Allan Blackman (University of Otago, New Zealand, ), Lawrie Gahan
Aylward and Findlay's SI Chemical Data
Allan Blackman (University of Otago, New Zealand, ), Lawrie Gahan
Aylward and Findlay's SI Chemical Data
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Suitable for students in undergraduate chemistry courses and in high school subjects specialising in chemistry, this book includes chemicals that have been chosen to cover those typically studied in these courses. It provides students with the skills to discover and understand the hazards that may be associated with the chemicals they use.
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Suitable for students in undergraduate chemistry courses and in high school subjects specialising in chemistry, this book includes chemicals that have been chosen to cover those typically studied in these courses. It provides students with the skills to discover and understand the hazards that may be associated with the chemicals they use.
Produktdetails
- Produktdetails
- Verlag: John Wiley & Sons Australia Ltd
- 7 ed
- Seitenzahl: 176
- Erscheinungstermin: 4. Oktober 2013
- Englisch
- Abmessung: 254mm x 217mm x 20mm
- Gewicht: 526g
- ISBN-13: 9780730302469
- ISBN-10: 0730302466
- Artikelnr.: 42351575
- Verlag: John Wiley & Sons Australia Ltd
- 7 ed
- Seitenzahl: 176
- Erscheinungstermin: 4. Oktober 2013
- Englisch
- Abmessung: 254mm x 217mm x 20mm
- Gewicht: 526g
- ISBN-13: 9780730302469
- ISBN-10: 0730302466
- Artikelnr.: 42351575
Allan Blackman is an Associate Professor of Chemistry inthe Department of Chemistry, University of Otago, Dunedin, NewZealand. He has a PhD in Physical Inorganic Chemistry, and hisresearch interests include coordination chemistry and chemicalkinetics. He has 22 years' experience in both teaching andresearch, is the co-author of a best-selling Australasian-focusedfirst-year Chemistry textbook, and has won teaching awards at hishome university. His monthly musings on things chemical can befound at http://neon.otago.ac.nz/chemistry/magazine/.
Lawrence R. Gahan is a Professor of Chemistry in theSchool of Chemistry and Molecular Biosciences, The University ofQueensland, Australia. He has a PhD in Chemistry, has activeresearch interests in bioinorganic chemistry, and has publishedextensively in international journals. Professor Gahan has 30years' experience in university teaching with variousteaching and learning grants, and local and national awards for histeaching. In addition, he has been awarded competitive grants tosupport his chemistry research.
Lawrence R. Gahan is a Professor of Chemistry in theSchool of Chemistry and Molecular Biosciences, The University ofQueensland, Australia. He has a PhD in Chemistry, has activeresearch interests in bioinorganic chemistry, and has publishedextensively in international journals. Professor Gahan has 30years' experience in university teaching with variousteaching and learning grants, and local and national awards for histeaching. In addition, he has been awarded competitive grants tosupport his chemistry research.
About the authors iv
Preface iv
Acknowledgements v
Section 1: General: Physical constants, units and symbols
1 The International System of Units (SI) 3
2 SI derived units commonly used in chemistry 3
3 Fundamental constants (revised 2010) 4
4 Common conversion factors 4
5 The Greek alphabet 5
6 Numerical prefixes 5
7 Decimal fractions and multiples 6
Section 2: The elements
8 Ground state electronic configurations of the elements 9
9 Properties of the elements 14
10 Properties and applications of some common radioisotopes22
11 Electronegativities of the elements (Pauling scale) 24
12 Enthalpies of melting, vaporisation and atomisation of theelements 25
13 First ionisation enthalpies (Ei1) of the elements 27
14 Successive ionisation enthalpies (Ein) of the elements 29
15 Electron affinities (Eea) of the elements 31
Section 3: Inorganic compounds
16 Properties of elements and inorganic compounds 35
17 Some crystal forms 84
18 Shapes of some molecules and ions 87
19 Bond lengths 88
20 Average bond enthalpies 89
21 Lattice enthalpies of ionic crystals 89
22 Stability constants of complex ions 90
23 Solubility products 91
Section 4: Organic compounds
24 Some important organic functional groups 95
25 Properties of organic compounds 97
26 Properties of amino acids 120
27 Properties of solvents 123
28 Miscibility of solvents 125
29 Boiling temperature elevation and freezing temperaturedepression constants 126
30 Critical constants and triple points 127
Section 5: Spectroscopic data
31 The spectral energies 131
32 Infrared absorption frequencies 131
33 NMR chemical shifts 132
34 Chemical shifts and multiplicities of residual protons indeuterated NMR solvents 132
35 NMR chemical shifts of common solvents in a variety ofdeuterated NMR solvents 133
36 Important NMR-active nuclei 137
37 Common singly charged (z = 1) fragments detected by massspectrometry 137
Section 6: Properties of acids and bases
