European Science Methodical Journal

DYNAMICS OF EARTH'S MAGNETOSPHERE: SOLAR WIND INTERACTIONS AND THEIR IMPACT ON THE ATMOSPHERE

Najlaa Ozaar Hasan

Department of Physics, College of Girls Education, Kirkuk University, Kirkuk, Iraq

Abstract

The overall purpose of this study, however, was to get at the complex linkages between Earth's magnetic field and solar wind on one side — what scientists know about a geomagnetic storm can tell them about atmospheric impacts as well how would it affect technology. This is an important first step in understanding where boundary currents are within the magnetosphere, as well if their magnetic fields are reconnecting and solar wind energy is feeding into high-temperature atmosphere. This is an example of how changes in solar wind can move Earth's magnetic sheath, opening up a breach through which energy and particles from the sun get into our magnetosphere. This also shows how different parts of the solar wind might impact atmospheric processes which could create electrical currents that reach power lines on Earth with an impending values may test analyst warnings into more detail, if so required. The research underlines the significance of considering solar activity variations in satellite missions to account for atmospheric drag. By enhancing our understanding of these interactions over time, we can better prepare for and adapt to the effects on our environment and technological systems.