Circular of the Bureau of Standards, Issue 570U.S. Government Printing Office, 1956 |
From inside the book
Results 1-5 of 15
Page
... capacity . 3.3 . Standards of time . _ a . Tests of standards of capacity- 4. Weights and measures in everyday life 4.1 . Weight of coal . 3.5 . Maintenance and preservation of fundamental standards of length and mass . 4.2 ...
... capacity . 3.3 . Standards of time . _ a . Tests of standards of capacity- 4. Weights and measures in everyday life 4.1 . Weight of coal . 3.5 . Maintenance and preservation of fundamental standards of length and mass . 4.2 ...
Page 1
... capacity in the United States and in Great Britain . It discusses for the benefit of the general reader such matters as the distinction between units and standards , and that between mass and weight . Two items of everyday life relating ...
... capacity in the United States and in Great Britain . It discusses for the benefit of the general reader such matters as the distinction between units and standards , and that between mass and weight . Two items of everyday life relating ...
Page 2
... capacity were of much later origin . Units of length may have been the earliest . These were derived from the limbs of the human body , and included the length of the foot , the width of the palm , the length of the forearm , etc. Units ...
... capacity were of much later origin . Units of length may have been the earliest . These were derived from the limbs of the human body , and included the length of the foot , the width of the palm , the length of the forearm , etc. Units ...
Page 4
... capacity , also compound units , such as pressure , are derived from these two fundamental units . The meter was originally intended to be 1 ten - millionth part of a meridional quadrant of the earth . The Meter of the Archives , the ...
... capacity , also compound units , such as pressure , are derived from these two fundamental units . The meter was originally intended to be 1 ten - millionth part of a meridional quadrant of the earth . The Meter of the Archives , the ...
Page 6
... capacity mentioned thus far are larger in the British system than in the U. S. system . But the British fluid ounce is smaller than the U. S. fluid ounce , because the British quart is divided into 40 fluid ounces whereas the U. S. ...
... capacity mentioned thus far are larger in the British system than in the U. S. system . But the British fluid ounce is smaller than the U. S. fluid ounce , because the British quart is divided into 40 fluid ounces whereas the U. S. ...
Common terms and phrases
000 cubic centimeters apoth apothecaries apothecaries weight avdp avoirdupois pound Britain British Imperial Bureau of Standards Bureau of Weights bushel calibration Circular cubic centimeter cubic decimeter cubic feet cubic foot cubic inches cubic meter decimal defined dekaliter dry quarts equivalent fluid drams fluid ounces fluid scruple grains grams gross or long hectare hundredweight Imperial gallon inch exactly International Bureau length and mass liquid pint liquid quarts liter long ton mass standard metric system milligrams milliliters millimeters National Bureau number system pint or quart primary standard Prototype Kilogram short ton square centimeter square inch square meter square yard standards of capacity standards of length standards of mass struck measure subdivisions system of weights tonnage troy pound U. S. fluid ounce U. S. gallon U. S. Government Printing unit of weight United States Prototype units and standards Units and Systems UNITS OF CAPACITY volume weights and measures
Popular passages
Page 18 - Square Measure 144 square inches (sq. in.) = 1 square foot (sq. ft.) 9 square feet = 1 square yard (sq. yd.) 30£ square yards = 1 square rod (sq.
Page 18 - Cubic Measure 1728 cubic inches (cu. in.) =1 cubic foot (cu. ft.) 27 cubic feet = 1 cubic yard (cu. yd.) 128 cubic feet = 1 cord (cd...
Page 29 - Used in assaying. The assay ton bears the same relation to the milligram that a ton of 2,000 pounds avoirdupois bears to the ounce troy; hence the weight in milligrams of precious metal obtained from one assay ton of ore gives directly the number of troy ounces to the net ton.
Page 4 - The essential features of the system were embodied in a report made to the French National Assembly by the Academy of Sciences in 1791. A number of other nations were invited to cooperate with France in establishing the new system, and Holland, Denmark...
Page 12 - When an equal-arm balance is used to compare an object with standards of mass ("weights"), the effects of variations in the acceleration of gravity are self-eliminating and need not be taken into account, but the apparent mass of the object is slightly different from the true mass because of the buoyant effects of the surrounding air. Mass can then be computed from apparent mass by applying a correction for air buoyancy. When a spring balance is used, an additional correction accounting for the local...
Page 20 - Dry Measure. — 2 pints = 1 quart; 8 quarts = 1 peck; 4 pecks = 1 bushel.
Page 14 - The mean solar day is divided into 24 hours, each hour into 60 minutes, and each minute into 60 seconds.
Page 4 - The liter is defined as the volume occupied, under standard conditions, by a quantity of pure water having a mass of 1 kilogram. This volume is very nearly equal to 1 000 cubic centimeters or 1 cubic decimeter; the actual metric equivalent i¡.
Page 20 - The meter bars, however, continue in use as a standard for most types of measurements. In the metric system, designations of multiples and subdivisions of any unit may be arrived at by combining with the name of the unit the prefixes deka, hecto, and kilo, meaning, respectively, 10, 100, and 1,000, and deci, centi, and mill!, meaning, respectively, one-tenth, onehundredth, and one-thousandth.