96 
 ' 45 
 
 
m 
 
 CORNELL 
 
 UNIVERSITY 
 
 LIBRARY 
 
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 tine Cornell University Library. 
 
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 http://www.archive.org/details/cu31924012344044 
 
rnmcM. scttNCfS 
 DEC31t968 
 
 l^rneii University librar 
 
 0EC231968 
 
A DECIMAL SYSTEM OF WEIGHTS AND 
 MEASURES FOR THE UNITED STATES 
 
 REMARKS 
 
 or 
 
 HON. MILTONJUWELUNG 
 
 OF UTAH 
 
 IN THE 
 
 HOUSE OF REPRESENTATIVES 
 
 TUESDAY. MARCH 2, 1920 
 
 " The Congress shall hare power * * * to coin mone}, 
 regulate the ralne thereof, and of foreign coin, and fix the 
 standard of weights and measures." — ^Art. I, see. 8, Constitu- 
 tion of the United States. 
 
 ^ 
 
 167905—20553 
 
 WASHINGTON 
 1920 
 
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EEMARKS 
 
 OP 
 
 HON. MILTON H. WELLING. 
 
 A DECIMAL SYSTEM OF WEIGHTS AND MEASURES FOR THE UNITED 
 
 STATES. 
 
 Mr. WELLING. Mr. Speaker, availing myself of the right 
 to extend my remarks in the Record, I submit the bill to 
 establish the standard of the weights, measures, and coins of the 
 United States. 
 
 Accompanying the bill is a statement of the details of the 
 legislation and an analysis of the measure prepared Dy Mr. 
 Samuel Russell, who has given much thought and study to 
 this problem and is an earnest advocate of the proposed reform. 
 
 The bill and statement are as follows. 
 A bill (H. R. 12850) to establish the standard and decimal divisions of 
 the weights, measures, and coins of the United States. 
 
 Be it enacted, etc.. That the standard of the weights, measures, and 
 coins of the United States, and the decimal divisions thereof, shall, 
 after the 1st day of January, 1921, be as follows : 
 
 The standard for the measure of length shall be the foot as heretofore 
 commonly used and established as a measure of length In the United 
 States of America, and which is the standard foot of the United King- 
 dom of Great Britain and Ireland. 
 
 The decimal divisions of the foot shall be the tenth or decimal inch, 
 the hundredth or line, and the thousandth or point, of which 10 points 
 equal 1 line. 10 lines equal 1 decimal inch, and 10 decimal inches equal 
 1 foot. One hundred points equal 1 decimal incb, and 1,000 points 
 equal 1 foot. 
 
 The common fractions of the foot shall be the half, third, quarter, 
 and twelfth, of which the twelfth shall be denominated the common 
 incb. 
 
 The common multiples of the foot shall be the yard, the fathom, the 
 rod, the furlong, and the mile, of which the yard equals 3 feet, the 
 fathom equals 6 feet, the rod equals 165 feet, the furlong equals 40 
 rods and the mile equals 320 rods. 
 
 167905—20553 3 
 
The standard for the measure of plane surfaces shall be the square 
 of the foot, which shall be designated the square. The decimal division 
 of the square shall be the square of the decimal Inch, which shall be 
 designated the der'-nal .quare, and of which 100 decimal squares equal 
 1 square. 
 
 The squares of the respective multiples and divisions of the toot may 
 be used for the measurement of plane surfaces. 
 
 The standard for the measure of land surfaces shall be the acre of 
 160 square rods. The. square furlong equals 10 acres. The jcre-foot 
 Is the measure ot water, having a surface of 1 acre and a depth of 
 1 foot 
 
 The standard for the measure of volume shall be the cube of the 
 foot, which shall be designated the cube. The decimal division of the 
 cube shall be the cube of the decimal inch, which shall be designated 
 the decimal cube, and of which 1,000 decimal cubes equal 1 cube. 
 
 The cubes of the respective multiples and divisions of the foot may 
 be used for the measurement of volume. 
 
 The standard for the measurement of weight shall be the weight of 
 the cube of water at maximum density, which shall be designated the 
 weight unit. The decimal unit for the measurement of weight shall be 
 the ounce, which shall be the weight of the decimal cube of water at 
 maximum density. The decimal divisions of the ounce shall be the 
 dram and the grain, of which 10 drams equal 1 ounce, 1,000 grains 
 equal 1 ounce. One hundred grains equal 1 dram. 
 
