| 1 | Myrialitre, | Ml. | = | 10,000.0 | L. | = | 2200.9667 | imperial gallons.[91] |
| 1 | Kilolitre, | Kl. | = | 1,000.0 | " | = | 220.0966 | imperial gallons. |
| 1 | Hectolitre | Hl. | = | 100.0 | " | = | 22.0096 | imperial gallons. |
| 1 | Decalitre, | Dl. | = | 10.0 | " | = | 2.2009 | imperial gallons. |
| 1 | Litre, | L. | = | 1.0 | " | = | 35.2154 | fluid ounces imperial. |
| 1 | Decilitre, | dl. | = | 0.1 | " | = | 3.5215 | fluid ounces imperial. |
| 1 | Centilitre, | cl. | = | 0.01 | " | = | 0.3521 | fluid ounces imperial. |
| 1 | Millilitre, | ml. | = | 0.001 | " | = | 0.0352 | fluid ounces imperial. |
| or | ||||||||
| 1 | Cubic Centimetre, | ccm. | = | 0.001 | L. | = | 0.0352 | fluid ounces imperial. |
The unit of weight in the metric system is the Gramme. This is also derived from the metre, and represents the weight of one cubic centimetre, of water, or the quantity of distilled water, at its maximum density, 4° C. (39·2° F.), which would fill the cube of one-hundredth part of a metre. The relative value of the gramme, together with its multiples and sub-divisions, as compared with the English standards of weight, may be seen from the following table:—
| 1 | Myriagramme, | Mg. | = | 10,000.0 | Gm. = | 22.0461 | pounds. | |
| 1 | Kilogramme, | Kg. | = | 1,000.0 | " | = | 2.2046 | " |
| 1 | Hectogramme, | Hg. | = | 100.0 | " | = | 3.5273 | ounces avoir. |
| 1 | Decagramme, | Dg. | = | 10.0 | " | = | 154.3235 | grains. |
| 1 | Gramme, | Gm. | = | 1.0 | " | = | 15.4323 | " |
| 1 | Decigramme, | dg. | = | 0.1 | " | = | 1.5432 | " |
| 1 | Centigramme, | cg. | = | 0.01 | " | = | 0.1543 | " |
| 1 | Milligramme, | mg. | = | 0.001 | " | = | 0.0154 | " |
The expression micro-millimetre is used for microscopic measurements, and denotes the thousandth part of a millimetre. Of the measures of capacity, the terms most commonly employed are the litre and the cubic centimetre. Thus a decalitre may also be expressed as 10 litres, a centilitre as 10 cubic centimetres, etc. Of the metric weights the gramme and its fractional parts, with their respective prefixes, are much used in analytical work. The kilogramme is largely employed in commercial transactions, and is commonly abbreviated kilo.
As a comparison of the values of some of the more frequently employed expressions of the metric and English systems, the following may be found convenient for reference:—
| 1 | mm. (millimetre) = 1⁄25 of an inch. |
| 1 | cm. (centimetre) = 2⁄5 of an inch. |
| 1 | inch = 25 millimetres or 2½ centimetres. |
| 1 | mg. (milligramme) = 0.01543 grain (or approx. 1⁄64 grain). |
| 1 | gm. (gramme) = 15.4324 grains. |
| 1 | Kg. (“Kilo” or kilogramme) = 2 lbs. 3¼ ozs. av. |
| 1 | pound avoir. = 453,592 grammes. |
| 1 | ounce avoir. = 28,350 grammes. |
| 1 | grain = 0.06479 gramme or 64.79 milligrammes. |
| 1 | cc. (cubic centimetre) = 16.9 minims Imperial measure. |
| 1 | L. (litre) = 35.21 fluid ounces Imperial measure, or 33.815 fluid ounces Wine measure. |
| 1 | fluid ounce Imperial measure = 28.350 grammes. |
| 1 | pint Imperial measure = 567.0 grammes. |
| 1 | gallon Imperial measure = 4.536 litres, or 10 lbs. avoir. of pure water at 62° F. and under an atmospheric pressure of 30 inches of mercury. |
It may be well to bear in mind that on the Continent liquids are always weighed, not measured.
Appendix E.
COMPARISON BETWEEN THE CENTIGRADE AND FAHRENHEIT THERMOMETERS.
| F. | C. | F. | C. |
|---|---|---|---|
| 212 | 100 | 86 | 30 |
| 200 | 93.3 | 84 | 28.9 |
| 150 | 65.6 | 82 | 27.8 |
| 112 | 44.4 | 80 | 26.7 |
| 110 | 43.3 | 78 | 25.6 |
| 108 | 42.2 | 76 | 24.4 |
| 106 | 41.1 | 74 | 23.3 |
| 105 | 40.5 | 72 | 22.2 |
| 104 | 40 | 70 | 21.1 |
| 103 | 39.4 | 68 | 20 |
| 102 | 38.9 | 66 | 18.9 |
| 101 | 38.3 | 64 | 17.8 |
| 100 | 37.8 | 62 | 16.7 |
| 99 | 37.2 | 60 | 15.6 |
| 98 | 36.7 | 58 | 14.4 |
| 96 | 35.6 | 56 | 13.3 |
| 94 | 34.4 | 54 | 12.2 |
| 92 | 33.3 | 52 | 11.1 |
| 90 | 32.2 | 32 | 0 |
| 88 | 31.1 | 25 | -3.9 |