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and $a_{1}$ the distances of the spheres from the centre, we may neglect the second and third terms of the factor in the denominator. The whole moment tending to turn the torsion-arm may then be written

$EE_{1}aa_{1}\sin \theta \left\{{\frac {1}{r^{3}}}-{\frac {1}{b^{3}}}\right\}=M(\theta -\phi )$

Electrometers for the Measurement of Potentials.

216.] In all electrometers the moveable part is a body charged with electricity, and its potential is different from that of certain of the fixed parts round it. When, as in Coulomb's method, an insulated body having a certain charge is used, it is the charge which is the direct object of measurement. We may, however, connect the balls of Coulomb's electrometer, by means of fine wires, with different conductors. The charges of the balls will then depend on the values of the potentials of these conductors and on the potential of the case of the instrument. The charge on each ball will be approximately equal to its radius multiplied by the excess of its potential over that of the case of the instrument, provided the radii of the balls are small compared with their distances from each other and from the sides or opening of the case.

Coulomb's form of apparatus, however, is not well adapted for measurements of this kind, owing to the smallness of the force between spheres at the proper distances when the difference of potentials is small. A more convenient form is that of the Attracted Disk Electrometer. The first electrometers on this principle were constructed by Sir W. Snow Harris^[1]. They have since been brought to great perfection, both in theory and construction, by Sir W. Thomson^[2].

When two disks at different potentials are brought face to face with a small interval between them there will be a nearly uniform electrification on the opposite faces and very little electrification on the backs of the disks, provided there are no other conductors or electrified bodies in the neighbourhood. The charge on the positive disk will be approximately proportional to its area, and to the difference of potentials of the disks, and inversely as the distance between them. Hence, by making the areas of the disks large

↑ Phil Trans. 1834.
↑ See an excellent report on Electrometers by Sir W. Thomson. Report of the British Association, Dundee, 1867.

[1] Phil Trans. 1834.

[2] See an excellent report on Electrometers by Sir W. Thomson. Report of the British Association, Dundee, 1867.

[1]

[2]

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