Elements of physical chemistry:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Oxford
Oxford Univ. Press
2009
|
| Ausgabe: | 5. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XX, 578 S. Ill., graph. Darst. |
| ISBN: | 9780199226726 |
Internformat
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| 245 | 1 | 0 | |a Elements of physical chemistry |c Peter W. Atkins ; Julio de Paula |
| 250 | |a 5. ed. | ||
| 264 | 1 | |a Oxford |b Oxford Univ. Press |c 2009 | |
| 300 | |a XX, 578 S. |b Ill., graph. Darst. | ||
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| 650 | 4 | |a Physikalische Chemie - Lehrbuch | |
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Datensatz im Suchindex
| _version_ | 1804138599932755968 |
|---|---|
| adam_text | Titel: Elements of physical chemistry
Autor: Atkins, Peter W.
Jahr: 2009
Introduction 1
1 The properties of gases 15
2 Thermodynamics: the first law 41
3 Thermodynamics: applications of the First Law 63
4 Thermodynamics: the Second Law 83
5 Physical equilibria: pure substances 105
6 The properties of mixtures 123
7 Chemical equilibrium: the principles 153
8 Chemical equilibrium: equilibria in solution 172
9 Chemical equilibrium: electrochemistry 193
10 Chemical kinetics: the rates of reactions 219
11 Chemical kinetics: accounting for the rate laws 244
12 Quantum theory 270
13 Quantum chemistry: atomic structure 295
14 Quantum chemistry: the chemical bond 322
15 Molecular interactions 351
16 Materials: macromolecules and aggregates 368
17 Metallic, ionic, and covalent solids 391
18 Solid surfaces 419
19 Spectroscopy: molecular rotations and vibrations 447
20 Spectroscopy: electronic transitions and photochemistry 472
21 Spectroscopy: magnetic resonance 499
22 Statistical thermodynamics 524
Appendix 1 Quantities and units 541
Appendix 2 Mathematical techniques 543
Appendix 3 Concepts of physics 549
Appendix 4 Review of chemical principles 554
Data section 558
Index 567
Introduction 1
0.1 The states of matter 1
0.2 Physical state 2
0.3 Force 3
0.4 Energy 3
0.5 Pressure 4
0.6 Temperature 7
0.7 Amount of substance 8
0.8 Extensive and intensive properties 9
0.9 Measures of concentration 9
0.10 Reaction stoichiometry 11
CHECKLIST OF KEY IDEAS 11
TABLE OF KEY EQUATIONS 12
QUESTIONS AND EXERCISES 12
Chapter 1
The properties of gases 15
Equations of state 15
1.1 The perfect gas equation of state 16
1.2 Using the perfect gas law 18
Box 1.1 The gas laws and the weather 20
1.3 Mixtures of gases: partial pressures 21
The kinetic model of gases 23
1.4 The pressure of a gas according to
the kinetic model 23
1.5 The average speed of gas molecules 24
1.6 The Maxwell distribution of speeds 25
1.7 Diffusion and effusion 27
1.8 Molecular collisions 28
Real gases 29
1.9 Molecular interactions 29
1.10 The critical temperature 30
1.11 The compression factor 32
1.12 The virial equation of state 32
1.13 The van der Waals equation of state 33
1.14 The liquefaction of gases 35
CHECKLIST OF KEY IDEAS 36
TABLE OF KEY EQUATIONS 37
FURTHER INFORMATION 1.1 37
QUESTIONS AND EXERCISES 38
Chapter 2
Thermodynamics: the first law 41
The conservation of energy 42
2.1 Systems and surroundings 42
2.2 Work and heat 43
2.3 The measurement of work 45
2.4 The measurement of heat 48
2.5 Heat influx during expansion 51
Internal energy and enthalpy 51
2.6 The internal energy 51
2.7 The internal energy as a state function 52
2.8 The enthalpy 54
2.9 The temperature variation of the enthalpy 56
Box 2.1 Differential scanning calorimetry 57
CHECKLIST OF KEY IDEAS 59
TABLE OF KEY EQUATIONS 60