 The multiples of the ounce shall be the decimal pound, the weight 
 unit, the quarter, and the ton, of which 10 ounces equal 1 decimal 
 pound, 100 decimal pounds equal 1 weight unit, 1,000 ounces equal 1 
 weight unit, 8 weight units equal 1 quarter, 4 quarters equal 1 ton. 
 
 Multiples of the decimal pound of 10 ounces may be used for 
 measures of weight. 
 
 The avoirdupois or common pound equals 16 ounces ; the ton equals 
 2,000 avoirdupois pounds. 
 
 The standard for the measure of liquids shall be the liquid ounce, 
 which is equal to the decimal cube, and of which 10 liquid ounces equal 
 
 1 decimal pint, and 1,000 Uqild ounces equal 1 liquid cube. 
 Multiples of the decimal pint of 10 decimal cubes may be used for 
 
 liquid or dry measure. 
 
 The standard for the measure of dry commodities shall be the cube 
 measure, which is the cube of the foot. The common divisions of the 
 cube for dry measure shall be the quart, the pot, the gallon, the peck, 
 and the half cube, of which 2 quarts equal 1 pot, 2 pots equal 1 gallon, 
 
 2 gallons equal 1 peck, 2 pecks equal 1 half cube, 2 half cubes egual 
 1 cube. 
 
 The bushel shall be equal to 1,250 decimal cubes. The bushel is equal 
 to 5 pecks, 10 gallons, 20 pots, or 40 quarts. 
 167905—20553 
 
The water-flow unit shall be the flow of 1 cube of water In one 
 Becond of time. 
 
 The mechanical-power unit shall be the quantity of power required 
 to raise 1 weight unit 1 foot in one second of time. 
 
 The thermal unit shall -be the quantity of heat required to raise 1 
 ounce of water 1 degree o£"the scale of the Fahrenheit thermometer. 
 
 The water-pressure unit is the pressure of 1 ounce in weight upon 
 the surface of 1 decimal square. 
 
 The steam-pressure unit Is the pressure of 1 ounce in weight upon 
 the surface of 1 decimal square. 
 
 The Bureau of Standards shall, upon the basis of the standard 
 weights and measures herein established, determine the standards for 
 technical application in the arts and sciences. 
 
 The silver coins of the United States shall be the dollar, the 2-franc 
 piece, the franc, and the dime. The weight of the dollar shall be 1 
 ounce, 900 fine, of silver ; the weight of the 2-franc piece shall be 400 
 grains, or two-fifths of 1 ounce of silver, 800 fine ; the weight of the 
 franc shall be 200 grains, or one-flfth of an ounce of silver, 800 fine ; 
 and the weight of the dime shall be 100 grains, or one-tenth of an 
 ounce of sliver, 800 fine. 
 
 The minor coins of the United States shall be the nickel, the penny, 
 and the cent. The weight of the nickel shall be 100 grains of an alloy 
 of three parts of copper and one part of nickel ; the weight of the 
 penny shall be 100 grains of an alloy of 95 per cent copper and 5 per 
 cent of tin and zinc ; and the weight of the cent shall be 50 grains 
 of an alloy of 95 per cent of copper and 5 per cent of tin and zinc, 
 in such proportions as shall be determined by the Director of the 
 Mint. 
 
 The gold coins of the United States shall be the pound, the eagle, 
 and the double eagle. The standard weight of the pound shall be 294.8 
 grains of gold, 900 fine ; the weight of the eagle shall be 589.6 grains 
 of gold, 900 fine ; and the weight of the double eagle shall be 1,179.2 
 grains of gold, 900 fine. 
 
 The standard of value shall be the dollar, equivalent to 58.96 grains 
 of gold, 900 flue, or one-flfth of the gold pound. 
 
