GAS LAWS

Boyle?s law.

By the end of the lesson, the learner should be able to:


State Boyle?s law.
Explain Boyle?s law using kinetic theory of matter.

Teacher demonstration ? Use syringes / pumps to show variation of volume with pressure.
Teacher asks probing questions leading to statement of the law.
Discuss the cause of build-up-in pressure.

Chart
Volume-pressure relationship.

Syringes.

K.L.B. BK III
PP. 1-2

Longhorn Book III
PP 1 -2

GAS LAWS

Boyle?s law: - Equation and graphical representation.

By the end of the lesson, the learner should be able to:
Represent Boyle?s law mathematically and graphically.

Q/A: relation between volume and pressure mathematically and graphically.
Derive the relation P1V1=P2V2, and sketch graphs to illustrate Boyle?s law.
Worked examples.
Assignment.

chart

K.L.B. BK III
PP. 3-4

Longhorn Book III
PP 3-5

GAS LAWS

Boyle?s law: Numerical questions.

By the end of the lesson, the learner should be able to:
Solve further problems involving Boyle?s law.

Supervised exercise: Volume in cm?, m?, litres, and pressure in Pa, mmHg, cmHg, atmospheres.
Assignment.

Calculators.

K.L.B. BK III
PP. 4-5
Longhorn Book III PP 6-8

GAS LAWS

Boyle?s law: Numerical questions.
Boyle?s law: Interpretation of graphs.

By the end of the lesson, the learner should be able to:
Solve further problems involving Boyle?s law.
Plot and intepret graphs involving pressure and volume of gases.

Supervised exercise: Volume in cm?, m?, litres, and pressure in Pa, mmHg, cmHg, atmospheres.
Assignment.

Completing tables and plotting graphs.
Interpret the plotted graphs.
Make deductions from the graphs.

Calculators.
Graph papers.

K.L.B. BK III
PP. 4-5
Longhorn Book III PP 6-8

K.L.B.
BK III
PP. 4-5

GAS LAWS

Charles? law.

By the end of the lesson, the learner should be able to:

State Charles? law.
Explain Charles? law using kinetic theory of matter.

Teacher demonstration:- To show expansion of air when heated and contraction when pressure is constant.
Explain increase in volume when temperature is raised.
Q/A: - relation between volume and temperature, leading to Charles? law.

Coloured water,
Glass tube,
Warm water,
Cork and
Flask.

.K.L.B.
BK III P. 6

Longhorn Book III PP 9-11

GAS LAWS

Temperature in Degree Celsius and Kelvin. Equation and graphs from Charles? law.

By the end of the lesson, the learner should be able to:
Convert temperature in degree Celsius to Kelvin and vice-versa.

Teacher explains inter-conversion of the units.
Students complete a table of temperature in the two units.

student book

K.L.B.
BK III P. 10

Longhorn Book III P 11

GAS LAWS

Temperature in Degree Celsius and Kelvin. Equation and graphs from Charles? law.

By the end of the lesson, the learner should be able to:
Convert temperature in degree Celsius to Kelvin and vice-versa.

Teacher explains inter-conversion of the units.
Students complete a table of temperature in the two units.

student book

K.L.B.
BK III P. 10

Longhorn Book III P 11

GAS LAWS

Charles? law- equation and graphical representation.
Numerical questions on Charles? Law.

By the end of the lesson, the learner should be able to:
Express Charles? law with equations.

Give a graphical representation of Charles? law.
Solve numerical problems based on Charles? Law.

Derive equations from volume and temperature relationship.

Exposition: - Teacher exposes a volume-temperature graph and extrapolates it to obtain the absolute temperature. The definition of absolute temperature is exposed.
Worked examples.
Supervised exercise.

Assignment.

student book
Calculators.

K.L.B. BK III
PP. 6-7

Longhorn Book III P 10

K.L.B.
BK III P. 12

Longhorn Book III PP 12-14

GAS LAWS

Combined Gas Law.

By the end of the lesson, the learner should be able to:
Derive the Gas Law.
Derive the combined gas law equation.
Solve numerical problems using the equation.

Q/A: - Combining Boyle?s and Charles? Laws.
Worked examples.

Calculators.

K.L.B.
BK III P. 12

Longhorn Book III PP 14-16

GAS LAWS

Standard conditions, S.T.P. conditions and R.T.P. conditions.
Diffusion.

By the end of the lesson, the learner should be able to:
State standard conditions of temperature and pressure of an ideal gas.
State room temperature and pressure of a gas.
Use standard conditions in problem solving.

Exposition of s.t.p. and r.t.p.


Problem solving.

student book
KMnO4 crystals,
Litmus papers.

K.L.B.
BK III P. 14

GAS LAWS

Rates of diffusion.

By the end of the lesson, the learner should be able to:
Compare rates of diffusion of ammonia gas and hydrogen chloride in air.

Teacher demonstration: - To deduce rate of diffusion of ammonia gas and hydrogen chloride.
Q/A: - Students calculate ratio of rates of diffusion of the gases.

student book

K.L.B.
BK III
PP. 18-19
Longhorn Book III 21

GAS LAWS
THE MOLE

Graham?s Law.
Mole, molar mass and R.A.M.

