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Ce-half hour on tires.
6. One and one-half gallons gasoline.
In addition to the price of the car, $50 was spent for liability insurance and $45 for July 3. Five tire lugs..... fire insurance. The expenses of the various months totaled as follows: March $80.83, April and May together $150.25, June $62.68, July $70.15, September $42.30, October $40.00, November $27.50, and December $22.40.
7. 55 gallons gasoline...
8. 19 hours overhauling car.
Two dozen cotter pins and 50 rivets.
The items of expense in the three principal bills follow:
Express charges on shoe One month's storage. Five gallons lubricating oil.
Total expense for June.
June 2. 10 pounds French carbide.
3. 50 gallons gasoline..
7. Express charges on tire to New York.
9. One gallon of gasoline..
10. Nine and one-half hours' time overhaul
ing car.. Vulcanizing tire.
11. One hour's time assembling. 12. One ignition spring block.
19. Two hours' time on valves.
20. One new exhaust valve.
22. One-half hour adjusting..
26. One can cement for patching tubes.
One hour repairing tire.
28. One tire lug..
30. Two and one-half hours on oiler for
One shoe 32 x 4 inches, replacement by
One new wrist pin for rear cylinder
11. One ground wire.
12. 14 hours' time cam shaft and bearings.
14. Nine hours' time adjusting and regu-
One ignition spring.
15. One hour's time on chain.
One hour's time repairing inner tube..
31. Storage for month..
Total expense for month...
EXPENSE ON A 1000-MILE TOUR.
On August 13 of that year I made a 42.00 1000-mile tour in the car through New Jer
38 sey and Pennsylvania. The expenses in1.00 curred on the trip were $140.40, itemized as
.75 New driving chain, to replace worn one.
3.00 Overhauling before the start.
.25 New outer casing and inner tube (special
Tips and incidentals.
.30 8.25 9.50
2.50 .05 10.00 .60 7.00
Interest on investment at 6 per cent.
Lubricating oils, greases, etc.
Mechanics' time overhauling, adjusting, etc.
The expenses for the year were finally classified and divided under the following heads: 23.63 First cost....
30 25 per cent. depreciation for use.
Cost of new parts bought..
My own opinion, based upon my experience and observation, is that a high-grade car, with the most modern improvements and with intelligent and fair handling, ought to 176.88 be good for at least ten seasons of 5000 6.00 miles of touring, or 50,000 miles in all, and. 6.40 should cover this distance with the replace$1.473.76 ment simply of the smaller wearing parts and with the necessary adjustments and taking up of lost motion.
This is a moderate cost for automobiling. Some people are more fortunate and economical than I have been, and, on the other hand, the sport can be made to cost any sum that a man's purse will stand.
My own figures, which probably come close to the average man's experience, are illuminating as far as they go, but it is practically impossible to tell just what it will cost any given man to run an automobile. There are two very important and vexing factors to be considered,-viz., the ability of the driver and luck. Place the same car in the hands of two men, run it the same number of miles at the same speed, over the same roads, and with the same weight, and one car will be in good shape and the other racked horribly, the difference resulting entirely from the skill of the respective operators. It is this condition of affairs that makes the laborer worthy of his hire when it comes to automobile driving.
Thus this item of expense is to a great extent controlled by the individual himself.
Ten years seems a long time for an automobile to last when judged by the horseless vehicles of the past, which at best have been one and two season cars. But until two years ago the man who bought an automobile did so with the realization that the next season might bring forth a car of entirely different body and machinery construction that would make his car a "back number." To-day popular demand has called for a car of certain type, design, and style, and the manufacturers have produced it. The machinery parts of motors have been so perfected that the changes of the coming years will proba
Usually when a man abandons horses and takes up automobiling four or five horsedrawn vehicles are displaced. The average well-to-do stable will contain a buggy or runabout, a surrey, a depot wagon, coupé or other closed carriage, and a trap. The man with the motor makes his car perform the services of all these. The steady increase in the sale of automobiles may preclude the purchase and use of about 150,000 horse-drawn equipages in 1907.
It is my intention to compare the average cost of keeping the two most popular types of automobiles with the average expense of keeping horses and vehicles, in order to arrive at their relative efficiency.
Leave the man who buys the $10,000 or $12,000 car out of the question, for the item of cost does not figure with him, and take the typical American car costing from $2500 to $4500. The machine would probably be purchased by a man of comfortable income,
a team of horses, but if his home was in the country would have a stable. The first-class American car seats from five to seven people. It has an engine of from 22 to 40 horsepower and is capable of a speed varying from 5 to 45 miles an hour. The average depreciation of an American car seems to be about 50 per cent. in two years.
The car that costs about $2600 is by far the most popular, and I shall take that as a basis. Gasoline will cost, say, 20 cents a gallon, and will give 10 miles to each gallon. This would make our gasoline cost us $120. Three hundred dollars additional may be added for tires. This sum may be too high or far too low, depending on luck and management. A man with a car of this type would probably keep a chauffeur paid $25 a week, who would make most of the adjustments and repairs on the car. The yearly expense would figure about as follows: Depreciation on car.. Tires
oils, carbide and other supplies. New parts and repairs.
