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| WK | LSN | TOPIC | SUB-TOPIC | OBJECTIVES | T/L ACTIVITIES | T/L AIDS | REFERENCE | REMARKS |
|---|---|---|---|---|---|---|---|---|
| 2 | 1 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Endothermic and Exothermic Reactions.
Energy level diagrams. |
By the end of the
lesson, the learner
should be able to:
To differentiate between endothermic & exothermic reactions. |
Investigate temperature changes in solution formation. Obtain changes in temperature when ammonium nitrate and sodium hydroxide are dissolved in water, one at a time. |
Ammonium nitrate,
Sodium hydroxide, thermometers. student book |
K.L.B. BK IV
Pages 32-33 |
|
| 2 | 2 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Enthalpy Notation.
Change of state.
|
By the end of the
lesson, the learner
should be able to:
Define the term enthalpy. Distinguish positive enthalpy change from negative enthalpy change. Determine the M.P/ B.P of a pure substance. |
Q/A and brief discussion.
Class experiments: determine B.P of pure water/ M.P of naphthalene / ice. Use experimental results to plot temperature-time graphs. Explain the shape of the graphs. Q/A: review kinetic theory of matter. Apply the theory to explain the shape of the graph, and nature of bonding in substances. |
Ice, naphthalene, thermometers, graph papers.
|
K.L.B. BK IV
Pages 35-39 |
|
| 2 | 2-3 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Enthalpy Notation.
Change of state.
CAT |
By the end of the
lesson, the learner
should be able to:
Define the term enthalpy. Distinguish positive enthalpy change from negative enthalpy change. Determine the M.P/ B.P of a pure substance. |
Q/A and brief discussion.
Class experiments: determine B.P of pure water/ M.P of naphthalene / ice. Use experimental results to plot temperature-time graphs. Explain the shape of the graphs. Q/A: review kinetic theory of matter. Apply the theory to explain the shape of the graph, and nature of bonding in substances. |
Ice, naphthalene, thermometers, graph papers.
|
K.L.B. BK IV
Pages 35-39 |
|
| 2 | 4 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Molar heat of solution.
|
By the end of the
lesson, the learner
should be able to:
Determine molar heat of solution of given substances. |
Dissolve known masses of ammonia nitrate / sodium hydroxide in known volumes of water.
Determine temperature changes. Calculate molar heat of solution. Supervised practice. |
Ammonia nitrate / sodium hydroxide, thermometers.
|
K.L.B. BK IV
Pages 40-41 |
|
| 2 | 5 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Molar heat of solution.
|
By the end of the
lesson, the learner
should be able to:
Determine molar heat of solution of given substances. |
Dissolve known masses of ammonia nitrate / sodium hydroxide in known volumes of water.
Determine temperature changes. Calculate molar heat of solution. Supervised practice. |
Ammonia nitrate / sodium hydroxide, thermometers.
|
K.L.B. BK IV
Pages 40-41 |
|
| 3 | 1 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Molar heat of solution of H2SO4.
|
By the end of the
lesson, the learner
should be able to:
Determine molar heat of solution of H2SO4. |
Dissolve some known volume of conc. H2SO4 in a given volume of water.
Note the change in temperature. Work out the molar heat of solution of H2SO4. |
Conc. H2SO4, thermometers.
|
K.L.B. BK IV
Pages 42-45 |
|
| 3 | 2-3 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Enthalpy of combustion.
Enthalpy of combustion.
Molar heat of displacement of ions. |
By the end of the
lesson, the learner
should be able to:
Define the term enthalpy of combustion. Determine the enthalpy of combustion of ethanol. Explain why actual heats of combustion are usually lower than the theoretical values. Define the term molar heat of solution of displacement of ions. Determine the molar heat of solution of displacement of ions. |
Group experiments / teacher demonstration.
Obtain and record results. Work out calculations. Group experiments/ teacher demonstration. Note steady temperature of solutions formed when zinc/ iron / magnesium reacts with copper sulphate solution. Work out the molar heat of displacement of a substance from a solution of its ions. |
Ethanol, distilled water, thermometer, clear wick, tripod stand and wire gauze.
Zinc, iron, magnesium, copper sulphate solution. |
K.L.B. BK IV
Pages 45-48 K.L.B. BK IV Pages 48-50 |
|
| 3 | 4 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Molar heat of displacement of ions.
|
By the end of the
lesson, the learner
should be able to:
Define the term molar heat of solution of displacement of ions. Determine the molar heat of solution of displacement of ions. |
Group experiments/ teacher demonstration.
