Atkins' PHYSICAL CHEMISTRY ( Eleventh edition ) Peter Atkins Fellow of Lincoln College, University of Oxford, Oxford, UK Julio de Paula Professor of Chemistry, Lewis & Clark College, Portland, Oregon, USA James Keeler Senior Lecturer in Chemistry and Fellow of Selwyn College, University of Cambridge, Cambridge, UK OXFORD UNIVERSITY PRESS
11
Embed
Atkins' PHYSICAL CHEMISTRY - gbv.de › dms › weimar › toc › 896939693_toc.pdf · (b) The Maxwell-Boltzmann distributlon of speeds 13 TOPIC 2C Thermochemistry 51 (c) Mean values
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Atkins' PHYSICAL CHEMISTRY
( Eleventh edition )
Peter Atkins Fellow of Lincoln College, University of Oxford, Oxford, UK
Julio de Paula Professor of Chemistry, Lewis & Clark College, Portland, Oregon, USA
James Keeler Senior Lecturer in Chemistry and Fellow of Selwyn College, University of Cambridge, Cambridge, UK
OXFORD UNIVERSITY PRESS
FULL CONTENTS
Conventions XXV (a) Operational definltlons 34
List of tables xxvi (b) The molecular Interpretation of heat and work 36
List of The chemist's toolkits xxviii 2A.2 The definition of internal energy 37 (a) Molecular Interpretation of Interna! energy 37
List of material provided as A deeper Jook xxix (b) The formulation of the First Law 38 List of Impacts XXX 2A.3 Expansion work 38
(a) The general exi:;resslon for work 39
(b) Expansion agalnst constant pressure 39 PROLOGUE Energy, temperature, (c) Reversible expanslon 40 and chemistry 1 (d) lsothermal reversible expanslon of a perfect gas 41
2A.4 Heat transactlons 42 FOCUS 1 The properties of gases 3 (a) Calorimetry 42
(b) Heat capaclty 43 TOPIC 1A The perfect gas 4
Checklist of concepts 4S 1A.1 Variables ofstate 4
Checklist of equations 4S (a) Pressure 4
(b) Temperature 5 TOPIC 28 Enthalpy 46 1A.2 Equations of state 6 28.1 The definition of enthalpy 46 (a) The emplrlcal basls 7
(a) Enthalpy change and heat transfer 46 (b) Mlxtures of gases 9
(b) Calorlmetry 47 Checklist of concepts 10 28.2 The varlatlon of enthalpy wlth temperature 48 Checklist of equations 10 (a) Heat capaclty at constant pressure 48
(b) The relatlon between heat capacltles 49 TOPIC 18 The kinetic model 11
Checklist of concepts so 18.1 The model 11
Checklist of equations so (a) Pressure and molecular speeds 12
(b) The Maxwell- Boltzmann distributlon of speeds 13 TOPIC 2C Thermochemistry 51 (c) Mean values 15
2C.1 Standard enthalpy changes Sl 18.2 Colllsions 17
(a) Enthalpies of physlcal change 51 (a) The collislon frequency 17
(b) Enthalples of chemical change 52 (b) The mean free path 18
(c) Hess's law 53 Checklist of concepts 18 2C.2 Standard enthalples of formation S4 Checklist of equatlons 18 2C.3 The temperature dependence of reactlon enthalples ss
Checklist of concepts 91 48.1 The dependence of stabllity on the conditions 128
Checklist of equations 91 (a) The temperature dependence of phase stablllty 128
(b) The response of melting to applled pressure 129 TOPIC 3C The measurement of entropy 92 (c) The vapour pressure of a liquid subjected to pressure 130
3C. 1 The calorimetrlc measurement of entropy 92 48.2 The location of phase boundaries 131
3C.2 The Third Law 93 (a) The slopes of the phase boundaries 131
(a) The Nernst heat theorem 93 (b) The solid-liquid boundary 132
(b) Thlrd-Law entroples 94 (c) The liquid-vapour boundary 132
(c) The temperature dependence of reaction entropy 95 (d) The solld-vapour boundary 134
Checklist of concepts 96 Checklist of concepts 134
Checklist of equations 96 Checklist of equations 134
TOPIC 30 Concentrating on the system 97 FOCUS 5 Simple mixtures 141 30.1 The Helmholtz and Gibbs energies 97
