Conversion of units

For the conversion of units on wikipedia, see Template:Convert.

Conversion of units is the conversion between different units of measurement for the same quantity, typically through multiplicative conversion factors.

Techniques

Process

The process of conversion depends on the specific situation and the intended purpose. This may be governed by regulation, contract, Technical specifications or other published standards. Engineering judgment may include such factors as:

Some conversions from one system of units to another need to be exact, without increasing or decreasing the precision of the first measurement. This is sometimes called soft conversion. It does not involve changing the physical configuration of the item being measured.

By contrast, a hard conversion or an adaptive conversion may not be exactly equivalent. It changes the measurement to convenient and workable numbers and units in the new system. It sometimes involves a slightly different configuration, or size substitution, of the item. Nominal values are sometimes allowed and used.

Multiplication factors

Conversion between units in the metric system can be discerned by their prefixes (for example, 1 kilogram = 1000 grams, 1 milligram = 0.001 grams) and are thus not listed in this article. Exceptions are made if the unit is commonly known by another name (for example, 1 micron = 10−6 metre).

Table ordering

Within each table, the units are listed alphabetically, and the SI units (base or derived) are highlighted.

Tables of conversion factors

This article gives lists of conversion factors for each of a number of physical quantities, which are listed in the index. For each physical quantity, a number of different units (some only of historical interest) are shown and expressed in terms of the corresponding SI unit.

Legend
SymbolDefinition
exactly equal to
approximately equal to
digitsindicates that digits repeat infinitely (e.g. 8.294369 corresponds to 8.294369369369369)
(H)of chiefly historical interest

Length

Length
Name of unitSymbolDefinitionRelation to SI units
ångströmÅ1×10−10 m≡ 0.1 nm
astronomical unitAU149597870700 m ≈ Distance from Earth to Sun149597870700 m [1]
barleycorn (H) = ⅓ in (see note above about rounding)≈ 8.46×10−3 m
bohr, atomic unit of lengtha0Bohr radius of hydrogen5.2917720859×10−11 ± 3.6×10−20 m [2]
cable length (imperial) ≡ 608 ft≈ 185.3184 m
cable length (International) ≡ 1/10 nmi≡ 185.2 m
cable length (US) ≡ 720 ft= 219.456 m
chain (Gunter's; Surveyor's)ch≡ 66 ft(US) ≡ 4 rods [3]20.11684 m
cubit (H) ≡ Distance from fingers to elbow ≈ 18 in≈ 0.5 m
ell (H)ell≡ 45 in [4] (In England usually)= 1.143 m
fathomfm≡ 6 ft [4]= 1.8288 m
fermifm1×10−15 m[4]1×10−15 m
finger ≡ 7/8 in= 0.022225 m
finger (cloth) ≡ 4½ in= 0.1143 m
foot (Benoît) (H)ft (Ben)0.304799735 m
foot (Cape) (H) Legally defined as 1.033 English feet in 18590.314858 m
foot (Clarke's) (H)ft (Cla)0.3047972654 m
foot (Indian) (H)ft Ind0.304799514 m
foot (International)ft≡ 0.3048 m ≡ 1/3 yd ≡ 12 inches≡ 0.3048 m
foot (Sear's) (H)ft (Sear)0.30479947 m
foot (US Survey)ft (US)12003937 m [5]0.304800610 m
french; charriereF13 mm= 0.3 ×10−3 m
furlongfur≡ 10 chains = 660 ft = 220 yd [4]= 201.168 m
hand ≡ 4 in [4]≡ 0.1016 m
inch (International)in≡ 2.54 cm ≡ 1/36 yd ≡ 1/12 ft≡ .0254 m
league (land)lea≈ 1 hour walk, Currently defined in US as 3 Statute miles,[3] but historically varied from 2 to 9 km4828 m
light-day ≡ 24 light-hours2.59020683712×1013 m
light-hour ≡ 60 light-minutes1.0792528488×1012 m
light-minute ≡ 60 light-seconds1.798754748×1010 m
light-second ≡ Distance light travels in one second in vacuum299792458 m
light-yearly≡ Distance light travels in vacuum in 365.25 days [6]= 9.4607304725808×1015 m
lineln≡ 1/12 in [7]= 0.002116 m
link (Gunter's; Surveyor's)lnk≡ 1/100 ch [4] ≡ 0.66 ft ≡ 7.92in= 0.201168 m
link (Ramsden's; Engineer's)lnk≡ 1 ft [4]= 0.3048 m
metre (SI base unit)
(meter)
m≡ Distance light travels in 1299792458 of a second in vacuum.[8]
110000000 of the distance from equator to pole.
≡ 1 m
mickey 1200 in= 1.27×10−4 m
micronµ1×10−6 m
mil; thoumil1×10−3 in2.54×10−5 m
mil (Sweden and Norway)mil≡ 10 km= 10000 m
mile (geographical) (H)6082 ft= 1853.7936 m
mile (international)mi≡ 80 chains ≡ 5280 ft ≡ 1760 yd1609.344 m
mile (tactical or data)6000 ft1828.8 m
mile (telegraph) (H)mi6087 ft= 1855.3176 m
mile (US Survey)mi5280 US Survey feet ≡ (5280 × 12003937) m1609.347219 m
nail (cloth) ≡ 2¼ in [4]= 0.057 15 m
nanometernm1×10−9 m1×10−9 m
nautical leagueNL; nl≡ 3 nmi [4]= 5556 m
nautical mile (international)NM; nmi1852 m [9]1852 m
nautical mile (US pre 1954)≡ 1853.248 m≡ 1853.248 m
pace ≡ 2.5 ft [4]= 0.762 m
palm ≡ 3 in [4]= 0.0762 m
parsecpcDistance of star with parallax shift of one arc second from a base of one astronomical unit3.085 677 82×1016 ± 6×106 m [10]
pica ≡ 12 pointsDependent on point measures.
point (American, English) [11][12]pt≡ 1/72.272 in0.000 351 450 m
point (Didot; European) [12][13]pt≡ 1/12 × 1/72 of pied du roi;

After 1878:
≡ 5/133 cm
0.000 375 97 m;

After 1878:
0.000 375 939 85 m
point (PostScript) [11]pt≡ 1/72 in= 0.000 352 7 m
point (TeX) [11]pt≡ 1/72.27 in= 0.000 351 4598 m
quarter ≡ ¼ yd= 0.2286 m
rod; pole; perch (H)rd≡ 16½ ft= 5.0292 m
rope (H)rope≡ 20 ft [4]= 6.096 m
span (H) ≡ 9 in [4]= 0.2286 m
spat [14]≡ 1×1012 m
stick (H) ≡ 2 in= 0.0508 m
stigma; bicron (picometre)pm≡ 1×10−12 m
twiptwp1/1440 in= 1.7638×10−5 m
x unit; siegbahnxu≈ 1.0021×10−13 m [4]
yard (International)yd≡ 0.9144 m [5] ≡ 3 ft ≡ 36 in≡ 0.9144 m

