also extremely useful solvents. Esters are immiscible (do not dissolve) in water so will dissolve hydrocarbons and alcohols well. Esters molecules tend to have very low boiling points, so evaporate easily at low temperatures. This property is utilised in nail varnish – ethyl ethanoate is often used as a solvent as it evaporates very quickly at body temperature. Once applied to the nail, the solvent evaporates leaving behind the varnish. Activity 2.48: Summary Based on the work you have completed in this chapter, complete Summary 2.6.