Global Journal of Science Frontier Research, H: Environment & Earth Science, Volume 21 Issue 6

This study might be comparing the amount of precipitation, daily temperature, wind flow, and solar variation in the event to similar past events to estimate the effect of atmospheric disparity and solar variation. The proposed study will be helpful for planning and interpretation of mitigation measures and land use patterns for future extreme weather condition. a) Methodology The methodology is the specific procedures used to collect, select, preparation of tools, and analyze information to obtain desired results of any problem. The solar and atmospheric raw data have been obtained from Indian Meteorological Department (IMD), Pune, India, and the internet (www.meteoblue.com ) for study. b) Data interpretation methodology The collected daily data have been studied from January 1988 to Dec ember 2019 for solar ra diation and atmospheric pressure and for the data of Precipitation, temperature, and wind data have studied from January 1978 to December 2019 (as per data availability). The row data have mentioned as daily maximum, minimum, and mean data for I st half-yearly (January to June), IInd half-yearly (July to December), and the yearly wise. After that, data has compiled a ten year groups, i.e. the year 1978-1987, the year 1988-1997, the year 1998-2007 and the year 2008-2019. Basis on research outcomes, predicted the next three-decades (i.e. the year 2051-2060) climatic conditions and probable natural disasters, extreme weather events, changes in precipitation patterns, atmospheric pressure, and solar radiation. This research work will help to open a new way to study the extremes climatic condition basis on atmospheric and solar disparities. III. D ata I nterpretation Summary of data interpretation have given below: a) Solar Radiation Data for the year 1988-2019 Basis on of solar radiation observed from the year 1988-2019, prepared below table 1 a summarized sheet of data: The year 1988-1997 1998- 2007 2008-2019 Mean radiation for IstHalf-year(in Watt/square meter- W/m 2 ) 6244.65 6237.14 6227.02 Mean radiation for IIndHalf-year(in W/m 2 ) 4561.15 4833.11 4454.78 Mean radiation (W/m 2 ) 5402.90 5535.12 5340.90 Fig. 1: Kota means line diagram for Solar Radiation for the year 1988-2019 From table 1, it is observed that mean Solar Radiation was increased in the year 1998-2007 compared to the previous period the year 1988-1997 and decreased in the year 2008-2019. For the Ist half- yearly Solar Radiation continues decreased from the year 1988 to the year 2019 and Solar Radiation increased in the year 1998-2007 compared to previous period year 1988-1997 and decreases in the year 2008- 2019 for IInd half-yearly. The line diagram for Kota Solar Radiation for the year 1988-2019 has shown in figure 1. 1 Global Journal of Science Frontier Research Volume XXI Issue VI Year 2021 1 ( H ) © 2021 Global Journals Version I Role of Solar & Atmospheric Disparity on Climate of Western India, Kota, Rajasthan, India Table 1: Kota Solar Radiation summarized sheet from the year 1988 to the year 2019