Symbols, abbreviations, acronyms, and units of measure.

§ 1065.1005 Symbols, abbreviations, acronyms, and units of measure.

The procedures in this part generally follow the International System of Units (SI), as detailed in NIST Special Publication 811, which we incorporate by reference in § 1065.1010. See § 1065.20 for specific provisions related to these conventions. This section summarizes the way we use symbols, units of measure, and other abbreviations.

(a) Symbols for quantities. This part uses the following symbols and units of measure for various quantities:

Table 1 of § 1065.1005—Symbols for Quantities

Symbol Quantity Unit Unit symbol Units in terms of SI base units
αatomic hydrogen-to-carbon ratiomole per molemol/mol1.
Aareasquare meterm2m2.
a0intercept of least squares regression
a1slope of least squares regression
agacceleration of Earth's gravitymeter per square secondm/s2m· s−2.
βratio of diametersmeter per meterm/m1.
βatomic oxygen-to-carbon ratiomole per molemol/mol1.
C#number of carbon atoms in a molecule
cpower-specific carbon mass error coefficientgram per kilowatt-hourg/(kW·hr)3.6−1 · 10−9 · m−2 · s2.
Cddischarge coefficient
Cfflow coefficient
δatomic nitrogen-to-carbon ratiomole per molemol/mol1.
ddiametermetermm.
dpower-specific carbon mass rate absolute error coefficentgram per kilowatt-hourg/(kW·hr)3.6−1 · 10−9 · m−2 · s2.
DRdilution ratiomole per molemol/mol1.
εerror between a quantity and its reference
difference or error quantity
ebrake-specific emission or fuel consumptiongram per kilowatt hourg/(kW·hr)3.6−1 · 10−9 · m−2 · s2.
FF-test statistic
ƒfrequencyhertzHzs−1.
ƒnangular speed (shaft)revolutions per minuter/minπ · 30−1 · s−1.
γratio of specific heats(joule per kilogram kelvin) per (joule per kilogram kelvin)(J/(kg·K))/(J/(kg·K))1.
γatomic sulfur-to-carbon ratiomole per molemol/mol1.
κopacity
Kcorrection factor1.
Kvcalibration coefficientm4 · s · K0.5/kgm4 · kg−1 · s · K0.5.
llengthmetermm.
Llimit
µviscosity, dynamicpascal secondPa·sm−1 · kg · s−1.
Mmolar mass 1gram per moleg/mol10−3 · kg · mol−1.
mmasskilogramkgkg.
m mass ratekilogram per secondkg/skg · s−1.
vviscosity, kinematicmeter squared per secondm2/sm2 · s−1.
Ntotal number in series
namount of substancemolemolmol.
n amount of substance ratemole per secondmol/smol · s−1.
PpowerkilowattkW103 · m2 · kg · s−3.
PFpenetration fraction
ppressurepascalPam−1 · kg · s−2.
ρmass densitykilogram per cubic meterkg/m3m−3 · kg.
Δpdifferential static pressurepascalPam−1 · kg · s−2.
rratio of pressurespascal per pascalPa/Pa1.
r2coefficient of determination
Raaverage surface roughnessmicrometerµm10−6 · m.
Re#Reynolds number
RFresponse factor
RHrelative humidity
σnon-biased standard deviation
SSutherland constantkelvinKK.
SEEstandard error of the estimate
Tabsolute temperaturekelvinKK.
TCelsius temperaturedegree Celsius °CK−273.15.
Ttorque (moment of force)newton meterN·mm2 · kg · s−2.
θplane angledegrees°rad.
ttimesecondss.
Δttime interval, period, 1/frequencysecondss.
Vvolumecubic meterm3m3.
V volume ratecubic meter per secondm3/sm3 · s−1.
Wworkkilowatt-hourkW·hr3.6 · 106 · m2 · kg · s−2.
wCcarbon mass fractiongram per gramg/g1.
xamount of substance mole fraction.2mole per molemol/mol1.
X ~flow-weighted mean concentrationmole per molemol/mol1.
ygeneric variable
Zcompressibility factor
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