38 Dissociation constants of acids and hydrated metal ions141
39 Aqueous concentrations of common acids 142
40 Common acid-base indicators 143
41 Common buffers 143
42 Buffering ranges of some common biological buffers (0.1 m)144
Section 7: Properties of aqueous solutions
43 Ionic properties of water 149
44 Molar conductivities of aqueous solutions at 298 K 149
45 Ionic molar conductivities at
infinite dilution at 298 K 149
46 Solubility of gases in water 150
47 Vapour pressure and density of water and mercury at differenttemperatures 150
48 Densities of aqueous solutions at 298 K 151
Section 8: Electrochemistry
49 Standard electrode potentials and redox equilibria in aqueoussolution 155
50 Potentials of common reference electrodes at 298 K 159
51 Conversion factors (mV) between common reference electrodes inacetonitrile 160
Section 9: Appendices
52 Globally Harmonised System of Classification and Labelling ofChemicals (GHS) 163
53 Interpretation of a material safety data sheet (MSDS) 165
54 Common formulae and definitions 173
References 176
Index 181
Preface iv
Acknowledgements v
Section 1: General: Physical constants, units and symbols
1 The International System of Units (SI) 3
2 SI derived units commonly used in chemistry 3
3 Fundamental constants (revised 2010) 4
4 Common conversion factors 4
5 The Greek alphabet 5
6 Numerical prefixes 5
7 Decimal fractions and multiples 6
Section 2: The elements
8 Ground state electronic configurations of the elements 9
9 Properties of the elements 14
10 Properties and applications of some common radioisotopes22
11 Electronegativities of the elements (Pauling scale) 24
12 Enthalpies of melting, vaporisation and atomisation of theelements 25
13 First ionisation enthalpies (Ei1) of the elements 27
14 Successive ionisation enthalpies (Ein) of the elements 29
15 Electron affinities (Eea) of the elements 31
Section 3: Inorganic compounds
16 Properties of elements and inorganic compounds 35
17 Some crystal forms 84
18 Shapes of some molecules and ions 87
19 Bond lengths 88
20 Average bond enthalpies 89
21 Lattice enthalpies of ionic crystals 89
22 Stability constants of complex ions 90
23 Solubility products 91
Section 4: Organic compounds
24 Some important organic functional groups 95
25 Properties of organic compounds 97
26 Properties of amino acids 120
27 Properties of solvents 123
28 Miscibility of solvents 125
29 Boiling temperature elevation and freezing temperaturedepression constants 126
30 Critical constants and triple points 127
Section 5: Spectroscopic data
31 The spectral energies 131
32 Infrared absorption frequencies 131
33 NMR chemical shifts 132
34 Chemical shifts and multiplicities of residual protons indeuterated NMR solvents 132
35 NMR chemical shifts of common solvents in a variety ofdeuterated NMR solvents 133
36 Important NMR-active nuclei 137
37 Common singly charged (z = 1) fragments detected by massspectrometry 137
Section 6: Properties of acids and bases
38 Dissociation constants of acids and hydrated metal ions141
39 Aqueous concentrations of common acids 142
40 Common acid-base indicators 143
41 Common buffers 143
42 Buffering ranges of some common biological buffers (0.1 m)144
Section 7: Properties of aqueous solutions
43 Ionic properties of water 149
44 Molar conductivities of aqueous solutions at 298 K 149
45 Ionic molar conductivities at
infinite dilution at 298 K 149
46 Solubility of gases in water 150
47 Vapour pressure and density of water and mercury at differenttemperatures 150
48 Densities of aqueous solutions at 298 K 151
Section 8: Electrochemistry
49 Standard electrode potentials and redox equilibria in aqueoussolution 155
50 Potentials of common reference electrodes at 298 K 159
51 Conversion factors (mV) between common reference electrodes inacetonitrile 160
Section 9: Appendices
52 Globally Harmonised System of Classification and Labelling ofChemicals (GHS) 163
53 Interpretation of a material safety data sheet (MSDS) 165
54 Common formulae and definitions 173
References 176
Index 181
About the authors iv
Preface iv
Acknowledgements v
Section 1: General: Physical constants, units and symbols
1 The International System of Units (SI) 3
2 SI derived units commonly used in chemistry 3
3 Fundamental constants (revised 2010) 4
4 Common conversion factors 4
5 The Greek alphabet 5
6 Numerical prefixes 5
7 Decimal fractions and multiples 6
Section 2: The elements
8 Ground state electronic configurations of the elements 9
9 Properties of the elements 14
10 Properties and applications of some common radioisotopes22
11 Electronegativities of the elements (Pauling scale) 24
12 Enthalpies of melting, vaporisation and atomisation of theelements 25
13 First ionisation enthalpies (Ei1) of the elements 27
14 Successive ionisation enthalpies (Ein) of the elements 29
15 Electron affinities (Eea) of the elements 31
Section 3: Inorganic compounds
16 Properties of elements and inorganic compounds 35
17 Some crystal forms 84
18 Shapes of some molecules and ions 87
