William C. Hinds

TL;DR: Properties of Gases Uniform Particle Motion Particle size Statistics Straight-Line Acceleration and Curvilinear Particle motion Adhesion of Particles Brownian Motion and Diffusion Thermal and Radiometric Forces Filtration Sampling and Measurement of Concentration Respiratory Deposition Coagulation Condensation and Evaporation Atmospheric Aerosols Electrical Properties Optical Properties Bulk Motion of aerosols Dust Explosions Bioaerosols Microscopic measurement of Particle Size Production of Test aerosols Appendices Index Index

TL;DR: Aerosol Technology, Second Edition as mentioned in this paper is the #1 guide to aerosol science and technology and has been the text of choice among students and professionals who need to acquire a thorough working knowledge of modern aerosol theory and applications.

TL;DR: Data showed that both atmospheric dispersion and coagulation contributed to the rapid decrease in particle number concentration and change in particle size distribution with increasing distance from the freeway.

TL;DR: In this article, the authors found that the relative concentration of CO, BC and particle number decreased exponentially and tracked each other well as one moves away from the freeway, and both atmospheric dispersion and coagulation appeared to contribute to the rapid decrease in particle number concentration and change in particle size distribution with increasing distance from a freeway.

TL;DR: The biology of oxidative stress, including protective and injurious effects that explain the impact of particulate matter-induced oxidative stress in asthma are reviewed, with an emphasis on the pro-oxidative effects of diesel exhaust particles and their chemicals in the respiratory tract.