[A] [B]
[C] [D] [E]
[F] [G] [H]
[I] [J] [K]
[L] [M]
[N] [O]
[P] [Q] [R]
[S] [T] [U]
[V] [W] [X]
[Y] [Z]
Terms are listed in alphabetical order, with reference to the number of the subchapter(s) where they can be found. Clicking on a term loads the appropriate section pdf file. If a term is not a separate entry, the entry at which it can be found is given in parentheses. Terms marked with an asterisk ( *) are not recommended.
Machine 7.2
Macro-element* 9.4.1
Macroporous ion exchanger 9.2.5.3
Magic angle spinning method 17.7.6
Magnetic chemical sensor 7.4
- deflection 12.2
- dipol 1.3.4
- - moment 1.3.3
- - selection rules 10.3.4.8.2
- field 12.2
- - glow-discharge 10.3.1.5.8
- - scan 12.3.3.1
- flux 1.3.3
- - density 1.3.3;
12.3.3.2
- methods 17.7.6
- Penning effect 10.3.1.5.2
- pump 12.4.4
- resonance imaging 14.3
- sector 12.2
- susceptibility 1.3.3
Magnetically stabilized arcs
10.3.1.2.3
Magnetogyric ratio 1.3.4;
1.3.5
Magneto-optical shutters 10.3.1.6.5
Magnetron 10.3.1.4.7
Main line (X-ray) 10.3.4.8.3
- solute 9.4.1
Major component (see
Macro-element 9.4.1)
Manipulator 7.3
Manometer 12.4.4
Manual 7.2
Marker 9.2.3.3
MAS 17.7.6
Mass analyser quadrupole 12.2
- analysis 12.2
- attenuation coefficients
10.2.1.2.7
- -change isobaric determination of
5.2.2
- /charge 12.2
- concentration 1.3.7;
9.7
- density 9.7
- - gradient 9.7
- - partial 9.7
- distribution ratio 9.4.3 (see
also Retention factor 9.2.3.7)
- flow 12.4.4
- - rate of mobile phase 9.2.7.2
- - -sensitive detector 9.2.4.1
- fraction (of component B) 9.7
- molar 9.7
- number 1.3.4;
12.2
- of the stationary phase
9.2.3.2
- sensitive chemical sensor 7.4
- spectrograph 12.2
- - double-focusing 12.2
- spectrometer 12.2
- - double-focusing 12.2
- - dynamic fields 12.2
- - Fourier transform ion cyclotron
12.2
- - operating on the linear accelerator
principle 12.2
- - prolate trochoidal 12.2
- - single-focusing 12.2
- - static fields 12.2
- - tandem 12.2
- - time-of-flight 12.2
- spectrometry 12.2
- - /mass spectrometry 12.2
- spectroscope 12.2
- spectroscopy 12.2
- spectrum 12.3.3.1
- transfer coefficient 1.3.10
- -transfer-controlled electrolyte rate
constant 8.4
Master grating 10.3.2.1.3
Matched cells 10.2.1.3.4;
10.3.5.1.2
Matching capacitor 10.3.1.4.1
Material-certification study 18.7.1
- dispersion 10.3.2.1.3
- reference 5.2.2
Matrices polycrystalline 10.2.1.3.3
Matrix 18.7.2;
19.2.3
- effect 10.3.4.3.4;
10.3.4.2.1
- electrode 8.3.2.2
- matching 10.3.1.4.8
Mattauch-Herzog geometry 12.2
Maximum allowable concentration 19.3.1
- area 9.2.3.3
- emission concentration 19.3.1
- loading 9.4.3
- peak 9.2.3.3
- pressure ratio (of a vacuum pump)
12.4.4
- pyrolysis temperature 5.3
- spectral radiance 10.3.5.1.1
Maxwell-Boltzmann's law 10.3.1.1.1
McLafferty rearrangement 12.5.1
McLeod gauge 12.4.4
Mean arithmetic 2.3
- free path
10.3.1.1.2;
12.4.4
- geometric 2.3
- harmonic 2.3
- life radioactive 16.2
- path 12.4.4
- polarizability 11.2
- quadratic 2.3
- wavelength 10.3.2.1.7
- weighted 2.3
Measurable quantity 18.2.1;
