Atmospheric Chemistry and Physics: From Air Pollution to Climate ChangeJohn Wiley & Sons, 4 avr. 2016 - 1152 pages Expanded and updated with new findings and new features
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Table des matières
The Atmosphere | 3 |
Problems | 16 |
Chapter 19 | 19 |
Chapter 15 | 40 |
Chapter 20 | 49 |
PART IV | 50 |
Chemical Kinetics | 69 |
Atmospheric Radiation and Photochemistry | 88 |
Dynamics of Aerosol Populations | 537 |
Atmospheric Organic Aerosols | 573 |
Interaction of Aerosols with Radiation | 633 |
Calculation of Scattering and Extinction | 654 |
Physical and Dynamic Meteorology | 661 |
1 Properties of Water and Water Solutions | 701 |
Cloud Physics | 708 |
Chapter 22 | 742 |
and 2 | 105 |
CONTENTS Chapter 5 Chemistry of the Stratosphere | 119 |
Atmospheric Chemistry | 121 |
Chemistry of the Troposphere | 175 |
Organic Functional Groups | 254 |
Chemistry of the Atmospheric Aqueous Phase | 265 |
CONTENTS Appendix 7 2 Additional AqueousPhase Sulfur Chemistry | 305 |
Properties of the Atmospheric Aerosol | 325 |
Chapter 21 | 343 |
Dynamics of Single Aerosol Particles | 362 |
Thermodynamics of Aerosols | 396 |
Problems | 442 |
Nucleation | 448 |
3 Recapitulation of Classical Theory | 464 |
Chapter 16 | 482 |
Mass Transfer Aspects of Atmospheric Chemistry | 493 |
Atmospheric Diffusion | 763 |
Dry Deposition | 829 |
Problems | 852 |
and 20 | 885 |
The Global Atmosphere Biogeochemical Cycles and Climate | 889 |
Problems | 906 |
Problems | 927 |
Global Climate | 931 |
Problems | 965 |
Chemical Transport Models and Statistical Models | 1009 |
Statistical Models | 1051 |
Units and Physical Constants | 1091 |
Rate Constants of Atmospheric Chemical Reactions | 1098 |
1106 | |
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Expressions et termes fréquents
absorption acid actinic aerosol altitude approximately aqueous aqueous-phase assumed Atmos atmospheric atoms average calculate carbon Chapter Chem chemical chemistry cloud cluster coefficient collision compounds concentration consider constant containing corresponding cycle decreases defined depends diameter distribution droplet effect emissions energy Environ equal equation equilibrium estimated et al example expressed factor Figure flux force formation fraction function Geophys given global HNO3 important increases initial lead levels lifetime limit liquid loss lower mass mean measurements mechanism mixing ratio molecules nitrate Note nucleation obtain occurs organic oxidation ozone particles phase photolysis Phys present pressure production radical range rate constant reaction region relative removal result S(IV shows solution sources species stratosphere sulfate sulfuric surface Table temperature transport troposphere unit values vapor volume yield