About the Mechanism of the Hail Formation
Science Discovery
Volume 2, Issue 2, August 2014, Pages: 27-33
Received: Aug. 10, 2014; Accepted: Sep. 2, 2014; Published: Sep. 20, 2014
Views 3136      Downloads 222
Ismailov Sokhrab Akhmedovic, Doctor of Chemical Sciences, Institute of Petrochemical Processes, Academy of Sciences of Azerbaijan, Baku
Article Tools
Follow on us
The new hypothesis about the building mechanism of hail showers is made under atmosphere conditions. It is suggested, contrary to other famous theories that hail showers building is stipulated by the generation of high temperature in lightning strike in atmosphere. Quick water evaporation along and around the discharge channel leads to its rough freezing with the advent of hail showers of different size. The transition of zero- degree isotherm is not necessary for the building of hail showers; they are formed in the lower atmosphere. Storm is accompanied by hail showers. Hailstorm is observed only in case of severe thunderstorm.
Hailstone, Zero Temperature, Evaporation, Cold, Lightning, Storm
To cite this article
Ismailov Sokhrab Akhmedovic, About the Mechanism of the Hail Formation, Science Discovery. Vol. 2, No. 2, 2014, pp. 27-33. doi: 10.11648/j.sd.20140202.11
Battal L.J. Person will change the weather. // Gidrometeoizdat. L.: 1965.111 p.
Hydrogen properties, production, storage, transportation and application. Under the. Ed. Hamburg, D. Yu, JF Dubovkin M.: Chemistry, 1989. 672 p.
Grashin R.A., Barbinov V.V., Babkin A.V. Comparative evaluation of the effect of liposomal and conventional soaps functional activity apocrine sweat glands and the chemical composition of human sweat // Journal "Dermatology and Cosmetology», 2004. No.1, P. 39.
Russell J. Amorphous ice.─Publ. house «VSD», 2013.157 p.
Ermakov V.I., Stozhkov Y.I. Physics of thunderclouds. LPI RF them. P.N.Lebedev. M.: 2004. 26 p.
Zhelezniak G.V., Kozko A.V. Mysterious phenomena of nature. Proc. club, Kharkiv, 2006. ─ 180 p.
Beginning Ph.M. Physchemistry microcosm. Monograph. T. II. Krasnodar. 2009. 450 p.
Klossowski A. // Works meteor. network NW Russia in 1889, 1890, 1891.
Middleton W. History of the Theories of Rain and other forms of precipitation. L.: Gidrometeoizdat.1969. 198 p.
Millikan R. Electrons (+ and -) protons, photons, neutrons, and cosmic luchi.180 with. English. M-L.: GONTI. 1939. 311 p.
Nazarenko A.V. Hazardous weather convective origin. Teaching aid for higher education. Publishing and Printing center of Voronezh State University. 2008. 62 p.
Rusanov A.I. Thermodynamics of nucleation on charged centers. // Dokl. USSR Academy of Sciences, 1978 T. 238. No. 4. P. 831.
Tlisov M.I. Physical characteristics of hail and the mechanisms of its formation. Gidrometeoizdat. 2002. 385 p.
Huchunaev, B.M. Microphysics of origin and prevent hail. Diss. uch. on competition. step. Doctor of Physical and Mathematical Sciences. Nalchik, 2002. 289 p.
George St.Yu. Practical working in organic chemistry. MSU, 1957. No. 2. No. 1. P.39.
Browning K.A., Ludlam F.H. Airflow in convective storms. Quart .// J. Roy. Meteor. Soc. 1962. V.88. P.117.
Buch Ch. L. // Abh. Akad. Berlin. 1814. V.15. S. 74.
Ferrel W. Recent advances in meteorology. Washington: 1886, App. 7L
Gassendi P. // Opera omnia in sex tomos divisa. Leyden. 1658. V. 11. P. 70.
Guyton de Morveau L. B. // Obs. sur la Phys. 1777. Vol. 9. P. 60.
Ian Strangeways. Precipitation Theory, Measurement and Distribution .// Cambridge University Press. 2006. 290 p.
Mongez J. A. // Obs. sur la Phys. 1778. Vol. 12. P. 202.
Nollet J.A. Recherches sur les causes particulieres des phenomenes electriques. Paris. 1764. P. 324.
Olmsted D. // Amer. J. Sci. 1830. Vol. 18. P. 1.
Volta A. // Metapo sopra la grandine. Giornale de Fisica. Pavia, 1808.Vol.1. pp. 31. 129. 179.
Science Publishing Group
1 Rockefeller Plaza,
10th and 11th Floors,
New York, NY 10020
Tel: (001)347-983-5186