 The coins of the United States shall have the following relative 
 values : 1 cent equals 10 mills, 1 penny equals 2 cents, 1 nickel 
 equals 5 cents, 1 dime equals 10 cents, 1 franc equals 20 cents, 1 franc 
 equals 10 pence, 2 francs equal 40 cents, 1 dollar equals 100 cents, 
 1 dollar equals 5 francs, 1 pound equals 5 dollars, 1 pound equals 25 
 francs, 1 eagle equals 10 dollars, 1 eagle equals 2 pounds, 1 eagle equals 
 50 francs, 1 double eagle equals 20 dollars, 1 double eagle equals 4 
 pounds, 1 double eagle equals 100 francs. 
 167905—20353 
 
6 
 
 Congress has never exercised the authority conlerred expressly by 
 the Constitution to fix the standard of weights and measures for the 
 United States, although this was regarded as a necessary project at 
 the time of the union of the Colonies. The Articles of Confederation 
 contained a slMllkr provision in regard to a uniform system of weights 
 and measures for the Colonies. 
 
 The fact that our common measures, in terms of the foot, the inch, 
 the pound, the ounce, and the ton, have been preferred to the metric 
 system, is because of their great superiority in point of convenience. 
 The meter itself is a very inconvenient and awliward measure. The 
 metric system, moreover, offers no unit between the centimeter of about 
 4 inches and the meter of about 40 inches ; that is to say, it offers no 
 unit of measure that Is adapted, in a practical way, to the customary 
 needs of the people. This is demonstrated by the fact that our yard 
 measure, which is even moie convenient for our purposes than the 
 meter, has itself gone into relative obsolescence with the extended use 
 of the more convenient foot as the primary unit of mensuration. The 
 height of mountains, the depth of the sea, and the dimensions of all 
 artificial structures are determined by the foot measure. 
 
 The clear preference of custom for the foot is not to be Ignored. It is 
 not a restricted or provincial view which declares the superiority of 
 the foot over the meter. The fact is that every important country in 
 the world has a similar customary unit. For example, the Roman 
 pes is 11.65 inches, the Danish fod is 1.03 feet, the Swedish fot is 11.69 
 inches, the Norwegian fot is 12.35 Inches. The Russian foute is exactly 
 12 inches, the Rhine fuss is 1.03 feet, the Viena fuss is 1.037 feet, the 
 Portuguese and the Brazilian pfe is 1.08 feet, the French pied is 1.066 
 feet, the Attic pous is 1.011 feet, the Olympic pons is 1.051 feet, and 
 the Japanese shaku is 0.994 loot. It thus appears that every important 
 country in the world has adapted its customs of trade and mechanics to 
 11 measure analogous and almost exactly comparable to our present Eng- 
 lish foot. 
 
 The only virtue in the metric system is the convenience of compu- 
 tation resulting from the decimal notation upon which it is arranged. 
 But even in the matter of decimal notation the metric system goes to 
 such absurd extremes that the decimal multiples of the meter have 
 been ignored and many of its other denominations have gone into dis- 
 use. A true decimal system has Its advantages and is to be desired. 
 It must be said, however, that the utility of the decimal system is con- 
 fined to the divisions of the unit or standard. The decimal arrange- 
 ment has no special utility when dealing with Integers or units In 
 any number whatever. Upon this principle we have ignored our 
 eagles and double eagles when counting dollars, and for the same 
 reason dekameters, hektometers, and myriameters are not much used 
 167905—20553 
 
The great consideration is to preaerve our customary units of 
 measure and weiglit and to bring tlie divisions of the same into proper 
 decimal relations. This will afford all the advantages of the decimal 
 features of the metric system and preserve for us the great convenience 
 of our own common measures. Inasmuch as these common measures 
 are practically universal In all countries they offer the only true basis 
 for a real international system. 
 
 The desirability of a decimal arrangement was clearly perceived by 
 James Watt, the great English engineer and mechanician. In Novem- 
 ber, 1783, he proposed the international " philosophical pound " of 10 
 ounces and the division of the ounce into 1,000 grains. He said, 
 " Let all elastic fluids be measured by the ounce measure of water by 
 which the valuation of different cubic inches will be avoided and the 
 common decimal tables of specific gravities will Immediately give the 
 weights of those elastic fluids." The ounce to which Watt referred 19 
 the weight of the cube of one-tenth of the foot of water at maximum 
 density. Watt was quick to perceive this decimal relation between the 
 foot and ounce and proposed that the measure of weight be thus de- 
 rived from the measure of length. Watt expressly stated that the 
 proper plan for an ideal decimal system should retain the foot and the 
 ounce. In a letter to Mr. Magellan he said : 
 