QUESTIONS AND EXERCISES 60
Chapter 3
Thermodynamics: applications of
the First Law 63
Physical change 63
3.1 The enthalpy of phase transition 64
3.2 Atomic and molecular change 67
Chemical change 71
3.3 Enthalpies of combustion 71
3.4 The combination of reaction enthalpies 72
Box 3.1 Fuels, food, and energy
resources 73
3.5 Standard enthalpies of formation 75
3.6 Enthalpies of formation and molecular
modelling
3.7 The variation of reaction enthalpy with
temperature
CHECKLIST OF KEY IDEAS
TABLE OF KEY EQUATIONS
QUESTIONS AND EXERCISES
Chapter 4
Thermodynamics: the Second Law
76
78
79
80
80
83
Entropy 84
4.1 The direction of spontaneous change 84
4.2 Entropy and the Second Law 85
Box 4.1 Heat engines, refrigerators, and
heat pumps 86
4.3 The entropy change accompanying
expansion 87
4.4 The entropy change accompanying
heating 88
4.5 The entropy change accompanying a
phase transition 90
4.6 Entropy changes in the surroundings 92
4.7 Absolute entropies and the Third Law of
thermodynamics 93
4.8 The statistical entropy 95
4.9 Residual entropy 96
4.10 The standard reaction entropy 97
4.11 The spontaneity of chemical reactions 98
The Gibbs energy 98
4.12 Focusing on the system 99
4.13 Properties of the Gibbs energy 99
CHECKLIST OF KEY IDEAS 102
TABLE OF KEY EQUATIONS 102
QUESTIONS AND EXERCISES 103
Chapter 5
Physical equilibria: pure substances 105
The thermodynamics of transition 105
5.1 The condition of stability 105
5.2 The variation of Gibbs energy with
pressure 106
5.3 The variation of Gibbs energy with
temperature 108
Phase diagrams 109
5.4 Phase boundaries 110
5.5 The location of phase boundaries 111
5.6 Characteristic points 114
Box 5.1 Supercritical fluids 116
5.7 The phase rule 116
5.8 Phase diagrams of typical materials 117
5.9 The molecular structure of liquids 119
CHECKLIST OF KEY IDEAS 120
TABLE OF KEY EQUATIONS 120
QUESTIONS AND EXERCISES 120
Chapter 6
The properties of mixtures
123
The thermodynamic description of mixtures 123
6.1 Partial molar properties 124
6.2 Spontaneous mixing 126
6.3 Ideal solutions 127
6.4 Ideal-dilute solutions 130
Box 6.1 Gas solubility and respiration 132
6.5 Real solutions: activities 134
Colligative properties 134
6.6 The modification of boiling and
freezing points 134
6.7 Osmosis 137
Phase diagrams of mixtures 140
6.8 Mixtures of volatile liquids 140
6.9 Liquid-liquid phase diagrams 142
6.10 Liquid-solid phase diagrams 144
6.11 The Nernst distribution law 146
Box 6.2 Ultrapurity and controlled impurity 147
CHECKLIST OF KEY IDEAS 147
TABLE OF KEY EQUATIONS 148
QUESTIONS AND EXERCISES 148
Chapter 7
Chemical equilibrium: the principles 153
Thermodynamic background 153
7.1 The reaction Gibbs energy 154
7.2 The variation of A,G with composition 155
7.3 Reactions at equilibrium 156 9.2 The migration of ions 196
7.4 The standard reaction Gibbs energy 158 Box 9.1 Ion channels and pumps 199
7.5 The equilibrium composition 160 Electrochemical cells 200
7.6 The equilibrium constant in terms of concentration 161 9.3 Half-reactions and electrodes Box 9.2 Fuel cells 201 202
The response of equilibria to the conditions 162 9.4 Reactions at electrodes 203
7.7 The presence of a catalyst 162 9.5 Varieties of cell 205
7.8 The effect of temperature 163 9.6 The cell reaction 206
Box 7.1 Coupled reactions in biochemical 9.7 The cell potential 206
processes 7.9 The effect of compression Box 7.2 Binding of oxygen to myoglobin and haemoglobin CHECKLIST OF KEY IDEAS 164 165 165 168 9.8 9.9 9.10 9.11 Cells at equilibrium Standard potentials The variation of potential with pH The determination of pH 208 209 210 211