Area

Area
Name of unitSymbolDefinitionRelation to SI units
acre (international)ac≡ 1 ch × 10 ch = 4840 sq yd4 046.856 4224 m2
acre (U. S. survey)ac≡ 10 sq ch = 4840 sq yd, also 43560 sq ft.4 046.873 m2 [15]
area≡ 100 m2= 100 m2
barnb≡ 10−28 m2= 10−28 m2
barony 4000 ac1.618 742×107 m2
boardbd≡ 1 in × 1 ft= 7.741 92×10−3 m2
boiler horsepower equivalent direct radiationbhp EDR≡ (1 ft2) (1 bhp) / (240 BTUIT/h)12.958 174 m2
circular inchcirc in≡ π/4 sq in5.067 075×10−4 m2
circular mil; circular thoucirc mil≡ π/4 mil25.067 075×10−10 m2
cord ≡ 192 bd= 1.486 448 64 m2
dunam 1 000 m2= 1 000 m2
guntha ≡ 121 sq yd≈ 101.17 m2
hectareha10 000 m210 000 m2
hide ≈ 120 ac (variable)5×105 m2
roodro≡ ¼ ac= 1 011.714 1056 m2
section≡ 1 mi × 1 mi= 2.589 988 110 336×106 m2
shed ≡ 10−52 m2= 10−52 m2
square (roofing)≡ 10 ft × 10 ft= 9.290 304 m2
square chain (international)sq ch≡ 66 ft × 66 ft = 1/10 ac404.685 642 24 m2
square chain (US Survey)sq ch≡ 66 ft(US) × 66 ft(US) = 1/10 ac404.687 3 m2
square footsq ft≡ 1 ft × 1 ft9.290 304×10−2 m2
square foot (US Survey)sq ft≡ 1 ft (US) × 1 ft (US)9.290 341 161 327 49×10−2 m2
square inchsq in≡ 1 in × 1 in≡ 6.4516×10−4 m2
square kilometrekm2≡ 1 km × 1 km= 106 m2
square link (Gunter's)(International)sq lnk≡ 1 lnk × 1 lnk ≡ 0.66 ft × 0.66 ft= 4.046 856 4224×10−2 m2
square link (Gunter's)(US Survey)sq lnk≡ 1 lnk × 1 lnk ≡ 0.66 ft(US) × 0.66 ft(US)4.046 872×10−2 m2
square link (Ramsden's)sq lnk≡ 1 lnk × 1 lnk ≡ 1 ft × 1 ft= 0.09290304 m2
square metre (SI unit)m2≡ 1 m × 1 m= 1 m2
square mil; square thousq mil≡ 1 mil × 1 mil= 6.4516×10−10 m2
square milesq mi≡ 1 mi × 1 mi= 2.589 988 110 336×106 m2
square mile (US Survey)sq mi≡ 1 mi (US) × 1 mi (US)2.589 998 47×106 m2
square rod/pole/perchsq rd≡ 1 rd × 1 rd= 25.292 852 64 m2
square yard (International)sq yd≡ 1 yd × 1 yd0.836 127 36 m2
stremma 1 000 m2= 1 000 m2
township ≡ 36 sq mi (US)9.323 994×107 m2
yardland ≈ 30 ac1.2×105 m2

Volume

Volume
Name of unitSymbolDefinitionRelation to SI units
acre-footac ft≡ 1 ac x 1 ft = 43 560 ft3= 1 233.481 837 547 52 m3
acre-inch ≡ 1 ac × 1 in= 102.790 153 128 96 m3
barrel (imperial)bl (imp)≡ 36 gal (imp)= 0.163 659 24 m3
barrel (petroleum)bl; bbl≡ 42 gal (US)= 0.158 987 294 928 m3
barrel (US dry)bl (US)≡ 105 qt (US) = 105/32 bu (US lvl)= 0.115 628 198 985 075 m3
barrel (US fluid)fl bl (US)≡ 31½ gal (US)= 0.119 240 471 196 m3
board-footfbm≡ 144 cu in2.359 737 216×10−3 m3
bucket (imperial)bkt≡ 4 gal (imp)= 0.018 184 36 m3
bushel (imperial)bu (imp)≡ 8 gal (imp)= 0.036 368 72 m3
bushel (US dry heaped)bu (US)≡ 1 ¼ bu (US lvl)= 0.044 048 837 7086 m3
bushel (US dry level)bu (US lvl)≡ 2 150.42 cu in= 0.035 239 070 166 88 m3
butt, pipe ≡ 126 gal (wine)= 0.476 961 884 784 m3
coomb ≡ 4 bu (imp)= 0.145 474 88 m3
cord (firewood) ≡ 8 ft × 4 ft × 4 ft= 3.624 556 363 776 m3
cord-foot ≡ 16 cu ft= 0.453 069 545 472 m3
cubic fathomcu fm≡ 1 fm × 1 fm × 1 fm= 6.116 438 863 872 m3
cubic footcu ft≡ 1 ft × 1 ft × 1 ft0.028 316 846 592 m3
cubic inchcu in≡ 1 in × 1 in × 1 in16.387 064×10−6 m3
cubic metre (SI unit)m3≡ 1 m × 1 m × 1 m≡ 1 m3
cubic milecu mi≡ 1 mi × 1 mi × 1 mi4 168 181 825.440 579 584 m3
cubic yardcu yd≡ 27 cu ft0.764 554 857 984 m3
cup (breakfast) ≡ 10 fl oz (imp)= 284.130 625×10−6 m3
cup (Canadian)c (CA)≡ 8 fl oz (imp)= 227.3045×10−6 m3
cup (metric)c≡ 250.0×10−6 m3= 250.0×10−6 m3
cup (US customary)c (US)≡ 8 US fl oz ≡ 1/16 gal (US)= 236.588 2365×10−6 m3
cup (US food nutrition labeling)c (US)≡ 240 mL[16]= 2.4×10−4 m3
dash (imperial) ≡ 1/384 gi (imp) = ½ pinch (imp)= 369.961 751 302 08 3×10−9 m3
dash (US) ≡ 1/96 US fl oz = ½ US pinch= 308.057 599 609 375×10−9 m3
dessertspoon (imperial) ≡ 1/12 gi (imp)= 11.838 776 0416×10−6 m3
drop (imperial)gtt≡ 1/288 fl oz (imp)= 98.656 467 013 8×10−9 m3
drop (imperial) (alt)gtt1/1 824 gi (imp)77.886 684×10−9 m3
drop (medical) ≡ 0.9964/12 ml= 83.03×10−9 m3
drop (medical) ≡ 1/12 ml= 83.3×10−9 m3
drop (metric) ≡ 1/20 mL= 50.0×10−9 m3
drop (US)gtt≡ 1/360 US fl oz= 82.148 693 22916×10−9 m3
drop (US) (alt)gtt≡ 1/456 US fl oz64.854 231 496 71×10−9 m3
drop (US) (alt)gtt≡ 1/576 US fl oz51.342 933 268 23×10−9 m3
fifth ≡ 1/5 US gal= 757.082 3568×10−6 m3
firkin ≡ 9 gal (imp)= 0.040 914 81 m3
fluid drachm (imperial)fl dr≡ ⅛ fl oz (imp)= 3.551 632 8125×10−6 m3
fluid dram (US); US fluidramfl dr≡ ⅛ US fl oz= 3.696 691 195 3125×10−6 m3
fluid scruple (imperial)fl s≡ 1/24 fl oz (imp)= 1.183 877 60416×10−6 m3
gallon (beer)beer gal≡ 282 cu in= 4.621 152 048×10−3 m3
gallon (imperial)gal (imp)4.546  09 L4.546 09×10−3 m3
gallon (US dry)gal (US)≡ ⅛ bu (US lvl)= 4.404 883 770 86×10−3 m3
gallon (US fluid; Wine)gal (US)≡ 231 cu in3.785 411 784×10−3 m3
gill (imperial); Noggingi (imp); nog≡ 5 fl oz (imp)= 142.065 3125×10−6 m3
gill (US)gi (US)≡ 4 US fl oz= 118.294 118 25×10−6 m3
hogshead (imperial)hhd (imp)≡ 2 bl (imp)= 0.327 318 48 m3
hogshead (US)hhd (US)≡ 2 fl bl (US)= 0.238 480 942 392 m3
jigger (bartending) ≡ 1½ US fl oz≈ 44.36×10−6 m3
kilderkin ≡ 18 gal (imp)= 0.081 829 62 m3
lambdaλ≡ 1 mm3= 1×10−9 m3
last ≡ 80 bu (imp)= 2.909 4976 m3
litre
(liter)
L≡ 1 dm3 [17]≡ 0.001 m3
load ≡ 50 cu ft= 1.415 842 3296 m3
minim (imperial)min≡ 1/480 fl oz (imp) = 1/60 fl dr (imp)= 59.193 880 208 3×10−9 m3
minim (US)min≡ 1/480 US fl oz = 1/60 US fl dr= 61.611 519 921 875×10−9 m3
ounce (fluid imperial)fl oz (imp)≡ 1/160 gal (imp)28.413 0625×10−6 m3
ounce (fluid US customary)US fl oz≡ 1/128 gal (US)29.573 529 5625×10−6 m3
ounce (fluid US food nutrition labeling)US fl oz≡ 30 mL[16]3×10−5 m3
peck (imperial)pk≡ 2 gal (imp)= 9.092 18×10−3 m3
peck (US dry)pk≡ ¼ US lvl bu= 8.809 767 541 72×10−3 m3
perchper≡ 16½ ft × 1½ ft × 1 ft= 0.700 841 953 152 m3
pinch (imperial) ≡ 1/192 gi (imp) = ⅛ tsp (imp)= 739.923 502 60416×10−9 m3
pinch (US) ≡ 1/48 US fl oz = ⅛ US tsp= 616.115 199 218 75×10−9 m3
pint (imperial)pt (imp)≡ ⅛ gal (imp)= 568.261 25×10−6 m3
pint (US dry)pt (US dry)≡ 1/64 bu (US lvl) ≡ ⅛ gal (US dry)= 550.610 471 3575×10−6 m3
pint (US fluid)pt (US fl)≡ ⅛ gal (US)= 473.176 473×10−6 m3
pony ≡ 3/4 US fl oz= 22.180 147 171 875×10−6 m3
pottle; quartern ≡ ½ gal (imp) = 80 fl oz (imp)= 2.273 045×10−3 m3
quart (imperial)qt (imp)≡ ¼ gal (imp)= 1.136 5225×10−3 m3
quart (US dry)qt (US)≡ 1/32 bu (US lvl) = ¼ gal (US dry)= 1.101 220 942 715×10−3 m3
quart (US fluid)qt (US)≡ ¼ gal (US fl)= 946.352 946×10−6 m3
quarter; pail ≡ 8 bu (imp)= 0.290 949 76 m3
register ton ≡ 100 cu ft= 2.831 684 6592 m3
sack (imperial); bag ≡ 3 bu (imp)= 0.109 106 16 m3[citation needed]
sack (US) ≡ 3 bu (US lvl)= 0.105 717 210 500 64 m3
seam ≡ 8 bu (US lvl)= 0.281 912 561 335 04 m3[citation needed]
shot (US) usually 1.5 US fl oz[14]≈ 44×10−6 m3
strike (imperial) ≡ 2 bu (imp)= 0.072 737 44 m3
strike (US) ≡ 2 bu (US lvl)= 0.070 478 140 333 76 m3
tablespoon (Australian metric) ≡ 20.0×10−6 m3
tablespoon (Canadian)tbsp≡ ½ fl oz (imp)= 14.206 531 25×10−6 m3
tablespoon (imperial)tbsp≡ 5/8 fl oz (imp)= 17.758 164 0625×10−6 m3
tablespoon (metric) ≡ 15.0×10−6 m3
tablespoon (US customary)tbsp≡ ½ US fl oz= 14.786 764 7825×10−6 m3
tablespoon (US food nutrition labeling)tbsp≡ 15 mL[16]= 1.5×10−5 m3
teaspoon (Canadian)tsp≡ 1/6 fl oz (imp)= 4.735 510 416×10−6 m3
teaspoon (imperial)tsp≡ 1/24 gi (imp)= 5.919 388 02083×10−6 m3
teaspoon (metric) ≡ 5.0×10−6 m3= 5.0×10−6 m3
teaspoon (US customary)tsp≡ 1/6 US fl oz= 4.928 921 595×10−6 m3
teaspoon (US food nutrition labeling)tsp≡ 5 mL[16]= 5×10−6 m3
timber foot ≡ 1 cu ft= 0.028 316 846 592 m3
ton (displacement) ≡ 35 cu ft= 0.991 089 630 72 m3
ton (freight) ≡ 40 cu ft= 1.132 673 863 68 m3
ton (water) ≡ 28 bu (imp)= 1.018 324 16 m3
tun ≡ 252 gal (wine)= 0.953 923 769 568 m3
wey (US) ≡ 40 bu (US lvl)= 1.409 562 806 6752 m3

