. Medical electricity; a practical treatise on the applications of electricity to medicine and surgery. (~^ have the parts reduced to their simplest expression. Theprimary coil, an extension of the conjunctive wire, is repre-sented by the line drawn from A to B. The galvanicelement is E, and at K is the interrupter. Whenever thecurrent is made or broken at K, an induced current startsin the coil represented by the line from C to D, and theneedle of the galvanometer G is deflected in one directionat the making, and in the opposite direction at the break-ing, of the circuit. In the next diagram,
. Medical electricity; a practical treatise on the applications of electricity to medicine and surgery. (~^ have the parts reduced to their simplest expression. Theprimary coil, an extension of the conjunctive wire, is repre-sented by the line drawn from A to B. The galvanicelement is E, and at K is the interrupter. Whenever thecurrent is made or broken at K, an induced current startsin the coil represented by the line from C to D, and theneedle of the galvanometer G is deflected in one directionat the making, and in the opposite direction at the break-ing, of the circuit. In the next diagram, another point, viz., the inductionbetween the turns of the coil, is expressed. In Figs. 41 and 72 ELECTRO-PHYSICS. 42, we find that a current passing through A B induces acurrent in C D. Precisely the same effect is exerted be-. G-^ tween the turns of the coil a, b, c, d, e,f, and the currentthus induced on the opening and closing of the circuit atK affects the needle of the galvanometer, as in the otherIn Fig. 42, the whole construction of the faradic diagram. Fig. 42.
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Keywords: ., bookcentury1800, bookdecade1880, booksubjectelectro, bookyear1887