TABLE OF KEY EQUATIONS QUESTIONS AND EXERCISES 168 169 Applications of standard potentials 9.12 The electrochemical series 212 212
Chapter 8 9.13 The determination of thermodynamic functions 212
Chemical equilibrium: equilibria in solution 172 CHECKLIST OF KEY IDEAS TABLE OF KEY EQUATIONS 214
214
Proton transfer equilibria 172 QUESTIONS AND EXERCISES 215
8.1 Bronsted-Lowry theory
Protonation and deprotonation
Polyprotic acids
Amphiprotic systems
Salts in water
8.5 Acid-base titrations
Buffer action
Box 8.1 Buffer action in blood
Indicators
8.2
8.3
8.4
8.6
8.7
Solubility equilibria
8.8 The solubility constant
8.9 The common-ion effect
8.10 The effect of added salts on solubility
CHECKLIST OF KEY IDEAS
TABLE OF KEY EQUATIONS
QUESTIONS AND EXERCISES
Chapter 9
Chemical equilibrium: electrochemistry
172
173
177
179
180
181
183
184
185
187
187
188
189
189
190
190
193
Chapter 10
Chemical kinetics: the rates of reactions
219
Ions in solution
9.1 The Debye-Hucket theory
194
194
Empirical chemical kinetics 220
10.1 Spectrophotometry 220
10.2 Experimental techniques 221
Reaction rates 222
10.3 The definition of rate 222
10.4 Rate laws and rate constants 223
10.5 Reaction order 224
10.6 The determination of the rate law 225
10.7 Integrated rate laws 227
10.8 Half-lives and time constants 229
The temperature dependence of reaction rates 232
10.9 The Arrhenius parameters 232
10.10 Collision theory 234
10.11 Transition-state theory 237
Box 10.1 Femtochemistry 238
CHECKLIST OF KEY IDEAS 240
TABLE OF KEY EQUATIONS 240
QUESTIONS AND EXERCISES 241
Chapter 11 Chemical kinetics: accounting for the rate laws 244
Reaction schemes 244
11.1 The approach to equilibrium 244
11.2 Relaxation methods 246
Box 11.1 Kinetics of protein folding 247
11.3 Consecutive reactions 248
Reaction mechanisms 249
11.4 Elementary reactions 249
11.5 The formulation of rate laws 250
11.6 The steady-state approximation 251
11.7 The rate-determining step 252
11.8 Kinetic control 253
11.9 Unimolecular reactions 253
Reactions in solution 254
11.10 Activation control and diffusion control 254
11.11 Diffusion 255
Catalysis 258
11.12 Homogeneous catalysis 258
11.13 Enzymes 259
Chain reactions 262
11.14 The structure of chain reactions 262
11.15 The rate laws of chain reactions 262
Box 11.2 Explosions 263
CHECKLIST OF KEY IDEAS 264
TABLE OF KEY EQUATIONS 265
FURTHER INFORMATION 11.1 PICK S LAWS OF DIFFUSION 265
QUESTIONS AND EXERCISES 267
Chapter 12
Quantum theory
Three crucial experiments
12.1 Atomic and molecular spectra
12.2 The photoelectric effect
12.3 Electron diffraction
The dynamics of microscopic systems
12.4 The Schrodinger equation
12.5 The Bom interpretation
270
270
271
272
273
274
274
275
12.6 The uncertainty principle
Applications of quantum mechanics
12.7 Translational motion
(a) Motion in one dimension
(b) Tunnelling
(c) Motion in two dimensions
12.8 Rotational motion
(a) Rotation in two dimensions
(b) Rotation in three dimensions
12.9 Vibrational motion
CHECKLIST OF KEY IDEAS
TABLE OF KEY EQUATIONS
QUESTIONS AND EXERCISES
Chapter 13
Quantum chemistry: atomic structure
278
280
280
280
282
283
285
285
287
288
290
291
292
295
Hydrogenic atoms 295
13.1 The spectra of hydrogenic atoms 296
13.2 The permitted energies of hydrogenic
atoms 296
13.3 Quantum numbers 298
13.4 The wavef unctions: s orbitals 299
13.5 The wavefunctions: p and d orbitals 303
13.6 Electron spin 304
13.7 Spectral transitions and selection rules 305
The structures of many-electron atoms 305
13.8 The orbital approximation 306