Note steady temperature of solutions formed when zinc/ iron / magnesium reacts with copper sulphate solution. Work out the molar heat of displacement of a substance from a solution of its ions. |
Zinc, iron, magnesium, copper sulphate solution.
|
K.L.B. BK IV
Pages 48-50 |
|
| 3 | 5 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Molar heat of solution of neutralization.
|
By the end of the
lesson, the learner
should be able to:
Define the term neutralization. Determine the molar heat of neutralization of HCl with NaOH. |
Class experiments:
Neutralize 2M HCl of known volume with a determined volume of 1M / 2M sodium hydroxide. Note highest temperature of the solution. Work out the molar heat of neutralization. Solve other related problems. Assignment. |
2M HCl of known volume, 1M / 2M sodium hydroxide.
|
K.L.B. BK IV
Pages 50-53 |
|
| 4 | 1 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Standard enthalpy changes.
|
By the end of the
lesson, the learner
should be able to:
Define the term standard enthalpy change. Denote standard enthalpy change with the correct notation. |
Exposition & brief discussion.
|
student book
|
K.L.B. BK IV
Pages 54-56 |
|
| 4 | 2-3 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Hess?s Law.
Heat of solution hydration energy and lattice energy. |
By the end of the
lesson, the learner
should be able to:
State Hess?s law. Solve problems related to Hess?s law. Define the terms lattice energy and hydration energy. Explain the relationship between heat of solution, hydration energy. Solve related problems. |
Detailed discussion & guided discovery of the law.
Illustrations of energy cycles and energy levels leading to Hess?s law. Worked examples. Supervised practice Written assignment. Exposition of new concepts. Guided discovery of the relationship between heat solution hydration energy and lattice energy. Worked examples. Assignment. |
student book
|
K.L.B. BK IV
Pages 56-57 K.L.B. BK IV Pages 60-64 |
|
| 4 | 4 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
|
Heat values of fuels.
|
By the end of the
lesson, the learner
should be able to:
Define the term fuel. Describe energy changes when a fuel undergoes combustion. Outline factors considered when choosing a suitable fuel. |
Probing questions and brief discussion.
|
student book
|
K.L.B. BK IV
Pages 64-66 |
|
| 4 | 5 |
ENERGY CHANGES IN PHYSICAL & CHEMICAL PROCESSES.
RATES OF REACTION & REVERSIBLE REACTIONS. |
Environmental effects of fuels.
Effect of temperature of reactants on rate of reaction. |
By the end of the
lesson, the learner
should be able to:
Outline some environmental effects of fuels. Identify measures taken to reduce environmental pollution. |
Q/A & open discussion.
|
student book
Sodium thiosulphate heated at different temperatures, dilute HCl, stopwatches. Graph papers. |
K.L.B. BK IV
Pages 67-68 |
|
| 5 | 1 |
RATES OF REACTION & REVERSIBLE REACTIONS.
|
Effect of change in surface area of reactants on the rate of a reaction.
|
By the end of the
lesson, the learner
should be able to:
Explain the effect of change in surface area on the rate of a reaction. |
Group experiment/ teacher demonstration.
Compare reactions of marble chips with dilute HCl and that of marble chips powder with equally diluted HCl. Collect evolved gas in each case. Teacher asks probing questions related to the observations made. |
Marble chips, marble chips powder, syringes, conical flasks with stoppers, 1M HCl.
|
K.L.B. BK IV
Pages 83-85 |
|
| 5 | 2-3 |
RATES OF REACTION & REVERSIBLE REACTIONS.
|
Effect of a suitable catalyst on the rate of a reaction
Effect of light on rate of specific reactions. Reversible reactions. |
By the end of the
lesson, the learner
should be able to:
Explain effects of a suitable catalyst on the rate of a reaction. Write down equations for reversible reactions. |
Teacher demonstration: preparation and collection of oxygen gas without using a catalyst, then using manganese (IV) oxide as a catalyst.
Explain the results in terms of activation energy. Q/A: review temporary and permanent changes. Teacher demonstration: heating crystals of hydrated copper (II) sulphate, then ?hydrating? them. Write the corresponding chemical equations. Give further examples of reversible reactions. |
Hydrogen peroxide, manganese (IV) oxide.
