Schwerdtfeger Library Publications Database

Results: Found 97822 records (displaying records 92401 through 92425)

92401. Wang, Pao K.. Diagosing cloud physical and dynamical processes atop thunderstorms using satellite observational data. Boston, MA, American Meteorological Society, 2010, Abstract 7.1.

92402. Wang, Pao K.. What happened in Shanghai (climatewise) in the 18th century?. Boston, MA, American Meteorological Society, 1997, pp.232-233. Reprint # 2334.

92403. Wang, Pao K.. Ice microdynamics. San Diego, CA, Academic Press, 2002. Call Number: QC/926.32/W36/2002.

92404. Wang, Pao K.. Transport of aerosol particles by deep convective process and its contribution to the formation of Junge layer. Boston, MA, American Meteorological Society, 2002, pp.69-72. Reprint # 3102.

92405. Wang, Pao K.. Deep convective cloud phenomena in the upper troposphere/lower stratosphere - A new development in cloud science. Boston, MA, American Meteorological Society, 2006, Paper 11.2. Reprint # 5105.

92406. Wang, Pao K.. A particle representation of tropical shallow water waves. Boston, MA, American Meteorological Society, 1991, pp.225-228. Reprint # 4509.

92407. Wang, Pao K.. A brief review of the Eulerian variational principle for atmospheric motions in rotating coordinates. Atmosphere-Ocean, Volume: 22, Issue: 3, 1984, pp.387-392. Reprint # 622.
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92408. Wang, Pao K.. Brownian diffusion of charged fine particles surrounding a conducting cylinder in the presence of an external electric field. Journal of Aerosol Science, Volume: 17, Issue: 2, 1986, pp.201-209. Reprint # 716.

92409. Wang, Pao K.. Comparison of the shape and size distributions of raindrops and hailstones. Offenbach am Main, Deutschen Wetterdienstes, 1988, pp.572-573. Reprint # 321.

92410. Wang, Pao K.. A convective diffusion model for the scavenging of submicron aerosol particles by snow crystals of arbitrary shapes. Journal de Recherches Atmosphriques [Atmospheric Research], Volume: 19, Issue: 2, 1985, pp.185-191. Reprint # 2178.

92411. Wang, Pao K.. A potential and stream function analysis of two-dimensional steady-state convective diffusion equations involving Laplace fields. International Journal of Heat and Mass Transfer, Volume: 28, Issue: 6, 1985, pp.1089-1095. Reprint # 635.

92412. Wang, Pao K.. Recent new evidences of troposphere-to-stratosphere transport by deep convective storms. Boston, MA, American Meteorological Society, 2002, Abstract 8.5.

92413. Wang, Pao K.. The shape-size distribution of hydrometeors and their effects on cloud properties. Madison, WI, University of Wisconsin-Madison, Department of Meteorology, 1984. Call Number: UW MET Publication No.84.11.W1.

92414. Wang, Pao K.. Characterization of ice crystals in clouds by simple mathematical expressions based on successive modification of simple shapes. Journal of the Atmospheric Sciences, Volume: 54, Issue: 15, 1997, pp.2035-2041. Reprint # 2374.
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92415. Wang, Pao K.. Storm top cirrus plumes and jumping cirrus as indicators of clear air turbulence generated by deep convective storms. Boston, MA, American Meteorological Society, 2008, Abstract 9.2.

92416. Wang, Pao K.. Two-dimensional shape and size characterization of polygonally symmetric particles. Journal of Colloid and Interface Science, Volume: 117, Issue: 1, 1987, pp.271-281. Reprint # 1032.

92417. Wang, Pao K.. The Kansas green thunderstorm of 4 October 1998. Bulletin of the American Meteorological Society, Volume: 83, Issue: 3, 2002, pp.355-357. Reprint # 3157.
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92418. Wang, Pao K.. Characterization of graupel and hailstones by simple mathematical expressions. Boston, MA, American Meteorological Society, 1995, pp.434-435. Reprint # 1777.

92419. Wang, Pao K.. A cloud model study of wind shear effect on the satellite observed storm top features. European Severe Storms Laboratory (ESSL), 2009. Reprint # 7884.

92420. Wang, Pao K.. A cloud model interpretation of jumping cirrus above storm top. Geophysical Research Letters, Volume: 31, Issue: 18, 2004, doi:10.1029/2004GL020787. Reprint # 4181.

92421. Wang, Pao K.. The Wisconsin Dynamic/Microphysical Model (WISCDYMM) and the use of it to interpret satellite-observed storm dynamics. Dordrecht, The Netherlands, Springer, 2007, pp.435-446. Reprint # 6103.

92422. Wang, Pao K.. Shape and microdynamics of ice particles and their effects in cirrus clouds. Advances in Geophysics, Volume: 45, 2002, pp.1-258p., arrata. Reprint # 5442.

92423. Wang, Pao K.. The thermodynamic structure atop a penetrating convective thunderstorm. Atmospheric Research, Volume: 83, Issue: 2, 2007, pp.254-262. Reprint # 5352.

92424. Wang, Pao K.. Visible and IR features at storm top as observed by meteorological satellites. National Oceanic and Atmospheric Administration (NOAA), 2014, abstract; PowerPoint presentation.

92425. Wang, Pao K.. Plumes above thunderstorm anvils and their contributions to cross tropopause transport of water vapor in midlatitudes. Boston, MA, American Meteorological Society, 2001, pp.161-164. Reprint # 3003.