13.9 The Pauli principle 306
13.10 Penetration and shielding 307
13.11 The building-up principle 308
13.12 The occupation of d orbitals 309
13.13 The configurations of cations and anions 310
13.14 Self-consistent field orbitals 310
Periodic trends in atomic properties 310
13.15 Atomic radius 311
13.16 Ionization energy and electron affinity 312
The spectra of complex atoms 314
13.17 Term symbols 314
Box 13.1 Spectroscopy of stars 314
13.18 Spin-orbit coupling 316
13.19 Selection rules 317
CHECKLIST OF KEY IDEAS 317
TABLE OF KEY EQUATIONS 318
FURTHER INFORMATION 13.1:
THE PAULI PRINCIPLE 318
QUESTIONS AND EXERCISES 319
Chapter 14
Quantum chemistry: the chemical bond
322
Introductory concepts 323
14.1 The classification of bonds 323
14.2 Potential-energy curves 323
Valence bond theory 323
14.3 Diatomic molecules 324
14.4 Polyatomic molecules 326
14.5 Promotion and hybridization 326
14.6 Resonance 329
Molecular orbitals 330
14.7 Linear combinations of atomic orbitals 330
14.8 Bonding and antibonding orbitals 332
14.9 The structures of diatomic molecules 333
14.10 Hydrogen and helium molecules 333
14.11 Period 2 diatomic molecules 335
14.12 Symmetry and overlap 337
14.13 The electronic structures of
homonuclear diatomic molecules 338
14.14 Heteronuclear diatomic molecules 339
14.15 The structures of polyatomic molecules 341
14.16 The Huckel method 343
Computational chemistry 345
14.17 Techniques 346
14.18 Graphical output 346
14.19 Applications 347
CHECKLIST OF KEY IDEAS 348
TABLE OF KEY EQUATIONS 348
QUESTIONS AND EXERCISES 349
Chapter 15
Molecular interactions 351
15.3 Interactions between dipoles 355
15.4 Induced dipole moments 357
15.5 Dispersion interactions 358
The total interaction 359
15.6 Hydrogen bonding 359
Box 15.1 Molecular recognition 360
15.7 The hydrophobic effect 361
15.8 Modelling the total interaction 362
15.9 Molecules in motion 363
CHECKLIST OF KEY IDEAS 364
TABLE OF KEY EQUATIONS 364
QUESTIONS AND EXERCISES 365
Chapter 16
Materials: macromolecules and aggregates 368
Synthetic and biological macromolecules 369
16.1 Determination of size and shape 369
16.2 Models of structure: random coils 372
16.3 Models of structure: polypeptides and
polynucleotides 373
16.4 Mechanical properties of polymers 376
Box 16.1 The prediction of protein structure 376
Mesophases and disperse systems 379
16.5 Liquid crystals 379
Box 16.2 Biological membranes 380
16.6 Classification of disperse systems 381
16.7 Surface, structure, and stability 382
16.8 The electric double layer 384
16.9 Liquid surfaces and surfactants 385
CHECKLIST OF KEY IDEAS 387
TABLE OF KEY EQUATIONS 388
QUESTIONS AND EXERCISES 388
Chapter 17
Metallic, ionic, and covalent solids 391
van der Waais interactions 351
15.1 Interactions between partial charges 352
15.2 Electric dipole moments 352
Bonding in solids
17.1 The band theory of solids
17.2 The occupation of bands
17.3 The optical properties of junctions
17.4 Superconductivity
17.5 The ionic model of bonding
391
392
393
395
395
396
17.6 Lattice enthalpy 396
17.7 The origin of lattice enthalpy 398
17.8 Covalent networks 399
17.9 Magnetic properties of solids 400
Box 17.1 Nanowires 400
Crystal structure 403
17.10 Unit cells 403
17.11 The identification of crystal planes 404
17.12 The determination of structure 406
17.13 Bragg slaw 407
17.14 Experimental techniques 408
17.15 Metal crystals 410
17.16 Ionic crystals 412
17.17 Molecular crystals 413
Box 17.2 X-ray crystallography of
biological macromolecules 414
CHECKLIST OF KEY IDEAS 415
TABLE OF KEY EQUATIONS 416
QUESTIONS AND EXERCISES 416