Silver bromide. Crystals of hydrated copper (II) sulphate. |
K.L.B. BK IV
Pages 85-88 K.L.B. BK IV Pages 91-93 |
|
| 5 | 4 |
RATES OF REACTION & REVERSIBLE REACTIONS.
|
State of equilibrium in chemical reactions.
Le Chatelier?s Principle. |
By the end of the
lesson, the learner
should be able to:
Define the term equilibrium as used in reversible reactions. Write down equations of reversible reactions in a state of equilibrium. |
Brief discussion, giving examples of chemical equations for reversible reactions.
|
student book
Add 2M sodium hydroxide, |
K.L.B. BK IV
Pages 94-95 |
|
| 5 | 5 |
RATES OF REACTION & REVERSIBLE REACTIONS.
|
Effect of change of pressure and temperature on equilibrium shift.
|
By the end of the
lesson, the learner
should be able to:
Explain the effect of change of pressure & te,perature on equilibrium shift. |
Q/A: review kinetic theory of matter.
Q/A & discussion on effect of change of pressure / temperature on shifting of equilibrium; giving specific examples of chemical equations. Written assignment. |
student book
|
K.L.B. BK IV
Pages 97-101 |
|
| 6 | 1 |
RATES OF REACTION & REVERSIBLE REACTIONS.
|
The Haber Process.
The Contact Process. |
By the end of the
lesson, the learner
should be able to:
Explain the concept optimum conditions of a chemical equilibrium. Explain factors that change the position of equilibrium of the Harber process. |
Q/A and detailed discussion on change of pressure, temperature, concentration of ammonia and effect of presence of a suitable catalyst on the Haber process.
|
student book
|
K.L.B. BK IV
Pages 102-103 |
|
| 6 | 2-3 |
ELECTRO-CHEMISTRY.
|
Redox reactions.
Oxidizing Numbers. |
By the end of the
lesson, the learner
should be able to:
Describe redox reactions in terms of gain / loss of electrons. Identify oxidizing / reducing agents involved in redox reactions. Outline rules of assigning oxidation numbers. Determine the oxidation numbers of an element in a given compound. Explain the use of oxidation numbers in naming compounds. |
Q/A: review cations, anions and charges. Write down ionic half equations and identify reducing / oxidizing agents. Exposition and giving specific examples. Work out oxidizing number of elements in given compounds. Copy and complete a table of compounds containing elements that more than one oxidation number. |
student book
|
K.L.B. BK IV
Pages 108-9 K.L.B. BK IV Pages 109-116 |
|
| 6 | 4 |
ELECTRO-CHEMISTRY.
|
Displacement reactions.
|
By the end of the
lesson, the learner
should be able to:
Explain change of oxidation numbers during redox / displacement reactions. Arrange elements in order of their reducing power. |
Class standard experiments: reacting metals with solutions containing metal ions.
Taking note of reactions and those that do not take place; and tabulating the results. |
Metals: Ca, Na, Zn, Fe, Pb, and Cu.
Solutions containing Ca2+, Mg2+, Zn2+, Fe2+. |
K.L.B. BK IV
Pages 116-120 |
|
| 6 | 5 |
ELECTRO-CHEMISTRY.
|
The oxidizing power of an element.
Cell diagrams. |
By the end of the
lesson, the learner
should be able to:
Arrange elements in order of their oxidizing power. |
Teacher demonstration / group expts:
Adding halogens to solutions containing halide ions. Tabulate the results. Discuss the results and arrive at the oxidizing power series of halogens. |
Halogens:
Cl2 (g), Br2 (l), I2 (s). Halides: KCl, KBr, KI. Zinc/ copper cell. |
K.L.B. BK IV
Pages 120-122 |
|
| 7 | 1 |
ELECTRO-CHEMISTRY.
|
Standard Electrode Potentials.
|
By the end of the
lesson, the learner
should be able to:
Identify standard conditions for measuring electrode potentials. Define the term standard electrode potential of a cell. Write half reactions of electrochemical cells. |
Descriptive and expository approaches: teacher exposes new concepts.
|
student book
|
K.L.B. BK IV
Pages 129-131 |
|
| 7 | 2-3 |
ELECTRO-CHEMISTRY.
|
Standard electrode potential series.