Interest on investment at 5 per cent. Insurance, fire and liability.
It may be seen that there is a balance in favor of the horse of just about half, or $1412. But in order to get at a really satisfactory comparison we must examine the utility of the two, and the amount of ground each can cover. A team of horses averaging 20 miles a day would be doing phenomenal work. This would give them a mileage annually of 7300 miles. The range of an automobile would be 60 miles a day, or 21,900 miles a season, presuming that both were driven every day. This is three times the work of the horses, at about double the cost, still leaving the automobile a 33 1-3 per cent. margin of economy.
Next let us consider the man in more
modest circumstances, who would keep a single horse and carriage at a livery stable. Such a man would probably go in for a runabout automobile costing from $650 to $1000. His car would be from 6 to . 12 horsepower and would seat two persons. This would be a fair average of expense:
21 Depreciation of $1000 machine.
6 Supplies and incidentals. 10 Repairs and adjustments. 720 Storage
The chauffeur is presumably eliminated. In the case of the horse we will presume that it is kept at a livery stable. Depreciation of horse, carriage, and harness. at stable, at a month.
Shoeing Clipping Veterinary
Here the horse wins again by $227, but we can safely figure the efficiency in miles of the car as three times as great as that of the horse, although it costs only about onethird more. With the automobile, then, a man has three times the opportunity to keep in touch with his friends, to get out in the country and enjoy nature and to do it safely, quickly, and comfortably, but it will cost him
from 33 1-3 to 100 per cent. more than a cor- power is the best one to buy. This may and responding horse-drawn equipage.
may not be true. It all depends on what the car is wanted for; what sort of country it is to be used in, and what sort of work you are going to make it do. Power costs money. That is the keynote of the situation. If a light-weight car, well built, with 20 horsepower, will do your work, doesn't it look foolish to buy a heavier one of 40 horsepower for the same purpose?
In a very hilly country one must have more power than on level roads, and if one must have speed, power is necessary. But it costs heavily in maintenance.
LOW VERSUS HIGH POWER.
I have in mind as I write two friends of mine who became motor enthusiasts at the same time, both purchasing cars. They were neighbors and each had a wife and two children. The one man bought a 28-horsepower touring car carrying five passengers and weighing 2250 pounds, which cost $2500. The other bought a 40-45 horsepower touring car carrying seven people and weighing 3400 pounds at a cost of $4500. At the end
I have referred to a high-grade car and in that category may come any first-class touring car ranging in price from $2500 to $6000 or more and one built by a reliable concern. Such a car will contain only the best materials and will be well designed and put together, and this means much to the man who is investing his money in a horseless vehicle. Remember always that a cheap automobile is the most expensive type to buy. By a cheap car I mean one that is turned out in a careless, slipshod manner by a manufacturer who has gone into the business with the idea of making a quick "clean up" and quitting. As much judgment should be displayed in of the first season both had completed about selecting your manufacturer as in selecting your car. Let the other fellow buy the experiment. Stick to the machine that you know, the one that you have seen in use. Hundreds of people are led away by the idea that the car that will do the most spectacular things is the one for them to buy. Let the other fellow have this brilliant performer and you buy one that you see your neighbor running 365 days in the year, the motor that isn't always in the repair shop, that brings its passengers home, and that isn't always" all right but for some little thing that doesn't count." It is these little things that "don't count" in automobiles that cause all the trouble on the road, that are responsible for many long walks and subsequent expensive tows, and that eat up the owner's bank account for mechanics' time in adjusting.
Look for a simple car and remember that it isn't always the car that seems the most for the money that is really the best bargain. Avoid buying a lot of machinery, and consider this important fact, that the simpler a machine is and the fewer parts it has, the more desirable it is to own. You will never have to spend money to repair or replace the parts that you haven't got.
There is a mistaken idea among people who are just beginning to take an interest in
the same distance, between 4000 and 5000 miles. It was the custom of the two men to take about the same rides at each week-end, and the man with the seven-passenger car found no difficulty in filling it. The result was that he almost invariably carried seven people. The owner of the five-passenger car also had his full complement of passengers. The machines were about of equal speed and hill-climbing ability, but the man with the $2500 motor found his liability and fire insurance less, his interest on investment less, and his tire, gasoline, and repair expenses enormously less, and yet he covered the same territory as the friend with the larger car. The big machine used up two sets of tires in the season, while the lighter one got along with one, and they were not worn out at the time the comparison was made. All together there was something like $800 difference between their operating expenses for the same mileage. I simply give this as an illustration of the importance of knowing what kind of a car to select. Putting aside style and excessive speeds, it may be generally said that high horsepower means high expense; in selecting your car be sure to have enough power to do your work, but if economy in operation figures with you at all, avoid having an engine of a horsepower that is greatly