 "As to the precise foot or pound, I do not look upon it to be very 
 material, in chemistry at least. Either the common English foot may 
 be adopted according to your proposal, which has the advantage that 
 a cubic foot is exactly 1,000 ounces, consequently the present foot and 
 ounce would be retained ; or a pendulum which vibrates 100 times a 
 minute may be adopted for the standard, which would make the foot 
 14.2 of our present inches, and the cubic foot would be very exactly « 
 bushel and would weigh 101 of the present pounds, so that the present 
 pound would not be much altered. But I think that by this scheme 
 the foot would be too large and tKat the inconvenience of changing all 
 the foot measures and things depending on them would be much 
 greater than changing all the pounds, bushels, gallons, etc. I there- 
 fore give the preference to those plans which retain the foot and the 
 ounce." 
 
 There was a great deal of speculation at the end of the eighteenth 
 century with respect to finding some definite measure in the natural 
 world to which our artificial measures might be referred. There is ob- 
 viously no such unit within the possibility of practical application. The 
 most definite measure we have is that of time made by the diurnal revo- 
 lution of the earth, which we have divided into 86,400 seconds. The 
 pendulum adjusted to vibrate in seconds has a definite length at a given 
 altitude and latitude The second pendulum vibrating in a vacuum at 
 London is 39.13908 inches in length. The standard foot has been deter- 
 mined to be JSJfrS of the second pendulum at London, and by this 
 method the foot has been referred to the second pendulum Just as defl- 
 167905—20553 
 
8 
 
 nitely as though it were an aliquot part of the pendulum. The theoreti- 
 cal advantage of changing the foot to the one-third or one-fourth part 
 of the second pendulum would in no wise compensate for the tremendous 
 Inconvenience which would result. The present relation between the 
 foot and the ounce by which the measures of weight may be derived 
 from the measures of length would be definitely dislocated. The proper 
 plan, therefore, is to decimalize the foot. 
 
 Thomas Jefferson clearly perceived this, and In 1790, while Secretary 
 of State, elaborated a plan for this purpose. Jefferson divided the foot 
 into inches, lines, and points comparable with the division of the French 
 pied into pouces, lignes, and points. The French division is upon the 
 duo-decimal system, whereas Jefferson's arrangement Is upon the decimal 
 system. The bill which has been introduced is In conformity with the 
 original conception of Watt and with the essentials of Jefferson's 
 plan. It is entirely practical and makes no radical alterations In our 
 present measures, but merely points the way to their improvement in a 
 true and convenient decimal system. 
 
 The foot is the unit from which the whole system Is derived. One- 
 tenth of the foot, or the decimal Inch, is the primary division in the 
 system. The square of the decimal inch is called the decimal square, and 
 the cube of the decimal inch is called the decimal cube. The decimal 
 cube of water at maximum density is the ounce. The ounce is divided 
 into 1,000 grains, or, more properly, decimal grains, and the cube or cubic 
 toot of water at maximum density is equal to 1,000 ounces and is called 
 the weight unit. Thirty-two of these weight units constitute one ton. 
 
 It is intended that the decimal grain will be the unit for fine weights 
 in the mechanical and chemical sciences, the ounce the unit for retail 
 trade weights, and the weight unit for the measure of gross weights. It 
 is intended that the point, 1,000 of which are equal to 1 foot, and 100 
 of which are equal to the decimal inch, will be the unit for fine mechani- 
 cal and scientific measuration, in place of the fractions of the inch, the 
 centimeter, and the millimeter. The proposed system Is entirely logical, 
 consistent, and practical and is built upon units long sanctioned by cus- 
 tom and utility. It brings order into our customary system of weights 
 and measures and is formulated for this purpose. The time has come 
 when Congres should exercise its constitutional power to establish a uni- 
 form, rationalized system of measures and weights for the United States. 
 The plan proposed otters the only alternative to the metric system and 
 is superior from every point of view to the metric system for our 
 country. 
 
 It is also intrinsically superior as the standard for a true interna- 
 tlDiial system of measuration. 
 167905—20553 
 
 o 
 
^YSKAL SCttNCs 
 
 library: ^^»8il llnjyl 
 
 DEC 2 
 
Cornell UnlversHy Library 
 QC 96.W45 
 A decimal system of , weights and m^^^^^^ 
 
 3 1924 012 344 044 
 
' AMI