18.4.1
Measurand 18.2.2;
18.4.1
Measure (of spectral feature)
10.3.3.1.1
Measured emission spectrum 10.3.6.3.2
- (fluorescence phosphorescence)
excitation
spectrum 10.3.6.3.3
- luminescence parameter
10.3.6.3.1
- quantum yield of luminescence
(fluorescence
or phosphorescence) 10.3.6.3.6
- value 2.2
Measurement 18.2.2
- dynamic thermomechanical 5.2.2
- error of 18.2.3
- method of 18.2.2
- principle of 18.2.2
- procedure 18.2.2
- result of 18.2.3;
18.4.3.5
- signal 18.2.2
- thermomechanical 5.2.2
- uncertainty of 18.2.3
Measuring beam 10.3.4.5.2
- instrument 18.2.4
- - accuracy of 18.2.4
- - bias of 18.2.4
- - error of indication of 18.2.4
- - repeatability of 18.2.4
- - scale of 18.2.4
- - sensitivity of 18.2.4
- range 18.2.4
- system 18.2.4
- time 10.3.2.1.9
Mechanical entrapment 9.5
- hygrometer (see
Hygrometer 19.3.1)
- interface 7.3
- pump 12.4.4
Mechanisation 7.2
Mechanism 7.2
Median 2.3
- wavelength 10.3.2.1.7
Medium, active 10.3.1.6.1
- current arc 10.3.1.2
- -pressure mercury lamp 11.2
- vacuum 12.4.4
- voltage spark 10.3.1.3.4
- - spark generators 10.3.1.3.4
Meker burner 10.3.4.2.2
Membrane 8.3.2.1
- electrode heterogeneous
8.3.2.2
- - homogeneous 8.3.2.2
- ion-exchange 9.2.5.3
- leak 12.4.4
- sites 8.3.2.1
- sited (see Membrane
sites 8.3.2.1)
Memory of electrode (see Hysteresis
and reproducibility
8.3.2.1)
Mercury-cadmium-telluride photoconductive
detector 10.3.2.5
Mercury-vapour generator 10.3.4.6.1
Mercury-xenon lamp 11.2
Metal contact ion-selective electrode
8.3.2.2
- oxide semiconductor 10.3.2.6
- - semiconductor field effect transistor
(MOSFET) 8.3.2.4
- vapour arc lamps 10.3.1.5.5
Metallochromic indicator 6.4.2
Metastable ion 12.3.2
- quenched electron spectroscopy
17.2.6
- state 10.3.1.1.4
Method of fixed interference 8.3.2.3
- measurement 18.2.2
- -performance study 18.7.1
Metrology 18.2.2
Michaelis constant (see
Michaelis-Menten
kinetics 19.2.2)
Michaelis-Menten kinetics 19.2.2
Michelson interferometer
10.3.2.1.4;
10.3.2.1.2
Microanalysis 10.3.4.7.2
Micro-areas 10.3.4.9.3
Microchannel plate 10.3.2.6
Micro-drilling 10.3.4.9.3
Micro-element* 9.4.1
Microphone 10.3.2.3.5
Microsample 10.3.4.7.2
Micro-surface removal 10.3.4.9.3
Micro-volumes 10.3.4.9.3
Microwave induced plasma atmospheric
pressure
10.3.1.4.8
- induced plasmas 10.3.1.4.7
Mid-analysis isothermal temperature
9.2.3.5
Middle slit 10.3.2.1.1
Mie scattering 10.2.1.1.5
Migration current 8.4
- rate of 9.6
Milligram equivalent of readability 4.2
Milling 10.3.4.9.2;
18.3.5
Minimum consumption time 10.3.4.2.2
- detectability 9.2.4.4
- detectable concentration or amount
(detection limit) 2.4
- - signal 18.4.3.7
- - value 18.4.3.7
- quantifiable value 18.4.3.7
- significant signal (critical level)
2.4
Minor component (see
Micro-element 9.4.1)
Mirror configurations 10.3.1.6.1
Mist 19.3.1
Mixed agglutination tests (see
Agglutination
19.2.3)
- crystal 9.5
- indicator 6.2
Mixing 18.3.5
- chamber 7.3
- coil (flow analysis) 7.3
Mobile phase 9.2.1.1
- phase composition 9.2.7.2
- - compressibility correction