Plane angle

Plane angle
Name of unitSymbolDefinitionRelation to SI units
degree (of arc)°≡ 1/360 of a revolution ≡ π/180 rad17.453 293×10−3 rad
radian (SI unit)radThe angle subtended at the center of a circle by an arc whose length is equal to the circle's radius. One full revolution encompasses 2π radians.= 1 rad

Solid angle

Solid angle
Name of unitSymbolDefinitionRelation to SI units
square degreedeg²; sq.deg.; (°)²≡ (π/180)² sr≈ 0.30462×10−3 sr
steradian (SI unit)srThe solid angle subtended at the center of a sphere of radius r by a portion of the surface of the sphere having an area r2. A sphere encompasses 4π sr.[14]= 1 sr

Mass

Notes:

• See Weight for detail of mass/weight distinction and conversion.
• Avoirdupois is a system of mass based on a pound of 16 ounces, while Troy weight is the system of mass where 12 troy ounces equals one troy pound.
• In this table, the unit gee is used to denote standard gravity in order to avoid confusion with the "g" symbol for grams.
• In physics, the pound of mass is sometimes written lbm to distinguish it from the pound-force (lbf). It should not be read as the mongrel unit "pound metre".
Mass
Name of unitSymbolDefinitionRelation to SI units
atomic mass unit, unifiedu; AMU1.660 538 73×10−27 ± 1.3×10−36 kg
atomic unit of mass, electron rest massme9.109 382 15×10−31 ± 45×10−39 kg [18]
bag (coffee) ≡ 60 kg= 60 kg
bag (Portland cement) ≡ 94 lb av= 42.637 682 78 kg
barge ≡ 22½ sh tn= 20 411.656 65 kg
caratkt≡ 3 1/6 gr205.196 548 333 mg
carat (metric)ct≡ 200 mg= 200 mg
clove ≡ 8 lb av= 3.628 738 96 kg
crith ≈ 89.9349 mg
daltonDa1.660 902 10×10−27 ± 1.3×10−36 kg
dram (apothecary; troy)dr t≡ 60 gr= 3.887 9346 g
dram (avoirdupois)dr av27 11/32 gr= 1.771 845 195 3125 g
electronvolteV≡ 1 eV (energy unit) / c2= 1.7826×10−36 kg
gammaγ≡ 1 μg= 1 μg
graingr≡ 1/7000 lb av64.798 91 mg
graveGgrave was the original name of the kilogram≡ 1 kg
hundredweight (long)long cwt or cwt≡ 112 lb av= 50.802 345 44 kg
hundredweight (short); centalsh cwt≡ 100 lb av= 45.359 237 kg
kilogram
(kilogramme)
kg≡ mass of the prototype near Paris (≈ mass of 1L of water)≡ 1 kg (SI base unit)[8]
kipkip1000 lb av= 453.592 37 kg
mark ≡ 8 oz t= 248.827 8144 g
mite ≡ 1/20 gr= 3.239 9455 mg
mite (metric) ≡ 1/20 g= 50 mg
ounce (apothecary; troy)oz t≡ 1/12 lb t= 31.103 4768 g
ounce (avoirdupois)oz av≡ 1/16 lb= 28.349 523 125 g
ounce (US food nutrition labeling)oz≡ 28 g[16]= 28 g
pennyweightdwt; pwt≡ 1/20 oz t= 1.555 173 84 g
point ≡ 1/100 ct= 2 mg
poundlb≡ slug·ft/s2= 0.45359237 kg
pound (avoirdupois)lb av0.453 592 37 kg = 7000 grains0.453 592 37 kg
pound (metric) ≡ 500 g= 500 g
pound (troy)lb t5 760 grains= 0.373 241 7216 kg
quarter (imperial) ≡ 1/4 long cwt = 2 st = 28 lb av= 12.700 586 36 kg
quarter (informal) ≡ ¼ short tn= 226.796 185 kg
quarter, long (informal) ≡ ¼ long tn= 254.011 7272 kg
quintal (metric)q≡ 100 kg= 100 kg
scruple (apothecary)s ap≡ 20 gr= 1.295 9782 g
sheet ≡ 1/700 lb av= 647.9891 mg
slug; geepound; hylslug≡ 1 gee × 1 lb av × 1 s2/ft14.593 903 kg
stonest≡ 14 lb av= 6.350 293 18 kg
ton, assay (long)AT≡ 1 mg × 1 long tn ÷ 1 oz t32.666 667 g
ton, assay (short)AT≡ 1 mg × 1 sh tn ÷ 1 oz t29.166 667 g
ton, longlong tn or ton2 240 lb= 1 016.046 9088 kg
ton, shortsh tn2 000 lb= 907.184 74 kg
tonne (mts unit)t1 000 kg= 1 000 kg
wey ≡ 252 lb = 18 st= 114.305 277 24 kg (variants exist)
ZentnerZtr.Definitions vary; see [19] and.[14]