Chapter 19
Spectroscopy: molecular rotations and
vibrations
447
Chapter 18
Solid surfaces
419
The growth and structure of surfaces 420
18.1 Surface growth 420
18.2 Surface composition and structure 420
The extent of adsorption 424
18.3 Physisorption and chemisorption 425
18.4 Adsorption isotherms 426
18.5 The rates of surface processes 431
Catalytic activity at surfaces 432
18.6 Mechanisms of heterogeneous catalysis 433
18.7 Examples of heterogeneous catalysis 434
Processes at electrodes 437
18.8 The electrode-solution interface 437
Box 18.1 Fuel cells 438
18.9 The rate of electron transfer 439
18.10 Voltammetry 441
18.11 Electrolysis 443
CHECKLIST OF KEY IDEAS 443
TABLE OF KEY EQUATIONS 444
QUESTIONS AND EXERCISES 444
Rotational spectroscopy 448
19.1 The rotational energy levels of molecules 448
19.2 The populations of rotational states 451
19.3 Rotational transitions: microwave
spectroscopy 453
19.4 Linewidths 455
19.5 Rotational Raman spectra 456
Vibrational spectroscopy 457
19.6 The vibrations of molecules 457
19.7 Vibrational transitions 458
19.8 Anharmonicity 459
19.9 The technique 460
19.10 Vibrational Raman spectra of diatomic
molecules 460
19.11 The vibrations of polyatomic molecules 460
Box 19.1 Climate change 463
19.12 Vibration-rotation spectra 465
19.13 Vibrational Raman spectra of polyatomic
molecules 465
CHECKLIST OF KEY IDEAS 467
TABLE OF KEY EQUATIONS 468
FURTHER INFORMATION 19.1
THE ROTATIONAL ENERGY LEVELS
OF MOLECULES 468
QUESTIONS AND EXERCISES 469
Chapter 20
Spectroscopy: electronic transitions
and photochemistry 472
Ultraviolet and visible spectra
20.1 Practical considerations
20.2 Absorption intensities
20.3 The Franck-Condon principle
20.4 Specific types of transitions
Box 20.1 Vision
Radiative and non radiative decay
20.5 Fluorescence
20.6 Phosphorescence
20.7 Lasers
20.8 Applications of lasers in chemistry
472
474
474
476
477
478
479
480
481
482
484
Photoelectron spectroscopy 486
Photochemistry 487
20.9 Quantum yield 487
Box 20.2 Photosynthesis 488
20.10 Mechanisms of photochemical reactions 490
20.11 The kinetics of decay of excited states 490
20.12 Fluorescence quenching 491
CHECKLIST OF KEY IDEAS 493
TABLE OF KEY EQUATIONS 494
FURTHER INFORMATION 20.1
THE BEER-LAMBERT LAW 494
FURTHER INFORMATION 20.2 THE EINSTEIN
TRANSITION PROBABILITIES 495
QUESTIONS AND EXERCISES 496
Chapter 21
Spectroscopy: magnetic resonance 499
Principles of magnetic resonance 499
21.1 Electrons and nuclei in magnetic fields 500
21.2 The technique 502
The information in NMR spectra 504
21.3 The chemical shift 504
Box 21.1 Magnetic resonance imaging 506
21.4 The fine structure 507
21.5 Spin relaxation 511
21.6 Proton decoupling 512
21.7 Conformational conversion and
chemical exchange 512
21.8 The nuclear Overhauser effect 513
21.9 Two-dimensional NMR 515
21.10 Solid-state NMR 516
The information in EPR spectra 517
21.11 The Rvalue 517
21.12 Hyperfine structure
CHECKLIST OF KEY IDEAS
TABLE OF KEY EQUATIONS
QUESTIONS AND EXERCISES
Chapter 22
Statistical thermodynamics
518
520
521
521
524
The partition function 524
22.1 The Boltzmann distribution 525
22.2 The interpretation of the partition function 527
22.3 Examples of partition functions 528
22.4 The molecular partition function 530
Thermodynamic properties 530
22.5 The internal energy and the heat capacity 530
22.6 The entropy and the Gibbs energy 532
22.7 The statistical basis of chemical equilibrium 534
22.8 The calculation of the equilibrium constant 535
CHECKLIST OF KEY IDEAS 537
TABLE OF KEY EQUATIONS 537
FURTHER INFORMATION 22.1
