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Chapter 36
36.1 Rate of reaction
36.2 Average rate, instantaneous rate and initial rate
36.3 Methods for following the progress of a chemical reaction
36.4 Following the progress of a chemical reaction by measuring changes in gas volume
36.5 Following the progress of a chemical reaction by measuring changes in pressure of a reaction system
36.6 Following the progress of a chemical reaction by measuring changes in mass of a reaction mixture
36.7 Following the progress of a chemical reaction by measuring changes in colour intensity of a reaction mixture
36.8 Following the progress of a chemical reaction by titrimetric analysis
36.9 Choosing an appropriate method to follow the progress of a reaction
36.1 Rate of reaction (bilingual version)
36.2 Average rate, instantaneous rate and initial rate (bilingual version)
36.3 Methods for following the progress of a chemical reaction (bilingual version)
36.4 Following the progress of a chemical reaction by measuring changes in gas volume (bilingual version)
36.5 Following the progress of a chemical reaction by measuring changes in pressure of a reaction system (bilingual version)
36.6 Following the progress of a chemical reaction by measuring changes in mass of a reaction mixture (bilingual version)
36.7 Following the progress of a chemical reaction by measuring changes in colour intensity of a reaction mixture (bilingual version)
36.8 Following the progress of a chemical reaction by titrimetric analysis (bilingual version)
36.9 Choosing an appropriate method to follow the progress of a reaction (bilingual version)
Rate of chemical reaction (combined version)
Rate of chemical reaction (bilingual, combined version)
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Chapter 37
37.1 What factors affect the rate of a reaction?
37.2 Effect of concentration of reactants on rate of reaction
37.3 Effect of temperature on rate of reaction
37.4 Effect of surface area of solid reactant on rate of reaction
37.5 Effect of catalyst on rate of reaction
37.6 Catalysts in industrial processes
37.7 Catalysts in biological systems
37.1 What factors affect the rate of a reaction? (bilingual version)
37.2 Effect of concentration of reactants on rate of reaction (bilingual version)
37.3 Effect of temperature on rate of reaction (bilingual version)
37.4 Effect of surface area of solid reactant on rate of reaction (bilingual version)
37.5 Effect of catalyst on rate of reaction (bilingual version)
37.6 Catalysts in industrial processes (bilingual version)
37.7 Catalysts in biological systems (bilingual version)
Factors affecting rate of reaction (combined version)
Factors affecting rate of reaction (bilingual, combined version)
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Chapter 38
38.1 Molar volume
38.2 Determining the molar volume of gases at r.t.p.
38.3 Calculations involving molar volume, volume and number of moles of gases at r.t.p.
38.4 Calculations involving molar volumes based on chemical equations
38.5 Miscellaneous calculations based on the mole concept
38.1 Molar volume (bilingual version)
38.2 Determining the molar volume of gases at r.t.p. (bilingual version)
38.3 Calculations involving molar volume, volume and number of moles of gases at r.t.p. (bilingual version)
38.4 Calculations involving molar volumes based on chemical equations (bilingual version)
38.5 Miscellaneous calculations based on the mole concept (bilingual version)
Molar volume of gases at room temperature and pressure (r.t.p.) (combined version)
Molar volume of gases at room temperature and pressure (r.t.p.) (bilingual, combined version)
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Chapter 39
39.1 Irreversible and reversible reactions
39.2 Characteristics of dynamic equilibrium
39.1 Irreversible and reversible reactions (bilingual version)
39.2 Characteristics of dynamic equilibrium (bilingual version)
Dynamic equilibrium (combined version)
Dynamic equilibrium (bilingual, combined version)
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Chapter 40
40.1 Equilibrium Law and equilibrium constant
40.2 Calculating equilibrium constant, Kc
40.3 Determining equilibrium constant, Kc, by performing an experiment
40.4 What information about an equilibrium system can be obtained from its Kc value?
40.5 Calculating equilibrium concentrations
40.1 Equilibrium Law and equilibrium constant (bilingual version)
40.2 Calculating equilibrium constant, Kc (bilingual version)
40.3 Determining equilibrium constant, Kc, by performing an experiment (bilingual version)
40.4 What information about an equilibrium system can be obtained from its Kc value? (bilingual version)
40.5 Calculating equilibrium concentrations (bilingual version)
Equilibrium constant (combined version)
Equilibrium constant (bilingual, combined version)
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Chapter 41
41.1 The effect of change in concentration on chemical equilibria
41.2 The effect of change in pressure on chemical equilibria
41.3 Predicting the direction of shift in the equilibrium position from reaction quotient, Qc
41.4 The effect of change in temperature on chemical equilibria
41.5 Using Le Châtelier’s Principle to predict the shift in equilibrium position and recognizing its limitations
41.6 Considerations in deciding the operating conditions of a chemical industria lprocess
41.1 The effect of change in concentration on chemical equilibria (bilingual version)
41.2 The effect of change in pressure on chemical equilibria (bilingual version)
41.3 Predicting the direction of shift in the equilibrium position from reaction quotient, Qc (bilingual version)
41.4 The effect of change in temperature on chemical equilibria (bilingual version)
41.5 Using Le Châtelier’s Principle to predict the shift in equilibrium position and recognizing its limitations (bilingual version)
41.6 Considerations in deciding the operating conditions of a chemical industria lprocess (bilingual version)
The effect of changes in concentration and temperature on chemical equilibria (combined version)
The effect of changes in concentration and temperature on chemical equilibria (bilingual, combined version)