Density

Density
Name of unitSymbolDefinitionRelation to SI units
gram per millilitreg/mL≡ g/mL= 1,000 kg/m3
kilogram per cubic metre (SI unit)kg/m3≡ kg/m3= 1 kg/m3
kilogram per litrekg/L≡ kg/L= 1,000 kg/m3
ounce (avoirdupois) per cubic footoz/ft3≡ oz/ft31.001153961 kg/m3
ounce (avoirdupois) per cubic inchoz/in3≡ oz/in31.729994044×103 kg/m3
ounce (avoirdupois) per gallon (imperial)oz/gal≡ oz/gal6.236023291 kg/m3
ounce (avoirdupois) per gallon (US fluid)oz/gal≡ oz/gal7.489151707 kg/m3
pound (avoirdupois) per cubic footlb/ft3≡ lb/ft316.01846337 kg/m3
pound (avoirdupois) per cubic inchlb/in3≡ lb/in32.767990471×104 kg/m3
pound (avoirdupois) per gallon (imperial)lb/gal≡ lb/gal99.77637266 kg/m3
pound (avoirdupois) per gallon (US fluid)lb/gal≡ lb/gal119.8264273 kg/m3
slug per cubic footslug/ft3≡ slug/ft3515.3788184 kg/m3

Time

Time
Name of unitSymbolDefinitionRelation to SI units
atomic unit of timeaua0/(α·c)2.418 884 254×10−17 s
Callippic cycle ≡ 441 mo (hollow) + 499 mo (full) = 76 a of 365.25 d= 2.398 3776×109 s
centuryc≡ 100 a (see below for definition of year length)= 100 years
dayd= 24 h= 1440 min = 86400 s
day (sidereal)d≡ Time needed for the Earth to rotate once around its axis, determined from successive transits of a very distant astronomical object across an observer's meridian (International Celestial Reference Frame)86 164.1 s
decadedec≡ 10 a (see below for definition of year length)= 10 years
fortnightfn≡ 2 wk= 1 209 600 s
helek1/1 080 h= 3.3 s
Hipparchic cycle ≡ 4 Callippic cycles - 1 d= 9.593 424×109 s
hourh≡ 60 min= 3 600 s
jiffyj≡ 1/60 s= .016 s
jiffy (alternate)ja≡ 1/100 s= 10 ms
ke (quarter of an hour) ≡ ¼ h = 1/96 d= 60 × 60 / 4 s = 900 s = 60 / 4 min = 15 min
ke (traditional) ≡ 1/100 d= 24 × 60 × 60 / 100 s = 864 s = 24 * 60 / 100 min = 14.4 min
lustre; lustrum ≡ 5 a of 365 d= 1.5768×108 s
Metonic cycle; enneadecaeteris ≡ 110 mo (hollow) + 125 mo (full) = 6940 d ≈ 19 a= 5.996 16×108 s
millennium 1 000 a (see below for definition of year length)= 1000 years
millidaymd≡ 1/1 000 d= 24 × 60 × 60 / 1 000 s = 86.4 s
minutemin≡ 60 s, due to leap seconds sometimes 59 s or 61 s,= 60 s
moment ≡ 90 s= 90 s
month (full)mo≡ 30 d[20]= 2 592 000 s
month (Greg. av.)moAverage Gregorian month = 1 a (Gregorian average) / 12 = 365.242 5 d / 12 = 30.436 875 d2.6297×106 s
month (hollow)mo≡ 29 d[20]= 2 505 600 s
month (synodic)moCycle time of moon phases ≈ 29.530 589 d (Average)2.551×106 s
octaeteris = 48 mo (full) + 48 mo (hollow) + 3 mo (full)[21][22] = 8 a of 365.25 d = 2922 d= 2.524 608×108 s
Planck time ≡ (G/c5)½1.351 211 868×10−43 s
secondstime of 9 192 631 770 periods of the radiation corresponding to the transition between the 2 hyperfine levels of the ground state of the caesium 133 atom at 0 K[8] (but other seconds are sometimes used in astronomy). Also that time it takes for light to travel a distance of 299,792,458 meters.(SI base unit)
shake ≡ 10−8 s= 10 ns
sigma ≡ 10−6 s= 1 μs
Sothic cycle 1 461 a of 365 d= 4.607 4096×1010 s
svedbergS≡ 10−13 s= 100 fs
weekwk≡ 7 d= 168 h = 10 080 min = 604 800 s
year (common)a, y, or yr365 d= 31 536 000 s[23]
year (Gregorian)a, y, or yr= 365.2425 d average, calculated from common years (365 d) plus leap years (366 d) on most years divisible by 4. See leap year for details.= 31 556 952 s
year (Julian)a, y, or yr= 365.25 d average, calculated from common years (365 d) plus one leap year (366 d) every four years= 31 557 600 s
year (leap)a, y, or yr366 d= 31 622 400 s[23]
year (mean tropical)a, y, or yrConceptually, length of time it takes for the Sun to return to the same position in the cycle of seasons[Converter 1]365.24219 d, each day being 86,400 SI seconds[24]

31 556 925 s

year (sidereal)a, y, or yr≡ time taken for Sun to return to the same position with respect to the stars of the celestial sphere365.256 363 d ≈ 31 558 149.7632 s
Where UTC is observed, the length of time units longer than 1 s may increase or decrease by 1 s if a leap second occurs during the time interval of interest.

Frequency

Frequency
Name of unitSymbolDefinitionRelation to SI units
hertz (SI unit)Hz≡ Number of cycles per second= 1 Hz = 1/s
revolutions per minuterpm≡ One unit rpm equals one rotation completed around a fixed axis in one minute of time.0.104719755 rad/s

Speed or velocity

Speed
Name of unitSymbolDefinitionRelation to SI units
foot per hourfph≡ 1 ft/h8.466 667×10−5 m/s
foot per minutefpm≡ 1 ft/min= 5.08×10−3 m/s
foot per secondfps≡ 1 ft/s= 3.048×10−1 m/s
furlong per fortnight ≡ furlong/fortnight1.663 095×10−4 m/s
inch per houriph≡ 1 in/hr7.05 556×10−6 m/s
inch per minuteipm≡ 1 in/min4.23 333×10−4 m/s
inch per secondips≡ 1 in/s= 2.54×10−2 m/s
kilometre per hourkm/h≡ 1 km/h= 1/3.6 m/s ≈ 2.777 778×10−1 m/s
knotkn≡ 1 nmi/h = 1.852 km/h0.514 444 m/s
knot (Admiralty)kn≡ 1 NM (Adm)/h = 1.853 184 km/h[citation needed]= 0.514 773 m/s
mach numberMRatio of the speed to the speed of sound in the medium. Varies especially with temperature. About 1225 km/h (761 mph) in air at sea level to about 1062 km/h (660 mph) at jet altitudes (12,200 metres (40,000 ft)).[25] Unitless≈ 340 to 295 m/s for aircraft
metre per second (SI unit)m/s≡ 1 m/s= 1 m/s
mile per hourmph≡ 1 mi/h= 0.447 04 m/s
mile per minutempm≡ 1 mi/min= 26.8224 m/s
mile per secondmps≡ 1 mi/s= 1 609.344 m/s
speed of light in vacuumc299 792 458 m/s= 299 792 458 m/s
speed of sound in airsVaries especially with temperature. About 1225 km/h (761 mph) in air at sea level to about 1062 km/h (660 mph) at jet altitudes.≈ 340 to 295 m/s at aircraft altitudes

A velocity consists of a speed combined with a direction; the speed part of the velocity takes units of speed.

