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Conceptual Model of the Earth’s Global Electric Field.

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Presentation on theme: "Conceptual Model of the Earth’s Global Electric Field."— Presentation transcript:

1 Conceptual Model of the Earth’s Global Electric Field

2

3 Maxwell’s Equations

4 Conceptual Model of the Earth’s Global Electric Field

5 Earth’s Magnetic Field

6

7 The Ionosphere

8 There are enough ions and electrons to make the atmosphere a reasonably good conductor Charged particles are created when solar radiation at wavelengths shorter than 102.7 nm is absorbed (photoionization)

9 The Ionosphere: The D-layer Most of the shorter uv rays have been absorbed in E and F Longer wavelengths ( <111.8nm), x-rays and solar cosmic rays are primarily responsible Disappears at night

10 The Ionosphere: The E-layer A Chapman layer – The production of ions in a given region is proportional to flux of radiation and to the number of molecules in that region – Two opposing tendencies Flux diminishes Number density increases Ionization of O 2 and N 2 Transition occurs from well mixed

11 The Ionosphere: The F-layer F1: Chapman layer – Ionization of O (i.e. atomic oxygen) at even shorter wavelengths ( <91.1nm) – O + reacts with O 2 and N 2 to create ionized molecules F2: modified Chapman Layer – Ionization of O (i.e. atomic oxygen) at still shorter wavelengths ( <80nm) – Also some ionization of N 2

12 The losses We are “creating” all of these charges, where does it go? D-region: electron capture by positively charged ions E-region: dissociative recombination of a molecule that reacts with an electron F-regions: dissociative recombination of a molecule that reacts with an electron – The difference in F1 and F2 is the reaction rate differs

13 Ionosphere electron desnisty

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