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Durham e-Theses
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Practical considerations in the reconciliation of the direct and indirect methods or measuring the air-earth current

Darsley, R. R. (1966) Practical considerations in the reconciliation of the direct and indirect methods or measuring the air-earth current. Masters thesis, Durham University.

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Abstract

Progress in any field of scientific interest is often advanced by the failure to find agreement between two different approaches to a particular measurement in the field. This is so because it forces attention on he theory behind the measurements and the conditions under which the measurements were made. Such a problem is identified in the field of Atmospheric electricity. Differing results have been found for the value of the fine weather air-earth current when measured by the "indirect" and "direct" methods of approach. The indirect method involves the recording of the fine weather conductivity and the potential gradient and equating their product with the conduction current. In the direct method, the total charge arriving at a portion of the earths surface is measured. The direct method, though more difficult, appears to be the more fundamental measurement and a critical review of previous experiments and the hypotheses of work at ground level, in that it predicts a system from the examination of one of the systems boundaries, is indicated. The experimental problems associated with the direct and indirect methods and described with particular reference to the site used for the measurement of atmospheric electricity at Durham Observatory. In particular, the effects of pollution and the displacement current are discussed and some details of an unsuccessful attempt to devise a form of the direct method that would enable the true magnitude of any convection current to be found, are given. Suggestions are made for the measurements required and the conditions under which they should be made if the final resolution of these differences in the recording of the fine weather air-earth current is to be achieved.

Item Type:Thesis (Masters)
Award:Master of Science
Thesis Date:1966
Copyright:Copyright of this thesis is held by the author
Deposited On:14 Mar 2014 17:04

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