Flow (volume)

Flow
Name of unitSymbolDefinitionRelation to SI units
cubic foot per minuteCFM[citation needed]≡ 1 ft3/min= 4.719474432×10−4 m3/s
cubic foot per secondft3/s≡ 1 ft3/s= 0.028316846592 m3/s
cubic inch per minutein3/min≡ 1 in3/min= 2.7311773×10−7 m3/s
cubic inch per secondin3/s≡ 1 in3/s= 1.6387064×10−5 m3/s
cubic metre per second (SI unit)m3/s≡ 1 m3/s= 1 m3/s
gallon (US fluid) per dayGPD[citation needed]≡ 1 gal/d= 4.381263638×10−8 m3/s
gallon (US fluid) per hourGPH[citation needed]≡ 1 gal/h= 1.051503273×10−6 m3/s
gallon (US fluid) per minuteGPM[citation needed]≡ 1 gal/min= 6.30901964×10−5 m3/s
litre per minuteLPM[citation needed]≡ 1 L/min= 1.6×10−5 m3/s

Acceleration

Acceleration
Name of unitSymbolDefinitionRelation to SI units
foot per hour per secondfph/s≡ 1 ft/(h·s)8.466 667×10−5 m/s2
foot per minute per secondfpm/s≡ 1 ft/(min·s)= 5.08×10−3 m/s2
foot per second squaredfps2≡ 1 ft/s2= 3.048×10−1 m/s2
gal; galileoGal≡ 1 cm/s2= 10−2 m/s2
inch per minute per secondipm/s≡ 1 in/(min·s)4.233 333×10−4 m/s2
inch per second squaredips2≡ 1 in/s2= 2.54×10−2 m/s2
knot per secondkn/s≡ 1 kn/s5.144 444×10−1 m/s2
metre per second squared (SI unit)m/s2≡ 1 m/s2= 1 m/s2
mile per hour per secondmph/s≡ 1 mi/(h·s)= 4.4704×10−1 m/s2
mile per minute per secondmpm/s≡ 1 mi/(min·s)= 26.8224 m/s2
mile per second squaredmps2≡ 1 mi/s2= 1.609 344×103 m/s2
standard gravityg9.806 65 m/s2= 9.806 65 m/s2

Force

Force
Name of unitSymbolDefinitionRelation to SI units
atomic unit of force≡ me·α2·c2/a08.238 722 06×10−8 N [26]
dyne (cgs unit)dyn≡ g·cm/s2= 10−5 N
kilogram-force; kilopond; grave-forcekgf; kp; Gfg × 1 kg= 9.806 65 N
kip; kip-forcekip; kipf; klbfg × 1 000 lb= 4.448 221 615 2605×103 N
milligrave-force, gravet-forcemGf; gfg × 1 g= 9.806 65 mN
newton (SI unit)NA force capable of giving a mass of one kg an acceleration of one metre per second, per second.[27]= 1 N = 1 kg·m/s2
ounce-forceozfg × 1 oz= 0.278 013 850 953 781 25 N
pound-forcelbfg × 1 lb= 4.448 221 615 2605 N
poundalpdl≡ 1 lb·ft/s2= 0.138 254 954 376 N
sthene (mts unit)sn≡ 1 t·m/s2= 1×103 N
ton-forcetnfg × 1 sh tn= 8.896 443 230 521×103 N

Pressure or mechanical stress

Pressure
Name of unitSymbolDefinitionRelation to SI units
atmosphere (standard)atm101 325 Pa [28]
atmosphere (technical)at≡ 1 kgf/cm2= 9.806 65×104 Pa [28]
barbar≡ 105 Pa
barye (cgs unit) ≡ 1 dyn/cm2= 0.1 Pa
centimetre of mercurycmHg≡ 13 595.1 kg/m3 × 1 cm × g1.333 22×103 Pa [28]
centimetre of water (4 °C)cmH2O≈ 999.972 kg/m3 × 1 cm × g≈ 98.063 8 Pa [28]
foot of mercury (conventional)ftHg13 595.1 kg/m3 × 1 ft × g40.636 66×103 Pa [28]
foot of water (39.2 °F)ftH2O≈ 999.972 kg/m3 × 1 ft × g2.988 98×103 Pa [28]
inch of mercury (conventional)inHg13 595.1 kg/m3 × 1 in × g3.386 389×103 Pa [28]
inch of water (39.2 °F)inH2O≈ 999.972 kg/m3 × 1 in × g≈ 249.082 Pa [28]
kilogram-force per square millimetrekgf/mm2≡ 1 kgf/mm2= 9.806 65×106 Pa [28]
kip per square inchksi≡ 1 kipf/sq in6.894 757×106 Pa [28]
micron (micrometre) of mercury$\mu$mHg13 595.1 kg/m3 × 1 $\mu$m × g ≈ 0.001 torr0.133 322 4 Pa [28]
millimetre of mercurymmHg13 595.1 kg/m3 × 1 mm × g ≈ 1 torr≈ 133.3224 Pa [28]
millimetre of water (3.98 °C)mmH2O≈ 999.972 kg/m3 × 1 mm × g = 0.999 972 kgf/m2= 9.806 38 Pa
pascal (SI unit)Pa≡ N/m2 = kg/(m·s2)= 1 Pa [29]
pièze (mts unit)pz1 000 kg/m·s2= 1×103 Pa = 1 kPa
pound per square footpsf≡ 1 lbf/ft247.880 26 Pa [28]
pound per square inchpsi≡ 1 lbf/in26.894 757×103 Pa [28]
poundal per square footpdl/sq ft≡ 1 pdl/sq ft1.488 164 Pa [28]
short ton per square foot ≡ 1 sh tn × g / 1 sq ft95.760 518×103 Pa
torrtorr101 325/760 Pa≈ 133.322 4 Pa [28]

Torque or moment of force

Torque
Name of unitSymbolDefinitionRelation to SI units
foot-pound forceft lbfg × 1 lb × 1 ft= 1.355 817 948 331 4004 N·m
foot-poundalft pdl≡ 1 lb·ft2/s2= 4.214 011 009 380 48×10−2 N·m
inch-pound forcein lbfg × 1 lb × 1 in= 0.112 984 829 027 6167 N·m
metre kilogramm kg≡ N × m / g0.101 971 621 N·m
Newton metre (SI unit)N·m≡ N × m = kg·m2/s2= 1 N·m