Emf of a cell. |
By the end of the
lesson, the learner
should be able to:
Recall the order of standard electrode potentials. Compare oxidizing and reducing powers of substances. Calculate emf of a cell using standard electrodes potentials. |
Q/A: review reactivity series, oxidizing agent, reducing agent.
Exposition: the order of standard electrode potentials. Discussion: oxidizing and reducing powers of substances. Q/A: review half-cells. Worked examples; supervised practice. Assignment. |
student book
|
K.L.B. BK IV
Pages 131-133 K.L.B. BK IV Pages 133-136 |
|
| 7 | 4 |
ELECTRO-CHEMISTRY.
|
Possibility of a reaction to take place.
Primary and secondary chemical cells. |
By the end of the
lesson, the learner
should be able to:
Predict whether a reaction will take place or not using standard electrode potentials. |
Worked examples.
Oral exercise. Assignment. |
student book
|
K.L.B. BK IV
Pages 136-137 |
|
| 7 | 5 |
ELECTRO-CHEMISTRY.
|
Electrolysis of dilute NaCl.
|
By the end of the
lesson, the learner
should be able to:
Define the term electrolysis. Explain the concept of preferential discharge of ions. |
Teacher demonstration: electrolysis of dilute sodium chloride with carbon electrodes.
Test for gases collected. Write down equations of reactions at each electrode. Discussion: preferential discharge of ions at electrodes. |
Dilute sodium chloride voltameter.
|
K.L.B. BK IV
Pages 141-144 |
|
| 8 | 1 |
ELECTRO-CHEMISTRY.
|
Electrolysis of brine.
|
By the end of the
lesson, the learner
should be able to:
Identify products of electrolysis of brine. |
Teacher demonstration/ group experiments.
Test for the products of electrolysis. Write relevant equations. |
Brine voltameter.
|
K.L.B. BK IV
Pages 144-146 |
|
| 8 | 2-3 |
ELECTRO-CHEMISTRY.
|
Electrolysis of dilute sulphuric (VI) acid.
Factors affecting electrolysis. Application of electrolysis. |
By the end of the
lesson, the learner
should be able to:
Identify products of electrolysis of dilute sulphuric (VI) acid. Explain factors that affect electrolytic products discharged at electrodes. |
Teacher demonstration/ group experiments.
Test for the products of electrolysis. Write relevant equations. Q/A: review the electrochemical series of elements. Teacher writes down order of ease of discharge of ions at electrodes. Discussion: other factors; giving suitable examples. |
Sulphuric acid voltameter.
student book Suitable voltameter. |
K.L.B. BK IV
Pages 146-148 K.L.B. BK IV Pages 153-5 |
|
| 8 | 4 |
ELECTRO-CHEMISTRY.
|
Faraday?s law of electrolysis.
|
By the end of the
lesson, the learner
should be able to:
State Faraday?s law of electrolysis. Solve problems related to Faraday?s law of electrolysis. |
Discuss above results, leading to Faraday?s law of electrolysis.
Worked examples. Assignment. |
Weighing balance, stop watch, copper sulphate voltameter.
|
K.L.B. BK IV
Pages 161-4 |
|
| 8 | 5 |
METALS
|
Ores of some metals.
Occurrence and extraction of sodium. |
By the end of the
lesson, the learner
should be able to:
Name the chief ores of some metals. |
Exposition and brief discussion. |
Chart: Down?s cell.
|
K.L.B. BK IV
Pages 168-9 |
|
| 9 |
Hoyf |
|||||||
| 10 | 1 |
METALS
|
Occurrence and extraction of aluminium.
|
By the end of the
lesson, the learner
should be able to:
Describe occurrence and extraction of aluminium. |
Brief discussion.
Write relevant chemical equations. |
student book
|
K.L.B. BK IV
Pages 171-3 |
|
| 10 | 2-3 |
METALS
|
Occurrence and extraction of iron.
Occurrence and extraction of zinc. |
By the end of the
lesson, the learner
should be able to:
Describe occurrence and extraction of iron. Describe occurrence and extraction of zinc by electrolysis and reduction methods. |
Brief discussion.
Write relevant chemical equations. |
Chart: Blast furnace.
Flow chart: extraction of Zinc. |
K.L.B. BK IV
Pages 173-5 K.L.B. BK IV Pages 175-9 |
|
| 10 | 4 |
METALS
|
Extraction of lead.
