Charging the Cells.—The charge of the current must never be less than 2.5 volts. Each cell has an output, in voltage, of about 2 volts, hence if we have, say, 10 cells, we must have at least 25 volts charging capacity. We may arrange these in one line, or in series, as it is called, so far as the connections are concerned, and charge them with a dynamo, or other electrical source, which shows a pressure of 25 volts, as illustrated in Fig. [64], or, instead of this, we may put them into two parallel sets of 5 cells each, as shown in Fig. [65], and use 12.5 volts to charge with. In this case it will take double the time because we are charging with only one-half the voltage used in the first case.

The positive pole of the dynamo should be connected with the positive pole of the accumulator[p. 88] cell, and negative with negative. When this has been done run up the machine until it slightly exceeds the voltage of the cells. Thus, if we have 50 cells in parallel, like in Fig. [64], at least 125 volts will be required, and the excess necessary should bring up the voltage in the dynamo to 135 or 140 volts.

The Initial Charge.—It is usual initially to charge the battery from periods ranging from 36 to 40 hours, and to let it stand for 12 or 15 hours, after which to re-charge, until the positive plates have turned to a chocolate color, and the negative[p. 89] plates to a slate or gray color, and both plates give off large bubbles of gas.

In charging, the temperature of the electrolyte should not exceed 100° Fahrenheit.