[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.
p-p state 11.2
- transition 11.2
p-s transition 11.2
p/n radian magnetic sector 12.2
Packed bed reactor 7.3
- column 9.2.3.2
Packing 9.2.3.1
- pellicular 9.2.3.1
- totally porous 9.2.3.1
PAES 17.2.4
Pallmann effect 8.3.2.1
Parallel ignition 10.3.1.3.4
- monochromators 10.3.2.1.1
Paramagnetic compounds 10.3.6.1
Parameter of flow resistance 9.2.3.2
Parent ion 12.3.2
Partial charge exchange reaction 12.5.1
- decay constant 16.2
- digestion 10.3.4.9.5
- mass density 9.7
- molar quantity 1.3.8
- scrambling* (see Isotopic
scrambling
12.5.2)
- specific volume 9.7
- yield spectroscopy 17.2.1.4
Particle (atmospheric) 19.3.1
- counter 19.3.1
- diameter 9.2.3.1
- induced X-ray emission
10.3.4.8.2
- induced X-ray emission spectroscopy
17.3
- radiant 10.3.4.1.5
- size 10.3.4.9.3;
19.3.1
- - distribution 19.3.1
Particulate matter 19.3.1
- atmospheric 10.3.4.9.1
Partition 9.4.1
- chromatography 9.2.1.5
- coefficient* 9.4.3
- constant 9.4.3
- isotherm* (see Distribution
isotherm
9.4.1)
- ratio 9.4.3;
(see also Retention factor 9.2.3.7)
PAS 17.7.5
Pascal 12.4.4
Paschen-Runge mounting 10.3.2.1.9
Passive sampler 19.3.1
Paterno-Bûchi reaction 11.2
Path 7.3
- control 7.3
- length of cell 10.3.5.1.2
Payload 7.3
PDMR 11.2
Peak 5.2.2;
8.4; 9.2.3.3
- analysis 16.2
- area 5.2.2;
9.2.3.3
- - method 16.2
- base 9.2.3.3
- capacitor voltage 10.3.1.3.1
- concentration (trace
atmospheric component)
19.3.1
- current 8.4;
10.3.1.3
- diffraction coefficient
10.3.2.2.2
- elution time 9.2.3.7
- - volume 9.2.3.7
- endothermic 5.2.2
- enthalpimetry* (see Flow injection
enthalpimetry 5.4.2)
- exothermic 5.2.2
- fitting 16.2
- height 5.2.2;
9.2.3.3; 12.4.2
- - absorbance 10.3.4.5.4
- intensity 10.2.1.1.3
- -peak methods 10.3.5.2.6
- potential 8.4
- resolution
9.2.3.10;
9.2.6.3
- unresolved (see Peak 9.2.3.3)
- variance of 9.2.3.3
- wavelength 10.3.2.1.7
- width 5.2.2;
9.2.3.3
- - at base 9.2.3.3
- - at half height 9.2.3.3
- - at inflection points 9.2.3.3
- -zero methods 10.3.5.2.6
PED 17.2.1.6;
17.7.3
Pellet 10.3.4.9.4
Pelleting press 10.3.4.9.4
Pellicular packing 9.2.3.1
Pendant 7.3
Penetration, depth of 11.2
Penning effect 10.3.1.5.2
- gas mixture 10.3.1.5.2
- ionization 12.3.1
Percent absolute error (see Error of result
2.3)
Percentage relative error 2.3
- standard deviation 2.3
Period of unattended operation 19.3.1
Peripheral blood 19.2.1
Permeability 1.3.3
- coefficient 12.4.4
- specific 9.2.3.2
- vacuum 1.3.3
Permeation 12.4.4
- tube 19.3.1
Permittivity 1.3.3
- relative 11.2
- vacuum 1.3.3
Perm-selectivity 9.2.5.3
Persistent bias (see Analytical errors
18.6.1)
PESIS 17.2.1.2
PESM 17.2.1.5
PEYS 17.2.1.4
pH 1.3.10
- adjustment solution 8.3.2.1
- cell operational 3.4.12
- glass electrode 3.4.12
- gradient 9.6
- operational definition
of 1.3.10
- standard reference value 3.4.12
- standards operational 3.4.12
- - primary 3.4.12
Phase analysis 10.3.4.9.5
- bonded 9.2.1.1
- fluorimetry (phosphorimetry)
10.3.6.3.5
- immobilized 9.2.1.1
- inversion 9.4.4
- mobile 9.2.1.1
- ratio 9.2.3.2;
9.4.3
- separator 10.3.4.6.1
- stationary 9.2.1.1
- volume ratio (see Phase ratio
9.4.3)
Phonon 11.2
Phosphorescence 10.2.1.3.5;
10.2.1.3.7; 11.2
- analysis 10.3.6.3.8
- corrected decay times of
10.3.6.3.5
Phosphoroscopes 10.3.6.2.4
Photoabsorption coefficient 10.3.4.8.2
Photoacoustic detector 10.3.2.3.5;
10.3.2.3.3
- effect 11.2
- spectroscopy 11.2
Photoaffinity labelling 11.2
Photo-assisted catalysis 11.2
Photocatalysis 11.2
Photocathode 10.3.2.3.6
Photochemical detector 10.3.2.3.3
- reaction 11.2
- smog 11.2
- yield 1.3.9
Photochemistry 11.2
Photochromism 11.2
Photoconductive detector 10.3.2.5
Photoconductivity 11.2
Photocrosslinking 11.2
Photocuring 11.2
Photocurrent yield 11.2
Photodetachment (of electrons) 11.2
Photodiode 10.3.2.5
- array 10.3.2.6
Photodynamic effect 11.2
Photoelectric detector 10.3.2.3.3