19 Bond lengths 88
20 Average bond enthalpies 89
21 Lattice enthalpies of ionic crystals 89
22 Stability constants of complex ions 90
23 Solubility products 91
Section 4: Organic compounds
24 Some important organic functional groups 95
25 Properties of organic compounds 97
26 Properties of amino acids 120
27 Properties of solvents 123
28 Miscibility of solvents 125
29 Boiling temperature elevation and freezing temperaturedepression constants 126
30 Critical constants and triple points 127
Section 5: Spectroscopic data
31 The spectral energies 131
32 Infrared absorption frequencies 131
33 NMR chemical shifts 132
34 Chemical shifts and multiplicities of residual protons indeuterated NMR solvents 132
35 NMR chemical shifts of common solvents in a variety ofdeuterated NMR solvents 133
36 Important NMR-active nuclei 137
37 Common singly charged (z = 1) fragments detected by massspectrometry 137
Section 6: Properties of acids and bases
38 Dissociation constants of acids and hydrated metal ions141
39 Aqueous concentrations of common acids 142
40 Common acid-base indicators 143
41 Common buffers 143
42 Buffering ranges of some common biological buffers (0.1 m)144
Section 7: Properties of aqueous solutions
43 Ionic properties of water 149
44 Molar conductivities of aqueous solutions at 298 K 149
45 Ionic molar conductivities at
infinite dilution at 298 K 149
46 Solubility of gases in water 150
47 Vapour pressure and density of water and mercury at differenttemperatures 150
48 Densities of aqueous solutions at 298 K 151
Section 8: Electrochemistry
49 Standard electrode potentials and redox equilibria in aqueoussolution 155
50 Potentials of common reference electrodes at 298 K 159
51 Conversion factors (mV) between common reference electrodes inacetonitrile 160
Section 9: Appendices
52 Globally Harmonised System of Classification and Labelling ofChemicals (GHS) 163
53 Interpretation of a material safety data sheet (MSDS) 165
54 Common formulae and definitions 173
References 176
Index 181
Preface iv
Acknowledgements v
Section 1: General: Physical constants, units and symbols
1 The International System of Units (SI) 3
2 SI derived units commonly used in chemistry 3
3 Fundamental constants (revised 2010) 4
4 Common conversion factors 4
5 The Greek alphabet 5
6 Numerical prefixes 5
7 Decimal fractions and multiples 6
Section 2: The elements
8 Ground state electronic configurations of the elements 9
9 Properties of the elements 14
10 Properties and applications of some common radioisotopes22
11 Electronegativities of the elements (Pauling scale) 24
12 Enthalpies of melting, vaporisation and atomisation of theelements 25
13 First ionisation enthalpies (Ei1) of the elements 27
14 Successive ionisation enthalpies (Ein) of the elements 29
15 Electron affinities (Eea) of the elements 31
Section 3: Inorganic compounds
16 Properties of elements and inorganic compounds 35
17 Some crystal forms 84
18 Shapes of some molecules and ions 87
19 Bond lengths 88
20 Average bond enthalpies 89
21 Lattice enthalpies of ionic crystals 89
22 Stability constants of complex ions 90
23 Solubility products 91
Section 4: Organic compounds
24 Some important organic functional groups 95
25 Properties of organic compounds 97
26 Properties of amino acids 120
27 Properties of solvents 123
28 Miscibility of solvents 125
29 Boiling temperature elevation and freezing temperaturedepression constants 126
30 Critical constants and triple points 127
Section 5: Spectroscopic data
31 The spectral energies 131
32 Infrared absorption frequencies 131
33 NMR chemical shifts 132
34 Chemical shifts and multiplicities of residual protons indeuterated NMR solvents 132
35 NMR chemical shifts of common solvents in a variety ofdeuterated NMR solvents 133
36 Important NMR-active nuclei 137
37 Common singly charged (z = 1) fragments detected by massspectrometry 137
Section 6: Properties of acids and bases
38 Dissociation constants of acids and hydrated metal ions141
39 Aqueous concentrations of common acids 142
40 Common acid-base indicators 143
41 Common buffers 143
42 Buffering ranges of some common biological buffers (0.1 m)144
Section 7: Properties of aqueous solutions
43 Ionic properties of water 149
44 Molar conductivities of aqueous solutions at 298 K 149
45 Ionic molar conductivities at
infinite dilution at 298 K 149
46 Solubility of gases in water 150
47 Vapour pressure and density of water and mercury at differenttemperatures 150
48 Densities of aqueous solutions at 298 K 151
Section 8: Electrochemistry
49 Standard electrode potentials and redox equilibria in aqueoussolution 155
50 Potentials of common reference electrodes at 298 K 159
51 Conversion factors (mV) between common reference electrodes inacetonitrile 160
Section 9: Appendices
52 Globally Harmonised System of Classification and Labelling ofChemicals (GHS) 163
53 Interpretation of a material safety data sheet (MSDS) 165
54 Common formulae and definitions 173
References 176
Index 181