IUPAC Gold Book - Quantities

Quantities

A B C D E F G H IJK LMN O P Q R S TUV WXYZ

quantity	symbol	referenced in	equation
magnetic field strength, $H$	$Math - math$	magnetic field strength, $H$	$H$
magnetic flux, $Φ$	$Math - math$	magnetic flux, $Φ$	$Φ$
magnetic flux density, $B$	$Math - math$	magnetic flux density, $B$	$B$
magnetic moment, $m$ , $μ$	$Math - math$	magnetic moment, $m$ , $μ$	$m$
	$Math - math$	magnetic moment, $m$ , $μ$	$μ$
magnetic susceptibility	$Math - math$	magnetic susceptibility	$χ$
		magnetic susceptibility	$χ = constant x m 2 T$
		magnetic susceptibility, $χ$	$χ$
magnetic susceptibility, $χ$	$Math - math$	magnetic susceptibility	$χ$
		magnetic susceptibility	$χ = constant x m 2 T$
		magnetic susceptibility, $χ$	$χ$
magnetizability, $ξ$	$Math - math$	magnetizability, $ξ$	$ξ$
		magnetizability, $ξ$	$m i = ξ B$
magnetogyric ratio, $γ$	$Math - math$	magnetogyric ratio, $γ$	$γ$
mass, $m$	$Math - math$	fractal dimension, $d$	$m ∝ r d$
		fractal dimension, $d$	$m$
		kinetic energy, $E k$	$m$
		kinetic energy, $E k$	$E k = m v 2 2$
mass concentration, $γ$ , $ρ$	$Math - math$	mass concentration, $γ$ , $ρ$	$γ$
	$Math - math$	mass concentration, $γ$ , $ρ$	$ρ$
		osmotic pressure, $Π$	$Π = c B R T = ρ B R T M B$
		osmotic pressure, $Π$	$ρ B$
mass distribution ratio, $k MEKC$ in micellar electrokinetic chromatography	$Math - math$	mass distribution ratio, $k MEKC$ in micellar electrokinetic chromatography	$k MEKC$
		mass distribution ratio, $k MEKC$ in micellar electrokinetic chromatography	$k MEKC = n mc n aq = K · V mc V aq$
		mass distribution ratio, $k MEKC$ in micellar electrokinetic chromatography	$k MEKC$
		mass distribution ratio, $k MEKC$ in micellar electrokinetic chromatography	$k MEKC = t m − t eo t eo ( 1 − t m t mc )$
mass distribution ratio, $k MEEKC$ in micro-emulsion electrokinetic chromatography	$Math - math$	mass distribution ratio, $k MEEKC$ in micro-emulsion electrokinetic chromatography	$k MEEKC$
mass excess, $Δ$	$Math - math$	mass excess, $Δ$	$Δ$
mass flow rate, $q m$	$Math - math$	mass flow rate, $q m$	$q m$
mass fraction, $w$	$Math - math$	mass fraction, $w$	$w$
mass number, $A$	$Math - math$	mass number, $A$	$A$
	$Math - math$	mass number, $A$	$m$
mean free path, $λ$	$Math - math$	mean free path, $λ$	$λ$
		mean free path, $λ$	$λ = ( 2 π n d m 2 ) −1$
median effective concentration ( $EC 50$ )	$Math - math$	median effective concentration ( $EC 50$ )	$EC 50$
median effective dose ( $ED 50$ )	$Math - math$	median effective dose ( $ED 50$ )	$ED 50$
median lethal concentration ( $LC 50$ )	$Math - math$	median lethal concentration ( $LC 50$ )	$LC 50$
median lethal dose ( $LD 50$ )	$Math - math$	median lethal dose ( $LD 50$ )	$LD 50$
median lethal time ( $TL 50$ )	$Math - math$	median lethal time ( $TL 50$ )	$TL 50$
median narcotic concentration ( $NC 50$ )	$Math - math$	median narcotic concentration ( $NC 50$ )	$NC 50$
median narcotic dose ( $ND 50$ )	$Math - math$	median narcotic dose ( $ND 50$ )	$ND 50$
microscopic cross-section, $σ>$	$Math - math$	microscopic cross-section, $σ>$	$σ>$
migration time, $t m$ in capillary electrophoresis	$Math - math$	migration time, $t m$ in capillary electrophoresis	$t m$
migration time of micelles, $t mc$ in micellar electrokinetic chromatography	$Math - math$	migration time of micelles, $t mc$ in micellar electrokinetic chromatography	$t mc$
minimum consumption time, $t min$ in flame emission and absorption spectrometry	$Math - math$	minimum consumption time, $t min$ in flame emission and absorption spectrometry	$t min$
minimum lethal concentration ( $LC min$ )	$Math - math$	minimum lethal concentration ( $LC min$ )	$LC min$
minimum lethal dose ( $LD min$ )	$Math - math$	minimum lethal dose ( $LD min$ )	$LD min$
mobility, $μ$	$Math - math$	mobility, $μ$	$μ$
	$Math - math$	mobility (general)	$b$
	$Math - apply$	mobility (general)	$b i = ν i F i$
mobility (general)	$Math - math$	mobility, $μ$	$μ$
	$Math - math$	mobility (general)	$b$
	$Math - apply$	mobility (general)	$b i = ν i F i$
modulus of elasticity, $E$	$Math - math$	modulus of elasticity, $E$	$E$
molality, $m$ , $b$	$Math - math$	molality, $m$ , $b$	$m$
	$Math - math$	molality, $m$ , $b$	$b$
molar absorption coefficient, $ɛ$	$Math - fn$	brightness of a laser dye	$ɛ λ$
		brightness of a laser dye	$Φ f ɛ λ$
		molar absorption coefficient, $ɛ$	$ɛ$
		molar absorption coefficient, $ɛ$	$ɛ λ = 1 c l lg ( P λ 0 P λ ) = A λ c l$
		molar absorption coefficient, $ɛ$	$ɛ λ$
		radiative energy transfer	$a = 1 Φ D 0 ∫ λ I λ D λ 1 − 10 − ɛ A λ c A l ⁢ d λ$
		radiative energy transfer	$ɛ A λ$
		radiative energy transfer	$a = 2.3 Φ D 0 c A l ∫ λ I λ D λ ɛ A λ ⁢ d λ$
molar refraction, $R$	$Math - math$	molar refraction, $R$	$R$
		molar refraction, $R$	$R = V m n 2 − 1 n 2 + 2$
moment of a force, $M$	$Math - math$	moment of a force, $M$	$M$
		moment of a force, $M$	$M = r × F$
moment of inertia, $I$ , $J$	$Math - math$	moment of inertia, $I$ , $J$	$I$
	$Math - math$	moment of inertia, $I$ , $J$	$J$
momentum, $p$	$Math - apply$	angular momentum, $L$	$L = r × p$
		momentum, $p$	$p$
mutual inductance, $M$	$Math - math$	mutual inductance, $M$	$M$