stoichiometric relationship atomic structure periodicity energetics
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1.23Formula
1.44.5Mass and gases in reactions
1.52Solutions
2.11The atom
2.21Mass spectrometer
2.32Electron arrangement
12.13Electron con�guration
1.31Equations
1.12The mole concept
5.23Calculation of enthalpy changes
5.32Hess’ law
5.42Bond enthalpies1.1 1 Particulate nature of matter
1.2 2 The mole concept
1.3 10.5 Reacting masses and volumes
2.1 2 Nucleus
2.2 4 Electron con�guration
12.1 Electrons in atoms2
12.5 13.5
4 6
3.11The periodic table
4.12Ionic bonding
5.11Exothermic and endothermic reactions
8.12Theories of acids and bases
9.12Introduction to oxidation and reduction
9.21Redox equations
9.31Reactivity
9.41Voltaic cells
9.52Electrolytic cells
8.32Strong and weak acids and bases
8.21Properties of acids and bases
8.41The pH scale
6.12Rates of reaction
7.11Dynamic equilibrium
7.21The position of equilibrium
6.23Collision theory
4.26Covalent bonding
4.32Intermolecular forces
4.40.5Metallic bonding
4.52Physical properties
3.22Physical properties
3.33Chemical properties
13.12Trends across period 3
14.11Shapes of molecules and ions
14.22Hybridization
14.32Delocalization of electrons
13.22First-row d-block elements
3.1 1 The periodic table
4.1 2.5 Ionic bonding and structure
4.2 3 Covalent bonding
4.3 4 Covalent structures
4.4 3 Intermolecular forces
4.5 1 Metallic bonding
3.2 5 Periodic trends
13.1 First-row d-block elements2
14.1Covalent bonding and electron domain and molecular geometries
5
14.2 Hybridization2
13.2 Colored complexes2
15.11.5Standard enthalpy changes of reactions
15.22.5Born-Haber cycle
15.31.5Entropy
15.42.5Spontaneity
16.13Rate expression
16.21Reaction mechanism
16.32Activation energy
17.12Liquid-vapor equilibrium
17.22The equilibrium law
6
4
12.5 13.5
5 7
8
8
5 7
7
9
5 4.5
18.14Calculations involving acids and bases
18.22Bu�er solutions
18.31Salt hydrolysis
18.42Acid-base titrations
18.51Indicators
10
6 6
4 4
19.13Standard electrode potentials
19.22Electrolysis
5
3 2
6
4 20.11Introduction
10.14Introduction
10.22Alkanes
10.32Alkenes
10.41Alcohols
11.11Uncertainties and errors in measurements
11.20.5Uncertainties in calculations
11.30.5Graphical techniques
10.52Halogenoalkanes
10.61Reaction pathways
20.22Nucleophilic substitution reactions
20.31Elimination reactions
20.42Condensation reactions
20.51Reaction pathways
20.63Stereoisomerism
10 12
11
6
8
8
12
6 6.5
7
2
102
5.1 4 Measuring energy changes
8.1 1.5 Theories of acids and bases
8.2 1 Properties of acids and bases
8.4 2 Strong and weak acids and bases
8.3 1 The pH scale
8.5 1 Acid deposition
9.1 5 Oxidation and reduction
9.2 3 Electrochemical cells
10.1 4 Fundamentals of organic chemistry
20.1 8 Types of organic reactions
20.2 1 Synthetic routes
20.3 3 Stereoisomerism
19.1 6 Electrochemical cells
11.1 1.5 Uncertainties and errors in measurements and results
11.2 0.5 Graphical techniques
11.3 8 Spectroscopic identi�cation of organic compounds
21.1 2 Spectroscopic identi�cation of organic compounds
10.2 7 Functional group chemistry
5.2 3 Hess’ Law
5.3 2 Bond enthalpies
6.1 7 Collision theory and rates of reaction
7.1 4.5 Equilibrium
15.1 Energy cycles4
16.1 Rate expression and reaction mechanism
4
16.2 Activation energy2
17.1 The equilibrium law4
18.1 Lewis acids and bases1
18.2 Calculations involving acids and bases
4
18.3 pH curves5
15.2 Entropy and spontaneity3
+ mixtures, atom economy
+ applications: ozone
+ applications: PET- instrumentation of MS
- electron arrangement- convergence (to HL)
+ row 3 oxides (from HL)
+ colors, added details
+ graphene, resonances
+ formal charges, ozone application
+ application: ozone
+ enthalpy of solution, hydration
+ application: drugs
+ ?
+ calculations by GDC
+ Q (reaction quotient)
+ ΔG = - R T lnK, relationship with Q
- Lewis acids and bases (to HL)
- pOH, Kw(T)
+ Kw(T)
+ Winkler titration (dissolved O2), many applications
+ fuel cells and many applications
+ ΔG = - n F Eo, cells in series
+ alkyne, aromaticity, IUPAC of esters (but not N-containing FGs)
+ benzene
+ reductions, Markonikov additions, electrophilic substitution
from max 2 steps to max 4 steps
+ E/Z nomenclature
IHD; MS; IR; NMR (only analysis)
NMR multiplicity, X-ray crystallography.
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