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quantitysymbolreferenced inequation
magnetic field strength, H Math - mathmagnetic field strength, H H
magnetic flux, Φ Math - mathmagnetic flux, Φ Φ
magnetic flux density, BMath - mathmagnetic flux density, BB
magnetic moment, m, μ Math - mathmagnetic moment, m, μ m
Math - mathmagnetic moment, m, μ μ
magnetic susceptibilityMath - mathmagnetic susceptibilityχ
magnetic susceptibilityχ = constant x m 2 T
magnetic susceptibility, χ χ
magnetic susceptibility, χ Math - mathmagnetic susceptibilityχ
magnetic susceptibilityχ = constant x m 2 T
magnetic susceptibility, χ χ
magnetizability, ξ Math - mathmagnetizability, ξ ξ
magnetizability, ξ m i = ξ B
magnetogyric ratio, γ Math - mathmagnetogyric ratio, γ γ
mass, mMath - mathfractal dimension, dm ∝ r d
fractal dimension, dm
kinetic energy, E km
kinetic energy, E kE k = m v 2 2
mass concentration, γ, ρ Math - mathmass concentration, γ, ρ γ
Math - mathmass 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 chromatographyMath - mathmass distribution ratio, k MEKC in micellar electrokinetic chromatographyk MEKC
mass distribution ratio, k MEKC in micellar electrokinetic chromatographyk MEKC = n mc n aq = K · V mc V aq
mass distribution ratio, k MEKC in micellar electrokinetic chromatographyk MEKC
mass distribution ratio, k MEKC in micellar electrokinetic chromatographyk MEKC = t m − t eo t eo ( 1 − t m t mc )
mass distribution ratio, k MEEKC in micro-emulsion electrokinetic chromatographyMath - mathmass distribution ratio, k MEEKC in micro-emulsion electrokinetic chromatographyk MEEKC
mass excess, Δ Math - mathmass excess, Δ Δ
mass flow rate, q m Math - mathmass flow rate, q m q m
mass fraction, w Math - mathmass fraction, w w
mass number, A Math - mathmass number, A A
Math - mathmass number, A m
mean free path, λ Math - mathmean free path, λ λ
mean free path, λ λ = ( 2 π n d m 2 ) −1
median effective concentration (EC 50)Math - mathmedian effective concentration (EC 50)EC 50
median effective dose (ED 50)Math - mathmedian effective dose (ED 50)ED 50
median lethal concentration (LC 50)Math - mathmedian lethal concentration (LC 50)LC 50
median lethal dose (LD 50)Math - mathmedian lethal dose (LD 50)LD 50
median lethal time (TL 50)Math - mathmedian lethal time (TL 50)TL 50
median narcotic concentration (NC 50)Math - mathmedian narcotic concentration (NC 50)NC 50
median narcotic dose (ND 50)Math - mathmedian narcotic dose (ND 50)ND 50
microscopic cross-section, σ> Math - mathmicroscopic cross-section, σ> σ>
migration time, t m in capillary electrophoresisMath - mathmigration time, t m in capillary electrophoresist m
migration time of micelles, t mc in micellar electrokinetic chromatographyMath - mathmigration time of micelles, t mc in micellar electrokinetic chromatographyt mc
minimum consumption time, t min in flame emission and absorption spectrometryMath - mathminimum consumption time, t min in flame emission and absorption spectrometryt min
minimum lethal concentration (LC min) Math - mathminimum lethal concentration (LC min) LC min
minimum lethal dose (LD min) Math - mathminimum lethal dose (LD min) LD min
mobility, μ Math - mathmobility, μ μ
Math - mathmobility (general)b
Math - applymobility (general)b i = ν i F i
mobility (general)Math - mathmobility, μ μ
Math - mathmobility (general)b
Math - applymobility (general)b i = ν i F i
modulus of elasticity, E Math - mathmodulus of elasticity, E E
molality, m, b Math - mathmolality, m, b m
Math - mathmolality, m, b b
molar absorption coefficient, ɛMath - fnbrightness of a laser dyeɛ λ
brightness of a laser dyeΦ f ɛ λ
molar absorption coefficient, ɛɛ
molar absorption coefficient, ɛɛ λ = 1 c l lg ( P λ 0 P λ ) = A λ c l
molar absorption coefficient, ɛɛ λ
radiative energy transfera = 1 Φ D 0 ∫ λ I λ D λ 1 − 10 − ɛ A λ c A l ⁢ d λ
radiative energy transferɛ A λ
radiative energy transfera = 2.3 Φ D 0 c A l ∫ λ I λ D λ ɛ A λ ⁢ d λ
molar refraction, R Math - mathmolar refraction, R R
molar refraction, R R = V m n 2 − 1 n 2 + 2
moment of a force, M Math - mathmoment of a force, M M
moment of a force, M M = r × F
moment of inertia, I, J Math - mathmoment of inertia, I, J I
Math - mathmoment of inertia, I, J J
momentum, p Math - applyangular momentum, LL = r × p
momentum, p p
mutual inductance, M Math - mathmutual inductance, M M