THE CALCULATION OF PARTITION
FUNCTIONS 537
FURTHER INFORMATION 22.2
THE EQUILIBRIUM CONSTANT
FROM THE PARTITION FUNCTION 538
QUESTIONS AND EXERCISES 539
Appendix 1 Quantities and unite 541
Appendix 2 Mathematical techniques 543
Appendix 3 Concepts of physics 549
Appendix 4 Review of chemical principles 554
Data section 558
Index 567
|
| any_adam_object | 1 |
| author | Atkins, Peter W. 1940- de Paula, Julio |
| author_GND | (DE-588)128437782 (DE-588)132130599 |
| author_facet | Atkins, Peter W. 1940- de Paula, Julio |
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| bvnumber | BV035299986 |
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| ctrlnum | (OCoLC)260204573 (DE-599)BVBBV035299986 |
| dewey-full | 541 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 541 - Physical chemistry |
| dewey-raw | 541 |
| dewey-search | 541 |
| dewey-sort | 3541 |
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| discipline | Chemie / Pharmazie Physik Chemie |
| edition | 5. ed. |
| format | Book |
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| genre_facet | Einführung Aufgabensammlung Lehrbuch |
| id | DE-604.BV035299986 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T21:30:45Z |
| institution | BVB |
| isbn | 9780199226726 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-017104868 |
| oclc_num | 260204573 |
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| owner_facet | DE-29T DE-91G DE-BY-TUM DE-19 DE-BY-UBM DE-11 DE-83 |
| physical | XX, 578 S. Ill., graph. Darst. |
| publishDate | 2009 |
| publishDateSearch | 2009 |
| publishDateSort | 2009 |
| publisher | Oxford Univ. Press |
| record_format | marc |
| spelling | Atkins, Peter W. 1940- Verfasser (DE-588)128437782 aut Elements of physical chemistry Peter W. Atkins ; Julio de Paula 5. ed. Oxford Oxford Univ. Press 2009 XX, 578 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Physikalische Chemie - Lehrbuch Chemistry, Physical and theoretical Physikalische Chemie (DE-588)4045959-7 gnd rswk-swf 1\p (DE-588)4151278-9 Einführung gnd-content 2\p (DE-588)4143389-0 Aufgabensammlung gnd-content 3\p (DE-588)4123623-3 Lehrbuch gnd-content Physikalische Chemie (DE-588)4045959-7 s DE-604 de Paula, Julio Verfasser (DE-588)132130599 aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017104868&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Atkins, Peter W. 1940- de Paula, Julio Elements of physical chemistry Physikalische Chemie - Lehrbuch Chemistry, Physical and theoretical Physikalische Chemie (DE-588)4045959-7 gnd |
| subject_GND | (DE-588)4045959-7 (DE-588)4151278-9 (DE-588)4143389-0 (DE-588)4123623-3 |
| title | Elements of physical chemistry |
| title_auth | Elements of physical chemistry |
| title_exact_search | Elements of physical chemistry |
| title_full | Elements of physical chemistry Peter W. Atkins ; Julio de Paula |
| title_fullStr | Elements of physical chemistry Peter W. Atkins ; Julio de Paula |
| title_full_unstemmed | Elements of physical chemistry Peter W. Atkins ; Julio de Paula |
| title_short | Elements of physical chemistry |
| title_sort | elements of physical chemistry |
| topic | Physikalische Chemie - Lehrbuch Chemistry, Physical and theoretical Physikalische Chemie (DE-588)4045959-7 gnd |
| topic_facet | Physikalische Chemie - Lehrbuch Chemistry, Physical and theoretical Physikalische Chemie Einführung Aufgabensammlung Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017104868&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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