(a) Crlterla of spontanelty 97 TOPIC SA The thermodynamic description (b) Some remarks on the Helmholtz energy 98 of mixtures 143 (c) Maximum work 98 5A.1 Partial molar quantities 143 (d) Some remarks on the Gibbs energy 99 (a) Partial molarvolume 143 (e) Maximum non-expanslon work 100 (b) Partial molar Glbbs energles 145 30.2 Standard molar Glbbs energles 100 (c) The wider slgnlfic~nce ofthe chemlcal potential 146 (a) Glbbs energles of formatlon 101 (d) The Glbbs-Duhem equation 146 (b) The Born equatlon 102 5A.2 The thermodynamics of mixing 147
Checklist of concepts 103 (a) The Glbbs energy of mlxing of perfect gases 147 Checklist of equations 103 (b) Other thermodynamic mlxing functlons 149
TOPIC 3E Combining the First and Second Laws 5A.3 The chemical potentials of liqulds 150
104 (a) Ideal solutlons 150
3E.1 Properties ofthe Interna! energy 104 (b) ldeal-dllute solutlons 152 (a) The Maxwell relatlons 104
Checklist of concepts 153 (b) The varlatlon of Interna! energy wlth volume 106
Checklist of equations 154
TOPIC SB The properties of solutions 58.1 Liquid mixtures (a) Ideal solutlons
(b) Excess functlons and regular solutlons
58.2 Colligative properties (a) The common features of colligative propertles
(b) The elevatlon of boiling polnt
(c) The depresslon of freezlng point
(d) Solublllty
(e) Osmosls
Checklist of concepts
Checklist of equations
TOPIC SC Phase diagrams of binary systems:
155 155 155
156
158
158
159
161
161
162
164
165
liquids 166 SC.1 Vapour pressure diagrams 166
SC.2 Temperature-composition diagrams 168 (a) The constructlon of the dlagrams 168
(b) The Interpretation of the diagrams 169
SC.3 Distillation 170 (a) Simple and fractional dlstillation 170
(c) The dlstlllatlon of partlally miscible liquids 175
Checklist of concepts 176
Checklist of equations 176
TOPIC SO Phase diagrams of binary systems: solids 177 SO. 1 Eutectlcs 177
50.2 Reacting systems 178
50.3 lncongruent melting 179
Checklist of concepts 179
TOPIC SE Phase diagrams of ternary systems 180 SE.1 Trlangular phase diagrams 180
SE.2 Ternary systems 181 (a) Partlally mlscible llqulds 181
(b) Ternary solids 182
Checklist of concepts 182
TOPIC SF Activities 183 SF.1 The solvent actlvity 183
SF.2 The solute activlty (a) ldeal-dllute solutlons
(b) Real solutes
(c) Actlvltles In terms of molalltles
SF.3 The activities of regular solutions
SF.4 The activities of Ions (a) Mean actlvlty coefficlents
(b) The Oebye- Hückel llmlting law
(c) Extensions of the llmlting law
Checklist of concepts
Checklist of equations
183
184
184
185
185
187
187
187
188
189
190
Full Content5 XVii
FOCUS 6 Chemical equilibrium
TOPIC 6A The equilibrium constant 6A.1 The Glbbs energy minimum (a) The reactlon Glbbs energy
(b) Exergonlc and endergonlc reactlons
6A.2 The description of equilibrium (a) Perfect gas equlllbrla
(b) The general case of a reaction
(c) The relation between equllibrium constants
(d) Molecular Interpretation of the equillbrlum constant
Checklist of concepts
Checklist of equations
TOPIC 68 The response of equilibria to the conditions 68.1 The response to pressure
68.2 The response to temperature (a) The van 't Hoff equatlon
(b) The value of Kat different temperatures
Checklist of concepts
Checklist of equations
TOPIC 6C Electrochemical cells 6C.1 Half-reactions and electrodes
6C.2 Varieties of cells (a) Liquid junctlon potentlals
(b) Notation
6C.3 The cell potential (a) The Nernst equation
(b) Cells at equillbrlum
6C.4 The determinatlon of thermodynamlc functions
Checklist of concepts
Checklist of equations
TOPIC 60 Electrode potentials 60.1 Standardpotentials (a) The measurement procedure
(b) Comblnlng measured values
60.2 Applications of standard potentials (a) The electrochemical serles
(b) The determlnation of actlvlty coefficlents
(c) The determlnation of equillbrium constants
Checklist of concepts
Checklist of equatlons
FOCUS 7 Quantum theory
TOPIC 7A The origins of quantum mechanics 7A.1 Energy quantization (a) Black-body radlatlon
(b) Heat capaclty