Energy

Energy
Name of unitSymbolDefinitionRelation to SI units
barrel of oil equivalentboe≈ 5.8×106 BTU59 °F≈ 6.12×109 J
British thermal unit (ISO)BTUISO≡ 1.0545×103 J= 1.0545×103 J
British thermal unit (International Table)BTUIT= 1.055 055 852 62×103 J
British thermal unit (mean)BTUmean1.055 87×103 J
British thermal unit (thermochemical)BTUth1.054 350×103 J
British thermal unit (39 °F)BTU39 °F1.059 67×103 J
British thermal unit (59 °F)BTU59 °F1.054 804×103 J= 1.054 804×103 J
British thermal unit (60 °F)BTU60 °F1.054 68×103 J
British thermal unit (63 °F)BTU63 °F≈ 1.0546×103 J
calorie (International Table)calIT≡ 4.1868 J= 4.1868 J
calorie (mean)calmean1100 of the energy required to warm one gram of air-free water from 0 °C to 100 °C @ 1 atm4.190 02 J
calorie (thermochemical)calth≡ 4.184 J= 4.184 J
Calorie (US; FDA)Cal≡ 1 kcal= 1000 cal = 4184 J
calorie (3.98 °C)cal3.98 °C≈ 4.2045 J
calorie (15 °C)cal15 °C≡ 4.1855 J= 4.1855 J
calorie (20 °C)cal20 °C≈ 4.1819 J
Celsius heat unit (International Table)CHUIT≡ 1 BTUIT × 1 K/°R= 1.899 100 534 716×103 J
cubic centimetre of atmosphere; standard cubic centimetrecc atm; scc≡ 1 atm × 1 cm3= 0.101 325 J
cubic foot of atmosphere; standard cubic footcu ft atm; scf≡ 1 atm × 1 ft3= 2.869 204 480 9344×103 J
cubic foot of natural gas 1 000 BTUIT= 1.055 055 852 62×106 J
cubic yard of atmosphere; standard cubic yardcu yd atm; scy≡ 1 atm × 1 yd3= 77.468 520 985 2288×103 J
electronvolteVe × 1 V1.602 177 33×10−19 ± 4.9×10−26 J
erg (cgs unit)erg≡ 1 g·cm2/s2= 10−7 J
foot-pound forceft lbfg × 1 lb × 1 ft= 1.355 817 948 331 4004 J
foot-poundalft pdl≡ 1 lb·ft2/s2= 4.214 011 009 380 48×10−2 J
gallon-atmosphere (imperial)imp gal atm≡ 1 atm × 1 gal (imp)= 460.632 569 25 J
gallon-atmosphere (US)US gal atm≡ 1 atm × 1 gal (US)= 383.556 849 0138 J
hartree, atomic unit of energyEh≡ me·α2·c2 (= 2 Ry)4.359 744×10−18 J
horsepower-hourhp·h≡ 1 hp × 1 h= 2.684 519 537 696 172 792×106 J
inch-pound forcein lbfg × 1 lb × 1 in= 0.112 984 829 027 6167 J
joule (SI unit)JThe work done when a force of one newton moves the point of its application a distance of one metre in the direction of the force.[27]= 1 J = 1 m·N = 1 kg·m2/s2 = 1 C·V = 1 W·s
kilocalorie; large caloriekcal; Cal1 000 calIT= 4.1868×103 J
kilowatt-hour; Board of Trade UnitkW·h; B.O.T.U.≡ 1 kW × 1 h= 3.6×106 J
litre-atmospherel atm; sl≡ 1 atm × 1 L= 101.325 J
quad ≡ 1015 BTUIT= 1.055 055 852 62×1018 J
rydbergRyR··c2.179 872×10−18 J
therm (E.C.) 100 000 BTUIT= 105.505 585 262×106 J
therm (US) 100 000 BTU59 °F= 105.4804×106 J
thermieth≡ 1 McalIT= 4.1868×106 J
ton of coal equivalentTCE≡ 7 Gcalth= 29.288×109 J
ton of oil equivalentTOE≡ 10 Gcalth= 41.84×109 J
ton of TNTtTNT≡ 1 Gcalth= 4.184×109 J

Power or heat flow rate

Power
Name of unitSymbolDefinitionRelation to SI units
atmosphere-cubic centimetre per minuteatm ccm≡ 1 atm × 1 cm3/min= 1.688 75×10−3 W
atmosphere-cubic centimetre per secondatm ccs≡ 1 atm × 1 cm3/s= 0.101 325 W
atmosphere-cubic foot per houratm cfh≡ 1 atm × 1 cu ft/h= 0.797 001 244 704 W
atmosphere-cubic foot per minuteatm·cfm≡ 1 atm × 1 cu ft/min= 47.820 074 682 24 W
atmosphere-cubic foot per secondatm cfs≡ 1 atm × 1 cu ft/s= 2.869 204 480 9344×103 W
BTU (International Table) per hourBTUIT/h≡ 1 BTUIT/h0.293 071 W
BTU (International Table) per minuteBTUIT/min≡ 1 BTUIT/min17.584 264 W
BTU (International Table) per secondBTUIT/s≡ 1 BTUIT/s= 1.055 055 852 62×103 W
calorie (International Table) per secondcalIT/s≡ 1 calIT/s= 4.1868 W
erg per seconderg/s≡ 1 erg/s= 10−7 W
foot-pound-force per hourft lbf/h≡ 1 ft lbf/h3.766 161×10−4 W
foot-pound-force per minuteft lbf/min≡ 1 ft lbf/min= 2.259 696 580 552 334×10−2 W
foot-pound-force per secondft lbf/s≡ 1 ft lbf/s= 1.355 817 948 331 4004 W
horsepower (boiler)bhp≈ 34.5 lb/h × 970.3 BTUIT/lb9.810 657×103 W
horsepower (European electrical)hp≡ 75 kp·m/s= 736 W
horsepower (imperial electrical)hp≡ 746 W= 746 W
horsepower (imperial mechanical)hp≡ 550 ft lbf/s= 745.699 871 582 270 22 W
horsepower (metric)hp≡ 75 m kgf/s= 735.498 75 W
litre-atmosphere per minuteL·atm/min≡ 1 atm × 1 L/min= 1.688 75 W
litre-atmosphere per secondL·atm/s≡ 1 atm × 1 L/s= 101.325 W
luseclusec≡ 1 L·µmHg/s [14]≈ 1.333×10−4 W
ponceletp≡ 100 m kgf/s= 980.665 W
square foot equivalent direct radiationsq ft EDR≡ 240 BTUIT/h70.337 057 W
ton of air conditioning ≡ 2000 lbs of ice melted / 24 h3 504 W
ton of refrigeration (imperial) ≡ 2240 lb × iceIT / 24 h: iceIT = 144°F × 2326 J/kg.°F3.938 875×103 W
ton of refrigeration (IT) ≡ 200 lbs × iceIT / 24 h: iceIT = 144° × 2326 J/kg.°F3.516 853×103 W
watt (SI unit)WThe power which in one second of time gives rise to one joule of energy.[27]= 1 W = 1 J/s = 1 N·m/s = 1 kg·m2/s3

Action

Action
Name of unitSymbolDefinitionRelation to SI units
atomic unit of actionau/2π1.054 571 68×10−34 J·s[30]

Dynamic viscosity

Dynamic viscosity
Name of unitSymbolDefinitionRelation to SI units
pascal second (SI unit)Pa·s≡ N·s/m2, kg/(m·s)= 1 Pa·s
poise (cgs unit)P≡ 1 barye·s= 0.1 Pa·s
pound per foot hourlb/(ft·h)≡ 1 lb/(ft·h)4.133 789×10−4 Pa·s
pound per foot secondlb/(ft·s)≡ 1 lb/(ft·s)1.488164 Pa·s
pound-force second per square footlbf·s/ft2≡ 1 lbf·s/ft247.88026 Pa·s
pound-force second per square inchlbf·s/in2≡ 1 lbf·s/in26,894.757 Pa·s

Kinematic viscosity

Kinematic viscosity
Name of unitSymbolDefinitionRelation to SI units
square foot per secondft2/s≡ 1 ft2/s= 0.09290304 m2/s
square metre per second (SI unit)m2/s≡ 1 m2/s= 1 m2/s
stokes (cgs unit)St≡ 10−4 m2/s= 10−4 m2/s

Electric current

Electric current
Name of unitSymbolDefinitionRelation to SI units
ampere (SI base unit)A≡ The constant current needed to produce a force of 2 ×10−7 newton per metre between two straight parallel conductors of infinite length and negligible circular cross-section placed one metre apart in a vacuum.[8]= 1 A = 1 C/s
electromagnetic unit; abampere (cgs unit)abamp≡ 10 A= 10 A
esu per second; statampere (cgs unit)esu/s≡ (0.1 A·m/s) / c3.335641×10−10 A