factor
9.2.3.6
- - distance 9.2.3.8
- - flow rate (see Flow rate
9.2.3.6)
- - front 9.2.3.8
- - mass flow rate 9.2.7.2
- - modifier 9.2.7.2
- - velocity 9.2.3.6
- - viscosity 9.2.3.6
- - volume flow rate 9.2.7.2
Mobility electrophoretic 9.6
Mode* 2.3
- -locked laser 11.2
- selector (laser resonator)
10.3.1.6.1
Moderator 16.2
Modified active solid 9.2.3.1
- sample 18.3.4
Modifier 9.4.2
- mobile-phase 9.2.7.2
Modular analytical instrument 7.3
Modulation of amplitude 10.3.6.2.4
- frequency 10.3.6.2.4
- linear polarized radiation
10.3.6.2.4
- wavelength
10.3.5.2.6;
10.3.6.2.4
Module 7.3
Modulus of elasticity 1.3.2
Molality 1.3.7
Molar absorption coefficient
10.2.1.3.4;
10.3.5.2.2; 11.2
- conductivity (of an electrolyte)
1.3.10
- decadic absorption coefficient
11.2
- gas constant 9.7
- mass 1.3.7;
9.6; 9.7
- optical rotatory power 1.3.6
- quantity 1.2
- refraction 1.3.6
- volume 9.7
Molecular absorption spectroscopy 10.2
- bands 10.3.4.1.5
- effusion 12.4.4
- flow 12.4.4
- flux 12.4.4
- ion 12.3.2
- leak 12.4.4
- luminescence spectroscopy 10.2
- sieve trap 12.4.4
- spectroscopy 10.2
- states, term symbols for 1.3.5
- velocity distribution 12.4.4
Molecularity of a reaction 15.2
Moment of inertia 9.7
Momentum spectrum 12.3.3.1
- -resolved Bremsstrahlung
spectroscopy
17.2.2.2
- transfer 10.3.1.5.3
Monitoring (in atmospheric trace component
analysis) 19.3.1
- error 7.3
- systems (in atmospheric trace component
analysis) 19.3.1
Monochromatic radiation 10.3.2.1.6
Monochromator 10.3.2.1.1
- double 10.3.2.1.1
- - additive 10.3.2.1.1
- double-pass 10.3.2.1.1
- Echelle 10.3.2.1.10
- emission 10.3.6.2.2
- excitation 10.3.6.2.2
- multiple 10.3.2.1.1
- parallel 10.3.2.1.1
- spectral optical conductance of
10.3.2.1.6
- subtractive double 10.3.2.1.1
Monoclonal 19.2.3
Monofunctional ion exchanger 9.2.5.3
Monoisotopic mass spectrum 12.5.2
Monolayer 17.4
- capacity 17.4
Monospecificity 19.2.3
Monthly averages (with reference to atmospheric
component analysis) 19.3.1
Mössbauer spectroscopy 17.7.6
Mounting surface base 7.3
MQES 17.2.6
MRI 14.3
MS-pyrogram 5.3
Muffle furnace 10.3.4.9.4
Multichannel analyzer 10.3.2.4.2
- pipette hand 7.3
Multicomponent analysis 10.3.5.2.2
- detection 18.4.3.7
Multi-crystal cameras 10.3.2.6
Multi-dimensional chromatography (see
Two-dimensional chromatography 9.2.1.6)
Multiphoton absorption 11.2
- ionization 12.3.1
- process 11.2
Multiple-beam interferometer
10.3.2.1.1
- ion monitoring (see Selected
ion monitoring
12.3.3.1)
- -ionization satellites
10.3.4.8.2
- monochromators 10.3.2.1.1
- of a unit (of
measurement) 18.2.1
- -pass cell 10.3.5.1.2
- programming (see Program rate
9.2.3.5)
- scattering 11.2
Multiplex spectrometer 10.3.2.1.2
Multiplexing of frequency 10.3.2.1.2
Multiplication of frequency 10.3.1.4.1
Multiplicity (spin) 11.2
Multiply-charged ion 12.3.2
Multiply ionized and excited levels
(X-ray)
10.3.4.8.2
Multipoint measurement mode (in enzymology)
19.2.2
Multipole lines (X-ray) 10.3.4.8.2
Multislot burners 10.3.4.2.2
Multistage sampling 18.3.4