Page:A Treatise on Electricity and Magnetism - Volume 1.djvu/253

and the charge at the intersection of the four perpendiculars is

170.] Let the four spheres be ${\displaystyle A,B,C,D}$, and let the electrified point be ${\displaystyle O}$. Draw four spheres ${\displaystyle A_{1},B_{1},C_{1},D_{1}}$, of which any one, ${\displaystyle A_{1}}$, passes through and cuts three of the spheres, in this case ${\displaystyle B,C}$, and ${\displaystyle D}$, at right angles. Draw six spheres ${\displaystyle (ab),(ac),(ad),(be),(bd),(cd)}$, of which each passes through and through the circle of intersection of two of the original spheres.

The three spheres ${\displaystyle B_{1},C_{1},D_{1}}$ will intersect in another point besides ${\displaystyle O}$. Let this point be called ${\displaystyle A'}$, and let ${\displaystyle B',C'}$, and ${\displaystyle D'}$ be the intersections of ${\displaystyle C_{1},D_{1},A_{1}}$ of ${\displaystyle D_{1},A_{1},B_{1}}$, and of ${\displaystyle A_{1},B_{1},C_{1}}$ respectively. Any two of these spheres, ${\displaystyle A_{1},B_{1}}$, will intersect one of the six (${\displaystyle cd}$) in a point (${\displaystyle a'b'}$). There will be six such points.

Any one of the spheres, ${\displaystyle A_{1}}$, will intersect three of the six ${\displaystyle (ab),(ac),(ad)}$ in a point ${\displaystyle a'}$. There will be four such points. Finally, the six spheres ${\displaystyle (ab),(ac),(ad),(cd),(db),(bc)}$, will intersect in one point ${\displaystyle S}$.

If we now invert the system with respect to a sphere of radius ${\displaystyle R}$ and centre ${\displaystyle O}$, the four spheres ${\displaystyle A,B,C,D}$ will be inverted into spheres, and the other ten spheres will become planes. Of the points of intersection the first four ${\displaystyle A',B',C',D'}$ will become the centres of the spheres, and the others will correspond to the other eleven points in the preceding article. These fifteen points form the image of ${\displaystyle O}$ in the system of four spheres.

At the point ${\displaystyle A'}$, which is the image of ${\displaystyle O}$ in the sphere ${\displaystyle A}$, we must place a charge equal to the image of ${\displaystyle O}$, that is, ${\displaystyle -{\tfrac {\alpha }{a}}}$, where ${\displaystyle \alpha }$ is the radius of the sphere ${\displaystyle A}$, and ${\displaystyle a}$ is the distance of its centre from ${\displaystyle O}$. In the same way we must place the proper charges at ${\displaystyle B',C',D'}$.

The charges for each of the other eleven points may be found from the expressions in the last article by substituting ${\displaystyle \alpha ',\beta ',\gamma ',\delta '}$ for ${\displaystyle \alpha ,\beta ,\gamma ,\delta }$, and multiplying the result for each point by the distance of the point from ${\displaystyle O}$, where