Electric charge

Electric charge
Name of unitSymbolDefinitionRelation to SI units
abcoulomb; electromagnetic unit (cgs unit)abC; emu≡ 10 C= 10 C
atomic unit of chargeaue1.602 176 462×10−19 C
coulombC≡ The amount of electricity carried in one second of time by one ampere of current.[27]= 1 C = 1 A·s
faradayF≡ 1 mol × NA·e96 485.3383 C
milliampere hourmA·h≡ 0.001 A × 1 h= 3.6 C
statcoulomb; franklin; electrostatic unit (cgs unit)statC; Fr; esu≡ (0.1 A·m) / c3.335 641×10−10 C

Electric dipole

Electric dipole
Name of unitSymbolDefinitionRelation to SI units
atomic unit of electric dipole momentea0 8.478 352 81×10−30 C·m[31]
coulomb meterC·m = 1 C · 1 m
debyeD= 10−10 esu·Å= 3.33564095×10−30 C·m [32]

Electromotive force, electric potential difference

Voltage, electromotive force
Name of unitSymbolDefinitionRelation to SI units
abvolt (cgs unit)abV≡ 1×10−8 V= 1×10−8 V
statvolt (cgs unit)statVc· (1 μJ/A·m)= 299.792 458 V
volt (SI unit)VThe difference in electric potential across two points along a conducting wire carrying one ampere of constant current when the power dissipated between the points equals one watt.[27]= 1 V = 1 W/A = 1 kg·m2/(A·s3)

Electrical resistance

Electrical resistance
Name of unitSymbolDefinitionRelation to SI units
ohm (SI unit)ΩThe resistance between two points in a conductor when one volt of electric potential difference, applied to these points, produces one ampere of current in the conductor.[27]= 1 Ω = 1 V/A = 1 kg·m2/(A2·s3)

Capacitance

Capacitor's ability to store charge
Name of unitSymbolDefinitionRelation to SI units
farad (SI unit)FThe capacitance between two parallel plates that results in one volt of potential difference when charged by one coulomb of electricity.[27]= 1 F = 1 C/V = 1 A2·s4/(kg·m2)

Magnetic flux

magnetic flux
Name of unitSymbolDefinitionRelation to SI units
maxwell (CGS unit)Mx≡ 10−8 Wb[33]= 1×10−8 Wb
weber (SI unit)WbMagnetic flux which, linking a circuit of one turn, would produce in it an electromotive force of 1 volt if it were reduced to zero at a uniform rate in 1 second.[27]= 1 Wb = 1 V·s = 1 kg·m2/(A·s2)

Magnetic flux density

What physicists call Magnetic field is called Magnetic flux density by electrical engineers and magnetic induction by applied mathematicians and electrical engineers.
Name of unitSymbolDefinitionRelation to SI units
gauss (CGS unit)GMx/cm2 = 10−4 T= 1×10−4 T [34]
tesla (SI unit)TWb/m2= 1 T = 1 Wb/m2 = 1 kg/(A·s2)

Inductance

Inductance
Name of unitSymbolDefinitionRelation to SI units
henry (SI unit)HThe inductance of a closed circuit that produces one volt of electromotive force when the current in the circuit varies at a uniform rate of one ampere per second.[27]= 1 H = 1 Wb/A = 1 kg·m2/(A·s)2

Temperature

For more details on this topic, see Conversion of units of temperature.
Temperature
Name of unitSymbolDefinitionRelation to SI units
degree Celsius°C°C ≡ K − 273.15[K] ≡ [°C] + 273.15
degree Delisle°De[K] = 373.15 − [°De] × 2/3
degree Fahrenheit°F°F ≡ °C × 9/5 + 32[K] ≡ ([°F] + 459.67) × 5/9
degree Newton°N[K] = [°N] × 100/33 + 273.15
degree Rankine°R;°R ≡ K × 9/5[K] ≡ [°R] × 5/9
degree Réaumur°Ré[K] = [°Ré] × 5/4 + 273.15
degree Rømer°Rø[K] = ([°Rø] − 7.5) × 40/21 + 273.15
Regulo Gas MarkGM;°F ≡ GM × 25 + 300[K] ≡ [GM] × 125/9 + 422.038
kelvin (SI base unit)K≡ 1/273.16 of the thermodynamic temperature of the triple point of water.[8]≡ 1 K

Information entropy

Information entropy
Name of unitSymbolDefinitionRelation to SI unitsRelation to bits
SI unitJ/K≡ J/K= 1 J/K
nat; nip; nepitnatkB= 1.380 650 5(23)×10−23 J/K
bit; shannonbit; b; Sh≡ ln(2) × kB= 9.569 940 (16)×10−24 J/K= 1 bit
ban; hartleyban; Hart≡ ln(10) × kB= 3.179 065 3(53)×10−23 J/K
nibble≡ 4 bits= 3.827 976 0(64)×10−23 J/K= 22 bit
byteB≡ 8 bits= 7.655 952 (13)×10−23 J/K= 23 bit
kilobyte (decimal)kB1 000 B= 7.655 952 (13)×10−20 J/K= 8×103 bit = 8000 bit
kilobyte (kibibyte)KB; KiB1 024 B= 7.839 695 (13)×10−20 J/K= 213 bit = 8192 bit

Often, information entropy is measured in shannons, whereas the (discrete) storage space of digital devices is measured in bits. Thus, uncompressed redundant data occupy more than one bit of storage per shannon of information entropy. The multiples of a bit listed above are usually used with this meaning. Other times the bit is used as a measure of information entropy and is thus a synonym of shannon.

Luminous intensity

The candela is the preferred nomenclature for the SI unit.

Luminous intensity
Name of unitSymbolDefinitionRelation to SI units
candela (SI base unit); candlecdThe luminous intensity, in a given direction, of a source that emits monochromatic radiation of frequency 540×1012 hertz and that has a radiant intensity in that direction of 1/683 watt per steradian.[8]= 1 cd
candlepower (new)cp≡ cd The use of candlepower as a unit is discouraged due to its ambiguity.= 1 cd
candlepower (old, pre-1948)cpVaries and is poorly reproducible.[35] Approximately 0.981 cd.[14]≈ 0.981 cd

Luminance

Luminance
Name of unitSymbolDefinitionRelation to SI units
candela per square footcd/ft2≡ cd/ft210.763910417 cd/m2
candela per square inchcd/in2≡ cd/in21,550.0031 cd/m2
candela per square metre (SI unit); nit (deprecated[14])cd/m2≡ cd/m2= 1 cd/m2
footlambertfL≡ (1/π) cd/ft23.4262590996 cd/m2
lambertL≡ (104/π) cd/m23,183.0988618 cd/m2
stilb (CGS unit)sb≡ 104 cd/m2≈ 1×104 cd/m2

Luminous flux

Luminous flux
Name of unitSymbolDefinitionRelation to SI units
lumen (SI unit)lm≡ cd·sr= 1 lm = 1 cd·sr

Illuminance

Illuminance
Name of unitSymbolDefinitionRelation to SI units
footcandle; lumen per square footfc≡ lm/ft2= 10.763910417 lx
lumen per square inchlm/in2≡ lm/in21,550.0031 lx
lux (SI unit)lx≡ lm/m2= 1 lx = 1 lm/m2
phot (CGS unit)ph≡ lm/cm2= 1×104 lx

Name of unitSymbolDefinitionRelation to SI units
becquerel (SI unit)Bq≡ Number of disintegrations per second= 1 Bq = 1/s
curieCi≡ 3.7×1010 Bq= 3.7×1010 Bq [36]
rutherford (H)rd≡ 1 MBq= 1×106 Bq

Please note that although becquerel (Bq) and hertz (Hz) both ultimately refer to the same SI base unit (s−1), Hz is used only for periodic phenomena, and Bq is only used for stochastic processes associated with radioactivity.[37]

Name of unitSymbolDefinitionRelation to SI units
roentgenR1 R ≡ 2.58×10−4 C/kg[33]= 2.58×10−4 C/kg

The roentgen is not an SI unit and the NIST strongly discourages its continued use.[38]

Name of unitSymbolDefinitionRelation to SI units
gray (SI unit)Gy≡ 1 J/kg = 1 m2/s2 [39]= 1 Gy

Name of unitSymbolDefinitionRelation to SI units
Röntgen equivalent manrem≡ 0.01 Sv= 0.01 Sv
sievert (SI unit)Sv≡ 1 J/kg[37]= 1 Sv

Although the definitions for sievert (Sv) and gray (Gy) would seem to indicate that they measure the same quantities, this is not the case. The effect of receiving a certain dose of radiation (given as Gy) is variable and depends on many factors, thus a new unit was needed to denote the biological effectiveness of that dose on the body; this is known as the equivalent dose and is shown in Sv. The general relationship between absorbed dose and equivalent dose can be represented as

H = Q · D

where H is the equivalent dose, D is the absorbed dose, and Q is a dimensionless quality factor. Thus, for any quantity of D measured in Gy, the numerical value for H measured in Sv may be different.[40]

Software tools

Home and office computers come with converters in bundled spreadsheet applications or can access free converters via the Internet. Units and measurements can be easily converted using these tools, but only if the units are explicitly defined and the conversion is compatible (e.g., cmHg to kPa).