By the end of the lesson, the learner should be able to:
Carry out numerical tasks.
Define the term mole as a quantity of measurement.
Relate the mole to R.A.M and molar mass.

Solve problems involving RMM, equal volumes of the gases involved.
Supervised practice.
Assignment.
Discuss various analogies that lead to the definition of the mole.
Expose the meaning of R.A.M., Avogadro?s constant and molar mass.

Calculators
Chart- table of molar masses of elements.

K.L.B. BK III
PP. 24-26

Longhorn Book III PP 22-24

K.L.B. BK III
PP. 27-31
Longhorn
Book III
PP 34-35

THE MOLE

Number of moles in a substance.

By the end of the lesson, the learner should be able to:
Calculate number of moles in a given mass of a substance.

Worked examples.
Supervised practice.

student book

K.L.B .BK III
P. 34
Longhorn
BK III
PP 39-40

THE MOLE

Relative molecular mass & Relative formula mass.

By the end of the lesson, the learner should be able to:
Define relative molecular mass.
Calculate RMM of a compound.

Q/A: - Review formulae of compounds.
Complete a table of compounds and their molecular / formula mass.

Calculators.

K.L.B.BK III
PP. 34-35

Longhorn Book III PP 44-60

THE MOLE

Relative molecular mass & Relative formula mass.

By the end of the lesson, the learner should be able to:
Define relative molecular mass.
Calculate RMM of a compound.

Q/A: - Review formulae of compounds.
Complete a table of compounds and their molecular / formula mass.

Calculators.

K.L.B.BK III
PP. 34-35

Longhorn Book III PP 44-60

THE MOLE

Moles and Avogadro?s number.
Empirical Formula.

By the end of the lesson, the learner should be able to:
Calculate number of particles in a given number of moles.
Determine empirical formula of a compound given percentage composition by mass.

Review standard form of numbers.
Worked examples.
Supervised exercise.


Worked examples.
Supervised practice.

Assignment.

Calculators.
student book

K.L.B.BK III
PP. 3132
Longhorn
Book III
PP 30-31

K.L.B.
BK III P. 43

Longhorn Book III PP 66-71

THE MOLE

Molecular formula.

By the end of the lesson, the learner should be able to:
Define molecular formula of a compound.
Find molecular formula given percentage composition of a compound by mass.

Worked examples.

Supervised practice.

Calculators.

K.L.B.BK III
P. 45

Longhorn
Book III
PP 73-75

THE MOLE

Concentration of a solution.

By the end of the lesson, the learner should be able to:
Define concentration of a solution.
Find concentration of a solution in grams/litre and moles/litre.

Q/A: - Equivalent ratios, e.g. 4g dissolved in 500cm? and
8g in 1 litre.
Worked examples on concentration of solutions.

chart

K.L.B. BK III
PP. 46-48

Longhorn Book III PP 76-81

THE MOLE

Molarity of a solution.

By the end of the lesson, the learner should be able to:
Define molarity of a solution.
Find molarity of a solution in M/dm?

Teacher explains that molarity of a solution is given in moles of the solute per litre.
Worked examples.
Supervised exercise.

student book

K.L.B. BK III
PP. 48-49

Longhorn
Book III
PP 76-81

THE MOLE

Preparation of molar solutions.
Calculators on molar solutions.

By the end of the lesson, the learner should be able to:
Define molar solutions.
Prepare molar solutions.
Solve numerical calculations on molar solutions.
Problems on molar solutions.

Q/A: - Description of preparation of molar solutions.

Worked examples.
Supervised exercise.
Assignment.

Volumetric flasks, teat droppers/wash bottle.
Sodium hydrogen pellets.
Weighing balance.

student book

K.L.B. BK III
PP. 50-51

Longhorn
Book III
PP 78-81

K.L.B. BK III
P 51
Longhorn Book III PP 76-81

THE MOLE

Dilution of solutions.

By the end of the lesson, the learner should be able to:
Calculate molarity of a solution after dilution.

Group experiments.
Calculations.

student book

K.L.B. BK III
PP. 76-81

THE MOLE

Stoichiometry of a chemical reaction.
Stoichiometric equations.

By the end of the lesson, the learner should be able to:
To determine mole ratio of given reactions.

Group experiments: - Determine masses, hence moles of reacting CuSO4 solution and iron metal.

CuSO4 solution and iron metal.
student book

K.L.B. BK III
P. 56
Longhorn Book III PP 87-92

THE MOLE

Stoichiometric equations of various reactions.

By the end of the lesson, the learner should be able to:
To investigate and determine Stoichiometric equations of various reactions.

Class experiments.

Problem solving.

student book

K.L.B. BK III
P. 62

THE MOLE
Volumetric Analysis.

Stoichiometric equations of various reactions.
Apparatus used in titration experiments.

By the end of the lesson, the learner should be able to:
To investigate and determine Stoichiometric equations of various reactions.
To use and read a pipette and a burette.

