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I. Atomic structure
(137)
1. The structure of the atom
(33)
2. Development of atomic theory. Radioactivity
(42)
3. Atomic spectra
(26)
4. Electron configuration of atoms
(36)
II. Bonding
(167)
5. Types of bonding
(41)
6. Electronegativity and polarity
(39)
7. Molecular shapes
(48)
8. Valence bond theory and hybridisation
(39)
III. Phases and phase changes
(169)
9. States of matter
(33)
10. Phase changes
(32)
11. Gas laws
(33)
12. Intermolecular forces
(43)
13. Structure of solids
(28)
IV. Stoichiometric calculations
(144)
14. Mole
(33)
15. Chemical equations
(35)
16. Practical importance of the mole
(34)
17. Concentration
(42)
V. Periodic table
(240)
18. The periodic table of the elements
(36)
19. The trends in the properties of the elements in Period 3
(36)
20. Periodic trends in the chemical properties of elements
(42)
21. s-Block elements
(32)
22. Chemical properties of s-block elements
(42)
23. Elements of Group 17
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24. Reactions of halogens
(29)
VI. Transition metals
(92)
25. Electron configuration and periodic trends of transition elements
(28)
26. Oxidation states of transition elements
(28)
27. Transition metal complexes
(36)
VII. Oxidation and reduction
(129)
28. Oxidation state
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29. Redox reactions
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30. Extraction of metals. Part I
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31. Extraction of metals. Part II
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VIII. Electrochemistry
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32. Voltaic cells
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33. Standard electrochemical potential
(24)
34. Electrochemical series
(23)
IX. Thermodynamics
(197)
35. Enthalpy change and calorimetry
(29)
36. Standard enthalpy change. Hess’s law
(32)
37. Born–Haber cycle
(29)
38. Enthalpy changes in the solution process
(31)
39. Mean bond enthalpies
(23)
40. Entropy
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41. Free energy
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X. Reaction kinetics
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42. Reaction rate
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43. Collision theory
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44. Effect of concentration on the reaction rate. Rate equation
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45. Effect of concentration on the reaction rate. Graphical methods
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47. Catalysts
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XI. Chemical equilibria
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48. Chemical equilibrium and equilibrium constant
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49. Factors affecting the chemical equilibrium
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50. Chemical equilibrium in a gas phase
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XII. Acids, bases and salts
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51. Dissociation of acids, bases and salts
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52. Brønsted–Lowry theory of acids and bases
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53. pH as the universal acidity measure
(32)
54. Weak acids and weak bases
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55. Salts in water solution
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56. Buffers
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57. Acid-base titration
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58. Titration curves
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XIII. Reaction of metal ions in water solution
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59. Acid-base reactions of metal ions
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60. Ligand exchange reactions
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61. Petroleum as the source of hydrocarbons
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62. Hydrocarbons as fuel
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63. Alkanes and cycloalkanes
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64. Chemistry of alkanes and cycloalkanes
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65. Alkenes
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66. Alkene reactions
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67. Haloalkanes
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68. Reactions of haloalkanes
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69. Alcohols
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70. Ethanol
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71. Reactions of alcohols
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XV. Compounds with the carbonyl group
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72. Aldehydes and ketones
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73. Reactions of aldehydes and ketones
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74. Carboxylic acids
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75. Functional derivatives of carboxylic acids
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XVI. Aromatic compounds
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76. Benzene
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77. Electrophilic substitution
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XVII. Organic compounds of nitrogen
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78. Structure and properties of amines
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79. Amines and amides: reactions and preparation
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80. Amino acids
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XVIII. Biologically important chemical compounds
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81. Fats and sugars
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82. Proteins and nucleic acids
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XIX. Polymers
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83. Polymer types. Addition polymers
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84. Condensation polymers
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XX. General topics in organic chemistry
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85. Organic molecules
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86. Naming organic compounds
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87. Isomerism
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88. Organic reactions
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89. Analytical tests in organic chemistry
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XXI. Spectrometric techniques
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90. Infra-red spectroscopy. Part I
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91. Infra-red spectroscopy. Part II
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92. Mass spectrometry. Part I
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93. Mass spectrometry. Part II
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94. Nuclear magnetic resonance (NMR) spectroscopy. Part I
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95. Nuclear magnetic resonance (NMR) spectroscopy. Part II
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96. Determination of molecular structure
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97. Absorption of visible light. Colorimetry
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XXII. Environmental pollution by chemical products
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98. Pollution of air
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99. Pollution of water
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100. Pollution of land
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Resources: 1 – 29 Total: 29
Atomisation process of mercury
Whiteboard exercise
Play
Born-Haber cycle
Student activity
Play
Born–Haber cycle
Class activity
Play
Born–Haber cycle
Whiteboard exercise
Play
Born–Haber cycle
Whiteboard presentation
Play
Born–Haber cycle for sodium chloride
Animation
Play
Electron affinity
Animation
Play
Enthalpy of formation of magnesium bromide
Animation
Play
Enthalpy of formation of neonium chloride
Whiteboard exercise
Play
Factors affecting the lattice enthalpy
Animation
Play
Ionisation enthalpy
Animation
Play
Ionisation enthalpy and electron affinity
Whiteboard exercise
Play
Ionisation enthalpy and electron affinity
Student activity
Play
Lattice formation enthalpy
Animation
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Lattice formation enthalpy
Student activity
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Lattice formation enthalpy
Whiteboard exercise
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Lattice formation enthalpy and melting points of ionic compounds
Illustration
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Sodium chloride formation
Animation
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Standard enthalpy of atomisation
Student activity
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Standard enthalpy of atomisation
Whiteboard exercise
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Standard enthalpy of atomisation of metals
Animation
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Standard enthalpy of atomisation of non-metals
Animation
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Standard enthalpy of formation for ionic compounds
Student activity
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Standard enthalpy of formation for ionic compounds
Whiteboard exercise
Play
The enthalpy change for the transformation of solid sulphur into gaseous sulphide ions
Whiteboard exercise
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The formation of ionic compounds is exothermic
Animation
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Why do magnesium and chlorine form the compound MgCl2, but not MgCl?
Animation
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Why some ionic compounds do not exist
Whiteboard exercise
Play
Why some ionic compounds do not exist
Student activity
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Resources: 1 – 29 Total: 29
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