Consider a car requiring a given constant current; evidently the maximum loss due to resistance will occur when the car is at the middle point of the line, and will then be one-fourth of the total resistance of the line, provided the two extremities are maintained by the generators at the same potential.  Again, by integration, the mean resistance can be shown to be one-sixth of the resistance of the line.  Applying these figures, and assuming four cars are running, requiring 4 horse power each, the loss due to resistance does not exceed 4 per cent. of the power developed on the cars; or if one car only be running, the loss is less than 1 per cent.  But in actual practice at Portrush even these estimates are too high, as the generators are placed at the bottom of the hills, and the middle portion of the line is more or less level, hence the minimum current is required when the resistance is at its maximum value.

The insulation of the conductor has been a matter of considerable difficulty, chiefly on account of the moistness of the climate.  An insulation has now, however, been obtained of from 500 to 1,000 ohms per mile, according to the state of the weather, by placing a cap of insulite between the wooden posts and T-iron.  Hence the total leakage cannot exceed 2.5 amperes, representing a loss of three-fourths of a horse power, or under 5 per cent, when four cars are running.  But apart from these figures, we have materials for an actual comparison of the cost of working the line by electricity and steam.  The steam tramway engines, temporarily employed at Portrush, are made by Messrs. Wilkinson, of Wigan, and are generally considered as satisfactory as any of the various tramway engines.  They have a pair of vertical cylinders, 8 inches diameter and one foot stroke, and work at a boiler pressure of 120 lb., the total weight of the engine being 7 tons.  The electrical car with which the comparison is made has a dynamo weighing 13 cwt., and the tare of the car is 52 cwt.  The steam-engines are capable of drawing a total load of about 12 tons up the hill, excluding the weight of the engine; the dynamo over six tons, including its own weight; hence, weight for weight, the dynamo will draw five times as much as the steam-engine.  Finally, compare the following estimates of cost.  From actual experience, the steam-engine, taking an average over a week, costs—­

L s. d. 
Driver’s wages. 1 10 0
Cleaner’s " 0 12 0
Coke, 581/2 cwt. at 25s. per ton. 3 13 11/2
Oil, 1 gallon at 3s. 1d. 0 3 1
Tallow, 4 lb. at 6d. 0 2 0
Waste, 8 lb. at 2d. 0 1 4
Depreciation, 15 per cent. on L750. 2 3 3
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Total.  L8 4 91/2

The distance run was 312 miles.  Also, from actual experience, the electrical car, drawing a second behind it, and hence providing for the same number of passengers, consumed 18 lb. of coke per mile run.  Hence, calculating the cost in the same way, for a distance run of 312 miles in a week—­