(c) Atomlc and molecular spectra
7A.2 Wave-particle duallty (a) The partlcle character of electromagnetlc radlatlon
(b) The wave character of partlcles
203
204 204 204
205
205 205
206
209
210
211
211
212 212
213
213
215
216
216
217 217
218 218
219
219 219
221
221
223
223
224 224 225
226
226 226
226
227
227
228
235
237 237 237
240
241
242 242
244
xviii Full Content5
Checklist of concepts 245 Checklist of concepts 290
Checklist of equations 245 Checklist of equations 290
TOPIC 78 Wavefunctions 246 78.1 The Schrödinger equation 246 FOCUS 8 Atomic structure and spectra 303
78.2 The Born interpretation 247 TOPIC 8A Hydrogenic atoms 304 (a) Normallzatlon 248 8A.1 The structure of hydrogenic atoms 304 (b) Constralnts on the wavefunction 249 (a) The separatlon of variables 304 (c) Quantlzatlon 250 (b) The radial solutions 305
Checklist of concepts 250 8A.2 Atomic orbitals and thelr energies 308 Checklist of equations 250 (a) The specification of orbitals 308
TOPIC 7C Operators and observables 251 (b) The energy levels 308
(c) lonlzatlon energles 309 7C.1 Operators 251 (d) Shells and subshells 309 (a) Elgenvalue equatlons 251 (e) s Orbitals 310 (b) The constructlon of operators 252 (f) Radial dlstribution functlons 311 (c) Hermltlan operators 253 (g) p Orbitals 313 (d) Orthogonallty 254 (h) d Orbitals 314
7C.2 Superpositions and expectation values 255 Checklist of concepts 314
7C.3 The uncertalnty principle 257 Checklist of equations 315
7C.4 The postulates of quantum mechanics 259
Checklist of concepts 260 TOPIC 88 Many-electron atoms 316 Checklist of equations 260 88.1 The orbital approxlmation 316
88.2 The Pauli excluslon prlnclple 317
TOPIC 70 Translational motion 261 (a) Spin 317
70.1 Free motlon in one dlmension 261 (b) The Pauli prlnciple 318
70.2 Confined motlon in one dlmension 262 88.3 The bullding-up prlnclple 319
(a) The acceptable solutions 263 (a) Penetration and shleldlng 319
(b) The propertles of the wavefunctions 264 (b) Hund's rules 321
(c) The propertles of the energy 265 (c) Atomlc and lonic radll 323
70.3 Confined motlon in two and more dimensions 266 (d) lonlzatlon energles and electron affinltles 324
(a) Energy levels and wavefunctlons 266 88.4 Self-consistent field orbltals 325
(b) De9eneracy 267 Checklist of concepts 325
70.4 Tunnelling 268 Checklist of equations 326
Checklist of concepts 271
Checklist of equatlons 272 TOPIC 8C Atomic spectra 327
8C.1 The spectra of hydrogenlc atoms 327
TOPIC 7E Vibrational motion 273 8C.2 The spectra of many-electron atoms 328
7E.1 The harmonlc oscillator 273 (a) Slnglet and trlplet terms 328
(a) The energy levels 274 (b) Spin-orblt coupling 329
(b) The wavefunctlons 275 (c) Term symbols 332
7E.2 Propertles of the harmonlc oscillator 277 (d) Hund's rules 335
(a) Mean values 277 (e) Selectlon rules 335
(b) Tunnelllng 278 Checklist of concepts 336
Checklist of concepts 279 Checklist of equations 336
Checklist of concepts 350 (e) The cubic groups 393
Checklist of equations 350 (f) The full rotation group 394
lOA.3 Some immediate consequences of symmetry 394 TOPIC 98 Molecular orbital theory: (a) Polarlty 394
the hydrogen molecule-ion 351 (b) Chirallty 395
98.1 Linear combinatlons of atomlc orbitals 351 Checklist of concepts 395 (a) The construction of linear comblnatlons 351 Checklist of operations and elements 396 (b) Bonding orbitals 353
(c) Antibonding orbitais 354 TOPIC 108 Group theory 397 98.2 Orbital notation 356 108.1 The elements of group theory 397
Checklist of concepts 356 108.2 Matrix representations 398
Checklist of equatlons 356 (a) Representatlves of operatlons 398
(b) The representation of a group 399
TOPIC 9C Molecular orbital theory: homonuclear (c) lrreducible representations 400
diatomic molecules 357 (d) Characters 401
