Page:A Treatise on Electricity and Magnetism - Volume 1.djvu/112

On Potential Functions.

70.] The quantity ${\displaystyle Xdx+Ydy+Zdz}$ is an exact differential whenever the force arises from attractions or repulsions whose in tensity is a function of the distance only from any number of points. For if ${\displaystyle r_{1}}$ be the distance of one of the points from the point ${\displaystyle (x,y,z)}$, and if ${\displaystyle R_{1}}$ be the repulsion, then

${\displaystyle X_{1}=R_{1}l=R_{1}{\frac {dr_{1}}{dx}}}$,

with similar expressions for ${\displaystyle Y_{1}}$ and ${\displaystyle Z_{1}}$, so that

${\displaystyle X_{1}\,dx+Y_{1}\,dy+Z_{1}\,dz=R_{1}\,dr_{1}}$;

and since ${\displaystyle R_{l}}$ is a function of ${\displaystyle r_{l}}$ only, ${\displaystyle R_{l}dr_{1}}$ is an exact differential of some function of ${\displaystyle r_{1}}$, say ${\displaystyle V_{1}}$.

Similarly for any other force ${\displaystyle R_{2}}$, acting from a centre at distance ${\displaystyle r_{2}}$,

${\displaystyle X_{2}\,dx+Y_{2}\,dy+Z_{2}\,dz=R_{2}\,dr_{2}=dV_{2}}$.

But ${\displaystyle X=X_{1}+X_{2}+{\mbox{etc. and }}Y}$ and ${\displaystyle Z}$ are compounded in the same way, therefore

${\displaystyle X\,dx+Y\,dy+Z\,dz=dV_{1}+dV_{2}+\And \!\!c.=dV}$.

${\displaystyle V}$, the integral of this quantity, under the condition that ${\displaystyle V=0}$ at an infinite distance, is called the Potential Function.

The use of this function in the theory of attractions was introduced by Laplace in the calculation of the attraction of the earth. Green, in his essay 'On the Application of Mathematical Analysis to Electricity' gave it the name of the Potential Function. Gauss, working independently of Green, also used the word Potential. Clausius and others have applied the term Potential to the work which would be done if two bodies or systems were removed to an infinite distance from one another. We shall follow the use of the word in recent English works, and avoid ambiguity by adopting the following definition due to Sir W. Thomson.

Definition of Potential. The Potential at a Point is the work which would be done on a unit of positive electricity by the electric forces if it were placed at that point without disturbing the electric distribution, and carried from that point to an infinite distance.

71.] Expressions for the Resultant Force and its components in terms of the Potential.

Since the total electromotive force along any arc ${\displaystyle AB}$ is

${\displaystyle V_{A}-V_{B}\,\!}$,