Global atmospheric electrical circuit

The global atmospheric electrical circuit is the course of continuous movement of atmospheric electricity between the ionosphere and the Earth. Through solar radiation, thunderstorms, and the fair-weather condition, the atmosphere is subject to a continual and substantial electrical current. The global atmospheric electrical circuit is the course of continuous movement of atmospheric electricity between the ionosphere and the Earth. Through solar radiation, thunderstorms, and the fair-weather condition, the atmosphere is subject to a continual and substantial electrical current. Principally, thunderstorms throughout the world carry negative charges to the earth, which is then discharged gradually through the air in fair weather. This atmospheric circuit is central to the study of atmospheric physics and meteorology. It is used in the prediction of thunderstorms, and was central to the understanding of electricity. In the past it has been suggested as a source of available energy, or communications platform. The global electrical circuit is also applied to the study human health and air pollution, due of the interaction of negative ions and aerosols. The effect of global warming, and temperature-sensitivity of the Earth's electrical circuit is unknown. In the 18th century, scientists began understanding the link between lightning and electricity. In addition to the iconic kite experiments of Benjamin Franklin and Thomas-François Dalibard, some early studies of electric charges in a 'cloudless atmosphere' were done by John Canton, Giambatista Beccaria, and John Read. In 1752, Louis-Guillaume Le Monnier observed electrification in fair weather. Various others performed measurements throughout the late 18th century, often finding consistent diurnal variations. During the 19th century, several long series of observations were made. Measurements near cities were heavily influenced by smoke pollution. In the early 20th century, balloon ascents provided information about the electric field in the upper atmosphere. Important work was done by the research vessel Carnegie, which produced standardised measurements around the world's oceans (where the air is relatively clean). C. T. R. Wilson was the first to present a theory of a global circuit in 1920. Lightning strikes the earth 40,000 times per day, and can be thought to charge the earth like a battery. Thunderstorms generate an electrical potential difference between the earth's surface and the ionosphere, mainly by means of lightning. Because of this, the ionosphere is positively charged relative to the earth.Consequently, there is always a small current transporting charged particles between the ionosphere and the surface. This current is carried by a small number of ions present in the atmosphere (generated mainly by cosmic rays in the upper atmosphere, and by radioactivity near the surface).Different locations, and meteorological conditions on the earth can have different electrical conductivity. Fair weather condition describes the state of atmospheric electricity where air carries this electrical current between the earth and the ionosphere.