In fiction

When a measure is converted to another unit in a fiction work like a novel or film, the value often loses meaning (as in numerology) or gets too many significant digits ("40 miles" turns into "64 km"). For this reason, authors sometimes choose numbers that can be converted easily. Most notably, distances measured in miles often begin with 3 or 5, so the value converted to km also has one significant digit (5 or 8).

Notes and references

1. ^ jobs (2012-09-14). "The astronomical unit gets fixed : Nature News & Comment". Nature.com. doi:10.1038/nature.2012.11416. Retrieved 2013-08-31.
2. ^ "NIST Reference on Constants, Units, and Uncertainty."(2006). National Institute of Standards and Technology. Retrieved February 22, 2008.
3. ^ a b U.S. National Institute of Standards and Technology Handbook 44 Appendix C - General Tables of Units of Measurement 2013 Edition
4. Lide, D. (Ed.). (1990). Handbook of Chemistry and Physics (71st ed). Boca Raton, FL: CRC Press. Section 1.
5. ^ a b National Bureau of Standards. (June 30, 1959). Refinement of values for the yard and the pound. Federal Register, viewed September 20, 2006 at National Geodetic Survey web site.
6. ^ The International Astronomical Union and Astronomical Units
7. ^ Klein, Herbert Arthur. (1988). The Science of Measurement: a Historical Survey. Mineola, NY: Dover Publications 0-4862-5839-4.
8. The International System of Units, Section 2.1 (8 ed.), Bureau International des Poids et Mesures, 2006, retrieved August 26, 2009
9. ^ International System of Units, 8th ed. (2006), Bureau International des Poids et Mesures, Section 4.1 Table 8.
10. ^ P. Kenneth Seidelmann, Ed. (1992). Explanatory Supplement to the Astronomical Almanac. Sausalito, CA: University Science Books. p. 716 and s.v. parsec in Glossary.
11. ^ a b c Whitelaw, Ian. (2007). A Measure of All Things: The Story of Man and Measurement. New York: Macmillan 0-312-37026-1. p. 152.
12. ^ a b De Vinne, Theodore Low (1900). The practice of typography: a treatise on the processes of type-making, the point system, the names, sizes, styles and prices of plain printing types 2nd ed. New York: The Century Co. p. 142–150.
13. ^ Pasko, Wesley Washington (1894). American dictionary of printing and bookmaking. (1894). New York: Howard Lockwood. p. 521.
14. Rowlett, Russ (2005), How Many? A Dictionary of Units of Measurement
15. ^ Thompson, A. and Taylor, B.N. (2008). Guide for the Use of the International System of Units (SI). National Institute of Standards and Technology Special Publication 811. p. 57.
16. US Code of Federal Regulations, Title 21, Section 101.9, Paragraph (b)(5)(viii), retrieved August 29, 2009
17. ^ Barry N. Taylor, Ed.,NIST Special Publication 330: The International System of Units (SI) (2001 Edition), Washington: US Government Printing Office, 43,"The 12th Conference Generale des Poids et Mesures (CGPM)…declares that the word “litre” may be employed as a special name for the cubic decimetre".
18. ^ CODATA Value: atomic unit of mass. (2006). National Institute of Standards and Technology. Retrieved 16 September 2008.
19. ^ The Swiss Federal Office for Metrology gives Zentner on a German language web page [1] and quintal on the English translation of that page [2]; the unit is marked "spécifiquement suisse !"
20. ^ a b Pedersen O. (1983). "Glossary" in Coyne, G., Hoskin, M., and Pedersen, O. Gregorian Reform of the Calendar: Proceedings of the Vatican Conference to Commemorate its 400th Anniversary. Vatican Observatory. Available from Astrophysics Data System.
21. ^ Richards, E.G. (1998), Mapping Time, Oxford University Press, pp. 94–95, ISBN 0-19-850413-6
22. ^ Steel, Duncan (2000), Marking Time, John Wiley & Sons, p. 46, ISBN 0-471-29827-1
23. ^ a b Richards, E. G. (2013). "Calendars" in S. E. Urban & P. K. Seidelmann, eds. Explanatory Supplement to the Astronomical Almanac. Mill Valley, CA: University Science Books.
24. ^ Richards, E. G. (2013). "Calendars" in S. E. Urban & P. K. Seidelmann, eds. Explanatory Supplement to the Astronomical Almanac. Mill Valley, CA: University Science Books. p. 587.
25. ^ Tom Benson. (2010.) "Mach Number" in Beginner's Guide to Aeronautics. NASA.
26. ^ CODATA Value: atomic unit of force. (2006). National Institute of Standards and Technology. Retrieved September 14, 2008.
27. Comité International des Poids et Mesures, Resolution 2, 1946, retrieved August 26, 2009
28. Barry N. Taylor, (April 1 995), Guide for the Use of the International System of Units (SI) (NIST Special Publication 811), Washington, DC: US Government Printing Office, pp. 57–68.
29. ^ Barry N. Taylor, (April 1995), Guide for the Use of the International System of Units (SI) (NIST Special Publication 811), Washington, DC: US Government Printing Office, p. 5.
30. ^ International System of Units, 8th ed. (2006), Bureau International des Poids et Mesures, Section 4.1 Table 7.
31. ^ The NIST Reference on Constants, Units, and Uncertainty, 2006, retrieved August 26, 2009
32. ^ Robert G. Mortimer Physical chemistry,Academic Press, 2000 ISBN 0-12-508345-9, page 677
33. ^ a b c NIST Guide to SI Units, Appendix B.9, retrieved August 27, 2009
34. ^ Standard for the Use of the International System of Units (SI): The Modern Metric System IEEE/ASTM SI 10-1997. (1997). New York and West Conshohocken, PA: Institute of Electrical and Electronics Engineers and American Society for Testing and Materials. Tables A.1 through A.5.
35. ^ The NIST Reference on Constants, Units, and Uncertainty, retrieved August 28, 2009
36. ^ Ambler Thompson & Barry N. Taylor. (2008). Guide for the Use of the International System of Units (SI). Special Publication 811. Gaithersburg, MD: National Institute of Standards and Technology. p. 10.
37. ^ a b The International System of Units, Section 2.2.2., Table 3 (8 ed.), Bureau International des Poids et Mesures, 2006, retrieved August 27, 2009
38. ^ The NIST Guide to the SI (Special Publication 811), section 5.2, 2008, retrieved August 27, 2009
39. ^ Ambler Thompson & Barry N. Taylor. (2008). Guide for the Use of the International System of Units (SI). Special Publication 811. Gaithersburg, MD: National Institute of Standards and Technology. p. 5.
40. ^ Comité international des poids et mesures, 2002, Recommendation 2, retrieved August 27, 2009
Notes
1. ^ The technical definition of tropical year is the period of time for the ecliptic longitude of the Sun to increase 360 degrees. (Urban & Seidelmann 2013, Glossary, s.v. year, tropical)