9C.1 Electron configurations 357 108.3 Character tables 401 (a) a Orbitals and 1t orbitals 357 (a) The symmetry specles of atomic orbitals 402
(b) The overlap integral 359 (b) The symmetry species of linear combinations of orbitals 403
(c) Period 2 diatomic molecules 360 (c) Character tables and degeneracy 404
9C.2 Photoelectron spectroscopy 362 Checklist of concepts 405
Checklist of concepts 363 Checklist of equations 405
Checklist of equations 364 TOPIC 10C Applications of symmetry 406
TOPIC 90 Molecular orbital theory: heteronuclear lOC.1 Vanishing Integrals 406
diatomic molecules 365 (a) Integrals of the product of functions 407
90.1 Polarbondsand electronegatlvity 365 (b) Oecompositlon of a representation 408
90.2 The varlation prlnclple 366 lOC.2 Applications to molecular orbital theory 409
(a) The procedure 367 (a) Orbital overlap 409
(b) The features of the solutions 369 (b) Symmetry-adapted linear combinations 409
Checklist of concepts 370 lOC.3 Selection rules 411
Checklist of equations 370 Checklist of concepts 411
TOPIC 9E Molecular orbital theory: polyatomic Checklist of equations 411
molecules 371 9E.1 The Hückel approximation 371 FOCUS 11 Molecular spectroscopy 417 (a) An introduction to the method 371 TOPIC 11A General features of molecular (b) The matrix formulation of the method 372 spectroscopy 419 9E.2 Applicatlons 375
11A.1 The absorption and emlssion of radiatlon 420 (a) 1t-Electron binding energy 375
(b) Selectlon rules and transitlon moments 421 9E.3 Computational chemistry 377 (c) The Beer-Lambert law 421 (a) Semi-empirlcal and ab lnltlo methods 378
11A.2 Spectral linewidths 423 (b) Density functlonal theory 379
(b) Symmetrie rotors 432 TOPIC 11G Decay of excited states 470 (c) Linear rotors 434 11G.1 Fluorescence and phosphorescence 470 (d) Centrlfugal dlstortlon 434
11G.2 Oissociation and predlssociatlon 472 118.2 Microwave spectroscopy 435
11G.3 Lasers 473 (a) Selectlon rules 435
(b) The appearance of mlcrowave spectra 436 Checklist of concepts 474
118.3 Rotational Raman spectroscopy 437
118.4 Nuclear statistlcs and rotatlonal states 439 FOCUS12 Magnetic resonance 487 Checklist of concepts 441 TOPIC 12A General principles 488 Checklist of equatlons 441
12A.1 Nuclear magnetic resonance 488
TOPIC 11C Vibrational spectroscopy of diatomic (a) The energles of nuclel In magnetlc fields 488
molecules 442 (b) The NMR spectrometer 490
11C.1 Vibratlonal motion 442 12A.2 Electron paramagnetic resonance 491
(a) The energles of electrons In magnetlc fields 491 11C.2 lnfrared spectroscopy 443
(b) The EPR spectrometer 492 11C.3 Anharmonlcity 444
Checklist of concepts 493 (a) The conver9ence of energy levels 444
Checklist of equations 493 (b) The Blr9e-Sponer plot 445
11C.4 Vibratlon-rotation spectra 446 TOPIC 128 Features of NMR spectra 494 (a) Spectral branches 447
128.1 The chemical shift 494 (b) Comblnatlon differences 448
128.2 The origin of shielding constants 496 11C.5 Vibrational Raman spectra 448
(a) The local contrlbutlon 496 Checklist of concepts 449 (b) Nelghbourlng group contrlbutlons 497 Checklist of equations 450 (c) The solvent contrlbutlon 498
TOPIC 110 Vibrational spectroscopy of polyatomic 128.3 The fine structure 499
(a) The appearance of the spectrum 499 molecules 451
(b) The magnitudes of coupllng constants 501 110.1 Normal modes 451 (c) The orlgln of spln-spln coupllng 502 110.2 lnfrared absorption spectra 452 (d) Equlvalent nuclei 503
Checklist of concepts 454 128.4 Exchange processes 505
Checklist of equations 454 128.5 5olid-state NMR 506
Checklist of concepts 507 TOPIC 11E Symmetry analysis of vibrational
Checklist of equations 508 spectra 455 11 E.1 Classification of normal modes according to symmetry 455 TOPIC 12C Pulse techniques in NMR 509 11 E.2 Symmetry of vibrat ional wavefunctions 457 12C.1 The magnetization vector 509