Class experiments.

Problem solving.
Discussion and practical use of the apparatus.
Emphasis is laid on need to sterilize the apparatus after use.

student book
Pipettes
Burettes.

K.L.B. BK III
P. 62
K.L.B. BK III
PP. 63-64
Longhorn
Book III
PP 104-8

Volumetric Analysis.

Titration process.

By the end of the lesson, the learner should be able to:
To define titration as a process.
Define a titration end-point.

Review by Q/A: -
-Indicators and colour changes.
-Choice of indicators.
-Balanced chemical equations.
Discuss characteristics of a good titre, when an an-end point is attained.

Indicators
Suitable acid and base.

K.L.B.
BK III
PP. 64-67

Longhorn
Book III
PP 108-114

Volumetric Analysis.

Titration experiment (Neutralization reaction)

By the end of the lesson, the learner should be able to:
To carry out a titration experiment and obtain accurate results.

Class experiments: - To neutralize HCl with NaOH solution.
Fill in a table of results.
Find the average base used.

student book

K.L.B. BK III
P. 66

Longhorn Book III PP 108-114

Volumetric Analysis.

Titration experiment (Neutralization reaction)

By the end of the lesson, the learner should be able to:
To carry out a titration experiment and obtain accurate results.

Class experiments: - To neutralize HCl with NaOH solution.
Fill in a table of results.
Find the average base used.

student book

K.L.B. BK III
P. 66

Longhorn Book III PP 108-114

Volumetric Analysis.

Titration experiment (Neutralization reaction)
Basicity of an acid.
Standardization of HCl.

By the end of the lesson, the learner should be able to:
To carry out calculations from experimental results.
To define basicity of an acid.

Step-by-step calculations.
Complete a table of number of replaceable hydrogen ions of an acid; hence define basicity of an acid.
Write corresponding ionic equations.

Calculators.
student book
Dilute HCl, Na2CO3 solutions.

K.L.B. BK III
P 66
Longhorn Book III PP 108-114

K.L.B. BK III
P. 73

Volumetric Analysis.

Concentration of HCl.

By the end of the lesson, the learner should be able to:
To calculate concentration of HCl from experimental results.

Calculations & supervised practice.

K.L.B. BK III
PP. 74-75

Volumetric Analysis.

Redox Titration Reactions.

By the end of the lesson, the learner should be able to:
To standardize a solution with an iron (II) salt.

Experiment and calculations.

Potassium Magnate
(VII)

K.L.B. BK III
PP. 74-75

Longhorn
Book III
PP 114-115

Volumetric Analysis.

Redox Titration Reactions.

By the end of the lesson, the learner should be able to:
To standardize a solution with an iron (II) salt.

Experiment and calculations.

Potassium Magnate
(VII)

K.L.B. BK III
PP. 74-75

Longhorn
Book III
PP 114-115

Volumetric Analysis.

Water of crystallization.
Formula mass of ammonium iron (II) sulphate.

By the end of the lesson, the learner should be able to:
To determine amount of water of crystallization in ammonium iron sulphate crystals.
To find formula mass of ammonium iron (II) sulphate.

Teacher exposes the formula of water of crystallization.
Class experiment.
Filling in a table of results.
Calculations from experimental results.

Ammonium
Iron (II)
Sulphate crystals.
Dilute sulphuric (VI) acid.

student book

K.L.B. BK III
P. 76
K.L.B. BK III
PP. 76 -77

Volumetric Analysis.

Formula mass of a given salt.

By the end of the lesson, the learner should be able to:
To solve numerical problems involving water of crystallization.

Problem solving from sample results.

student book

K.L.B. BK III
P.77

Volumetric Analysis.

Atomicity of gases.
Mass and volume of gases.

By the end of the lesson, the learner should be able to:
To define atomicity of gases.

Review by Q/A atoms and molecules; hence the definition.
Discuss a table of gases and their atomicity.

student book
Lubricated syringes
Oxygen/
CO2.

K.L.B. BK III
PP. 78 -80
Longhorn BK III PP 126-128

Volumetric Analysis.

Molar gas volume.

By the end of the lesson, the learner should be able to:
To define molar gas volume.

Use the above results to describe volume of one mole of a gas.
Discuss molar gas volume at R.T.P and S.T.P conditions.

student book

K.L.B. BK III
79 ? 80
Longhorn
Book III
PP 126-127

Volumetric Analysis.

Combining volumes of gases.
Gay Lussac?s Law.

By the end of the lesson, the learner should be able to:
To compare combining volumes of two reacting gases.
To state Gay Lussac?s Law.
To compare Gay Lussac?s Law with Avogadro?s Law.
To solve numericals using Gay Lussac?s Law.

Teacher demonstration: - Determining volumes of reacting gases; hence deduce volume rations.
Teacher exposes the law; and compares it with Gay Lussac?s Law.
Worked examples.
Supervised practice.

student book

K.L.B BK III
P. 82
K.L.B. BK III
P. 85

Longhorn
Book III
PP 129-131