Occurrence and extraction of copper. |
By the end of the
lesson, the learner
should be able to:
Explain how lead is extracted. |
Q/A & brief discussion.
Write balanced chemical equations leading to extraction of lead. |
Flow chart: extraction of lead.
Flow chart: extraction of copper. |
K.L.B. BK IV
Pages 179-80 |
|
| 10 | 5 |
METALS
|
Physical properties of some metals.
|
By the end of the
lesson, the learner
should be able to:
State general properties of metals. Explain the difference in physical properties of metals. |
Compare physical properties of some metals as summarized in a chart.
Q/A & discussion based on physical properties. |
student book
|
K.L.B. BK IV
Pages 183-4 |
|
| 11 | 1 |
METALS
|
Reaction of metals with oxygen.
|
By the end of the
lesson, the learner
should be able to:
Explain effect of burning metals in air. |
Teacher demonstration / Group experiments.
Burning some metals in air. Write relevant equations. Brief discussion. |
Common lab. metals.
|
K.L.B. BK IV
Pages 184-6 |
|
| 11 | 2-3 |
METALS
|
Reaction of metals with cold water and steam.
|
By the end of the
lesson, the learner
should be able to:
Describe reaction of metals with cold water and steam. Arrange the metals in order of reactivity with cold water and steam. |
Class experiments:
Investigate reaction of some metals with cold water and steam. Analyse the results. |
Metals: Al, Zn, Fe, Cu.
|
K.L.B. BK IV
Pages 186-9 |
|
| 11 | 4 |
METALS
|
Reaction of metals with chlorine.
|
By the end of the
lesson, the learner
should be able to:
Describe the reaction of metals with chlorine. |
Teacher demonstration in a fume cupboard / in the open.
Investigate reaction of metals with chorine Write corresponding equations. |
Metals: Al, Zn, Fe, Cu.
|
K.L.B. BK IV
Pages 189-191 |
|
| 11 | 5 |
METALS
|
Reaction of metals with acids.
|
By the end of the
lesson, the learner
should be able to:
Describe and explain reaction of metals with acids. |
Group experiments: investigate reaction of metals with dilute acids.
Teacher demonstration: investigate reaction of metals with concentrated acids. Discuss the observations made and write relevant chemical equations. |
Metals: Al, Zn, Fe, Cu.
Acids; HCl, HNO3, H2SO4. |
K.L.B. BK IV
Pages 191-4 |
|
| 12 | 1 |
METALS
|
Uses of metals.
|
By the end of the
lesson, the learner
should be able to:
State uses of some metals and alloys. |
Q/A & brief discussion;
Uses of Sodium, Aluminium, Zinc, Iron and Copper & some alloys. |
student book
|
K.L.B. BK IV
Pages 194-7 |
|
| 12 | 2-3 |
METALS
ORGANIC CHEMISTRY II (ALKANES & ALKANOIC ACIDS) |
Environmental effects of extraction of metals.
Alkanols (Alcohols). Nomenclature of alkanols. |
By the end of the
lesson, the learner
should be able to:
Identify some environmental effects of extraction of metals. Name and draw the structure of simple alkanols. |
Oral questions and open discussion.
Assignment / Topic review. Guided discovery of naming system for alkanols. Draw and name structures of alkanols. |
student book
|
K.L.B. BK IV
Pages 197-8 K.L.B. BK IV Pages 206-8 |
|
| 12 | 4 |
ORGANIC CHEMISTRY II
(ALKANES & ALKANOIC ACIDS)
|
Isomerism in alkanols.
|
By the end of the
lesson, the learner
should be able to:
Describe positional and chain isomerism in alkanols. Explain formation of primary and secondary alkanols. |
Q/A: review the terms positional and chain isomerism.
Brief discussion on isomerism. Oral exercise: naming given organic compounds. Written exercise: writing structural formulae for isomers of organic compounds of a given molecular formula. |
student book
|
K.L.B. BK IV
Pages 208-10 |
|
| 12 | 5 |
ORGANIC CHEMISTRY II
(ALKANES & ALKANOIC ACIDS)
|
Preparation of ethanol in the lab.
|
By the end of the
lesson, the learner
should be able to:
Describe preparation of ethanol in the laboratory. |
Group experiments / teacher demonstration.
Discuss the fermentation process. |
Calcium hydroxide solution, sugar solution, yeast.
|
K.L.B. BK IV
Pages 210-11 |
|
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