The Effect of some Parameters of the Solar Wind on the Amounts of Clouds-Over Iraq for the Period (1988-2019) | ||
Rafidain Journal of Science | ||
Volume 32, Issue 3, September 2023, Pages 72-81 PDF (1.29 M) | ||
Document Type: Research Paper | ||
DOI: 10.33899/rjs.2023.180293 | ||
Authors | ||
Anfal Ahmad ALJeboury1; Imad Ahmed Al-Ibrahimi2; Igor V. Kopytin3 | ||
1Dept. of Physics, College of Science, Mosul University, Mosul,IRAQ | ||
2department of physics, college of sciences, mosul of university. | ||
3Department of Physics/ Voronezh State University/ Russia | ||
Abstract | ||
It is known that the sun and its phenomena have an effect on the Earth's atmosphere in general and the troposphere in particular Especially from this pulpit and because of the importance of this topic and the studies that included it on Iraq, there were few studies to find the relationship between some The parameters of the solar wind are represented by (the radio flux of the sun, F10.7, the magnetic field DST and the electric field Ey) and their effect on the amounts of clouds above Iraq for the period 10/1/1988-31/5/2019. Solar wind parameters data were adopted from the official website of NASA (NOAA), at When clouds quantities were adopted from the Iraqi general authority for Meteorology and Seismic Monitoring for four different stations (Mosul and Kirkuk represent the northern region - Baghdad represents the central region - Basra represents the southern region. The data were statistically analyzed by the statistical program (Minitab 19.0), where the results showed that the effect of F10.7 is generally opposite, except for the phase descending from solar cycle 24 does not show an effect. DST is fluctuating in effect as it is reversed in the total duration and descending phase of the solar cycle 24 and is directed to the solar cycle 23 and does not show the effect of the solar cycle 22 While the electric field Ey has a direct effect for the total duration and an inverse effect with respect to the descending phase of the solar cycle 23. | ||
Keywords | ||
solar radio flux F10.7; solar relationship- climate; clouds; DST-index | ||
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