(a) lnfrared actlvlty of normal modes 457 (a) The effect of the radlofrequency field 510
(b) Raman actlvlty of normal modes 458 (b) Time- and frequency-dornain slgnals 511 (c) The symmetry basls of the excluslon rule 458 12C.2 Spin relaxation 513
Checklist of concepts 458 (a) The mechanlsm of relaxatlon 513
(b) The measurement of T, and T, 514 TOPIC 11F Electronic spectra 459 12C.3 Spin decoupling 515
11F.1 Olatomic molecules 459 12C.4 The nuclear Overhauser effect 516
(a) Term symbols 459 Checklist of concepts 518
(b) Selectlon rules 461
(c) Vlbratlonal fine structure 462 Checklist of equations 518
(d) Rotatlonal fine structure 465 TOPIC 120 Electron paramagnetic resonance 519 11f.2 Polyatomlc molecules 466
120.1 The g-value 519 (a) d-Metal complexes 467
(b) lt" +-1' and lt"+- n transltions 468 120.2 Hyperfine structure 520
(a) The effects of nuclear spln 520 Checklist of concepts 469
(b) The McConnell equatlon 521 Checklist of equations 469 (c) The orlgln of the hyperfine lnteractlon 522
Full Contents xxi
Checklist of concepts 523 (e) Residual entroples 565
Checklist of equations 523 Checklist of concepts 566
Checklist of equations 566
FOCUS 13 Statistical thermodynamics 531 TOPIC 13F Derived functions 567 TOPIC 13A The Boltzmann distribution 532 13F.1 The derivations 567
13A.1 Configuratlons and welghts 532 13F.2 Equillbrium constants 570
(a) lnstantaneous conli9uratlons 532 (a) The relation between K and the partltlon functlon 570
(b) The most probable distrlbutlon 533 (b) A dissociation equlllbrlum 570
(c) The values of the constants 535 (c) Contributions to the equilibrlum constant 571
13A.2 The relative population of states 536 Checklist of concepts 573
Checklist of concepts 536 Checklist of equations 573
138.1 The significance of the partition function 538 TOPIC 14A The electric properties of molecules 585 138.2 Contributions to the partition function 540 14A.1 Electric dipole moments 585
(a) The translatlonal contrlbutlon 540 14A.2 Polarizabilities 587
(b) The rotatlonal contrlbutlon 542 14A.3 Polarization 588 (c) The vlbratlonal contrlbutlon 546 (a) The frequency dependence of the polarlzatlon 588 (d) The electronlc contributlon 547 (b) Molar polarization 590
Checklist of concepts 548 Checklist of concepts 592
Checklist of equations 548 Checklist of equations 592
TOPIC 13C Molecular energies 549 TOPIC 148 lnteractions between molecules 593 13C.1 The baslc equations 549 148.1 The interactions of dlpoles 593
13C.2 Contributions of the fundamental modes of motion 550 (a) Char9e-dlpole interactlons 593
(a) The translational contrlbutlon 550 (b) Dipole-dipole lnteractions 594
(b) The rotatlonal contributlon 550 (c) Dipole-induced dlpole interactlons 597
(d) The electronlc contrlbutlon 552 148.2 Hydrogen bonding 598 (e) The spln contrlbutlon 552 148.3 The total interaction 599
Checklist of concepts 553 Checklist of concepts 601 Checklist of equations 553 Checklist of equations 601
TOPIC 130 The canonical ensemble 554 TOPIC 14C Liquids 602 130.1 The concept of ensemble 554 14C.1 Molecular interactions in liquids 602 (a) Domlnatlng confi9uratlons 555 (a) The radial dlstrlbution functlon 602 (b) Fluctuatlons from the most probable dlstrlbutlon 555 (b) The calculation of g(r) 603 130.2 The mean energy of a system 556 (c) The thermodynamic properties ofllqulds 604
130.4 The variation of the energy with volume 557 (a) Surface tenslon 605
Checklist of concepts 558 (b) Curved surfaces 606
Checklist of equations 558 (c) Caplllary actlon 606
14C.3 Surfacefilms 608 TOPIC 13E The internal energy and the entropy 559 (a) Surface pressure 608
13E.1 The internal energy 559 (b) The thermodynamlcs of surface layers 609
(a) The calculation of Interna! ener9y 559 14C.4 Condensation 611 (b) Heat capaclty 560 Checklist of concepts 612 13E.2 The entropy 561 Checklist of equations 612 (a) Entropy and the partltlon functlon 561
