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Abstract
Day to day resistance power of insecticide increase due to which they are unaffected by pesticide so farmer prefer more hazards pesticide spray on crop, due to which many diseases appear in animal and human. Different pesticide spray affects the different organs in living animal. Slowly it also disturbs the life biodiversity. More concentration of pesticide is dangerous to living animal and human. So it is necessary to define safe distance from spread field. It is also necessary to mention the time limitation to avoid the entry of living beings in the field by seller on the product. So we try to develop the mathematical model for source as point source and line source is a farming field and try to solve the model
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Prashant Chandra1, Jaipal 1, V.K.Katiyar Mathematical model for dispersion of air pollutant considering settling of particles and dry deposition Int. J. of Mathematical Sciences and Applications, Vol. 1, No. 3, September 2011, 1591-1595
Marie Emmanuel Ntigura Habingabwa, Fidèle Ndahay and Fredrik Berntsson Air Pollution Tracking using PDEs Rwanda Journal,: Mathematical Sciences, Engineering and Technology Volume 27 Series C, 2012, 63-69
Oliver Marunţalu, Gheorghe Lazaroiu,Dana Andreya Bondrea
Mathematical model for air pollutants dispersion emitted by fuel combustion U.P.B. Sci. Bull., Series D, Vol. 77, Iss. 4, 2015, ISSN 1454-2358.
Adel A. Abdel-Rahman On the atmospheric dispersion and gaussian plume model 2nd International Conference on waste management, water pollution, air pollution, indoor climate (WWAI'08) Corfu, Greece, October 26-28, 2008
Marek Slesicki Application of mathematical modelling methods in the protection of groundwater environment Journal of water and land development J. Water Land Dev. No. 13b, 2009: 31–39