(b) The translatlonal contrlbutlon 563 TOPIC 140 Macromolecules 613 (c) The rotatlonal contrlbutlon 563 140.1 Average molar masses 613 (d) The vlbrational contrlbutlon 564 140.2 The different levels of structure 614
TOPIC 150 The mechanical properties of solids Checklist of concepts
Checklist of equations
TOPIC 15E The electrical properties of solids 15E.1 Metallic conductors
15E.2 lnsulators and semiconductors
15E.3 Superconductors
Checklist of concepts
Checklist of equations
TOPIC 15F The magnetic properties of solids 15F.1 Magnetic susceptibility
1SF.2 Permanent and induced magnetic moments
15F.3 Magnetic properties of superconductors
Checklist of concepts
Checklist of equations
TOPIC 15G The optical properties of solids 15G.1 Excitons
15G.2 Metals and semiconductors
(a) Light absorptlon
(b) Llght-emlttlng diodes and dlode lasers
1SG.3 Nonlinear optical phenomena
Checklist of concepts
FOCUS 16 Molecules in motion
TOPIC 16A Transport properties of a perfect gas 16A.1 The phenomenological equations
16A.2 The transport parameters
(a) The diffusion coefficient
(b) Thermal conductlvity
(c) Vlscoslty
(d) Effusion
Checklist of concepts
Checklist of equations
TOPIC 168 Motion in liquids 168.1 Experimental results
(a) Liquid viscosity
(b) Electrolyte solutions
168.2 The mobilities of Ions
(a) The drlft speed
(b) Mobility and conductivlty
(c) The Einstein relations
Checklist of concepts
Checklist of equations
FOCUS 16( Diffusion 16C.1 The thermodynamic view
16C.2 The diffusion equation
(a) Simple diffusion
666 667
668
669 669
670
672
673
673
674 674
675
676
676
677
678 678
679
679
680
680 ·
681
689
690 690
692
693
694
696
697
697
698
699 699
699
700
701.
701
703
704
705
705
706 706
708
708
Full Contents X:Xfü
(b) Diffusion with convectlon 710 (a) Stepwise polymerizatlon 755
(c) Solutlons of the diffusion equatlon 710 (b) Chaln polymerlzatlon 756
16C.3 The statistical view 712 17F.3 Enzyme-catalysed reactlons 758
Checklist of concepts 713 Checklist of concepts 761
Checklist of equations 714 Checklist of equations 761
Chemical kinetics TOPIC 17G Photochemistry 762
FOCUS17 721 17G.1 Photochemical processes 762
TOPIC 17A The rates of chemical reactions 723 17G.2 The prlmary quantum yleld 763
17A.1 Monitoring the progress of a reaction 723 17G.3 Mechanism of decay of excited singlet states 764
(a) General conslderatlons 723 17G.4 Quenching 765
(b) Special technlques 724 17G.5 Resonance energy transfer 767
17A.2 The rates of reactions 725 Checklist of conc~pts 768 (a) The definitlon of rate 725 Checklist of equatlons 768 (b) Rate laws and rate constants 726
(c) Reactlon order 727
(d) The determlnatlon of the rate law 728 FOCUS18 Reaction dynamics 779 Checklist of concepts 729 TOPIC 18A Collision theory 780 Checklist of equations 730 18A.1 Reactive encounters 780
17C.1 First-order reactions approaching equilibrium 737 (a) Classes of reaction 787 17C.2 Relaxation methods 738 (b) Diffusion and reactlon 788
Checklist of concepts 740 188.2 The material-balance equation 789
Checklist of equations 740 (a) The formulatlon of the equatlon 789
(b) Solutlons of the equatlon 790 TOPIC 170 The Arrhenius equation 741 Checklist of concepts 790
170.1 The temperature dependence of reaction rates 741 Checklist of equations 791 170.2 The Interpretation ofthe Arrhenius parameters 742
(a) A first look at the energy requirements of reactlons 743 TOPIC 18C Transition-state theory 792 (b) The effect of a catalyst on the actlvatlon energy 744 18C.1 The Eyring equation 792
Checklist of concepts 745 (a) Theformulatlon ofthe equatlon 792
Checklist of equatlons 745 (b) The rate of decay of the actlvated complex 793
(c) The concentration of the activated complex 793
TOPIC 17E Reaction mechanisms 746 (d) The rate constant 794