- effect 11.2
Photoelectrochemical cell 11.2
- etching 11.2
Photoelectrochemistry 11.2
Photoelectron diffraction
17.2.1.6;
17.7.3
- spectromicroscopy 17.2.1.5
- spectroscopy
10.3.4.8.3;
11.2
- - of the inner shell 17.2.1.2
- yield 17.4
- - spectroscopy 17.2.1.4
Photo-emissive detector
10.3.2.3.6;
10.3.2.3.3
Photoexcitation 11.2
Photo-FET 10.3.2.5
Photo-Fries rearrangement 11.2
Photogalvanic cell 11.2
Photographic detection 10.3.2.3.1
- emulsion 10.3.2.1.2
- intensity measurement
10.3.2.3.1
- plate recording 12.4.1
Photoinduced polymerization 11.2
Photoinitiation 11.2
Photoionization 11.2;
12.3.1
Photoluminescence 11.2
Photolysis 11.2
- flash 11.2
Photometry 10.2.1
Photomultiplier,
continuous-strip 10.3.2.3.6
- resistance-strip
magnetic 10.3.2.3.6
- strip dynode 10.3.2.3.6
- tube 10.3.2.3.6
- - position-sensitive 10.3.2.6
Photon 10.3.2.3.2;
11.2
- counting 11.2
- emission yield 10.2.1.2.4
- exposure 11.2
- flow 11.2
- fluence 11.2
- - rate 11.2
- flux 10.3.2.3.2;
11.2
- impact* (see Photo-ionization
12.3.1)
- - induced field
desorption 17.7.3
- irradiance
10.3.2.3.2;
11.2
- radiance 11.2
Photooxidation 11.2
Photooxygenation 11.2
Photophysical processes 11.2
Photopolymerization 11.2
Photoreaction adiabatic 11.2
- diabatic 11.2
- Norrish type I 11.2
- Norrish type II 11.2
Photoreduction 11.2
Photoresist 11.2
Photosensitization 11.2
Photosensitizer 11.2
Photostationary state 11.2
Photothermal effect 11.2
Photothermography 11.2
Phototransistor 10.3.2.5
Phototube, gas-filled 10.3.2.3.6
Photovoltaic cell 11.2
- mode 10.3.2.5
Physical adsorption 12.4.4
- constants, fundamental 1.5
- line profile function
10.3.2.1.6
- - shape 10.2.1.1.3
- surface 17.4
Piezoelectric device 10.3.2.3.5
Piezoluminescence 11.2
Pile-up 16.2
PIN (p-intrinsic-n) diode 10.3.2.5
Pinch effect 10.3.1.2.3
Pink noise 12.4.3
Pirani gauge 12.4.4
Piston electrode 10.3.4.1.2
Pitch 7.3
PIXE 10.3.4.8.2
Pixels 10.3.2.6
PIXES 17.3
Plan for sampling 18.3.2
Planar chromatography 9.2.1.3
- diffused diode 10.3.2.5
Planck's law 10.2.1.1.2;
10.3.1.1.1
Plane cathode glow-discharge sources
10.3.1.5.8
- grating mounting 10.3.2.1.10
- gratings 10.3.2.1.3
- polarized 10.2.1.1.4
Plasma 10.3.1.1.1;
19.2.1
- capacitive microwave
10.3.1.4.7
- capacitively coupled
10.3.1.4.5
- current-carrying 10.3.1.2.1
- dc arc 10.3.4.1.5
- desorption ionization 12.3.1
- gas 10.3.1.4.2
- impedance 10.3.1.4.1
- inductively coupled 10.3.1.4.1
- jet 10.3.1.2.5
- low pressure microwave induced
10.3.1.4.8
- microwave induced
10.3.1.4.6;
10.3.1.4.7
- non-current-carrying
10.3.1.2.1
- one-electrode microwave
10.3.1.4.7
- optically thin 10.3.1.5.8
- radiofrequency 10.3.1.4
- three-electrode 10.3.1.2.6
- torch 10.3.1.4.1
- transferred 10.3.1.2.6
Plasmon excitation 10.3.4.8.2
Plate height 9.2.3.10;
9.2.6.3
- height effective
9.2.3.10;
9.2.6.3
- - reduced
9.2.3.10;
9.2.6.3
- number 9.2.3.10;
9.2.6.3
- - effective
9.2.3.10;
9.2.6.3
Plateau 5.2.2
Platform (in ETAAS) 10.3.4.5.2
- preheated 10.3.4.5.3
Platrode (in ETAAS) 10.3.4.1.2
Playback accuracy 7.3
- robot 7.3
Plot for calibration 8.3.2.1
Pneumatic detector 10.3.2.3.5
- nebulizer 10.3.4.2.2
- pumps 9.2.2.1
- robot 7.3
Pockels cell 10.3.1.6.5
Point, critical 9.2.7.1
- isopotential 8.3.2.1
- starting 9.2.3.3
- - to-plane configuration
10.3.4.2.1
- - to-point configuration
10.3.4.2.1
- - control (see Pose-to-pose control
7.3)
Polar coordinate system 7.3
Polarity 10.3.4.1
Polarizability 11.2
Polarization 11.2
- degree of 10.3.6.3.7
- effect 10.3.2.3.4
- errors 10.3.5.2.10
- ratio 11.2
- state 10.3.2.1.7
- transition 11.2
Polarizer linear 10.3.6.2.5
Polarographic titration* (see Amperometric
titration 8.5.2)
Polarography 8.5.3
- AC 8.5.3
- differential pulse 8.5.3
- normal pulse 8.5.3
- single drop sweep 8.5.3
- square-wave 8.5.3
- tast 8.5.3
Polarometric titration* (see Amperometric
titration 8.5.2)
Polyatomic gases 10.3.1.5
Polychromator 10.3.2.1.1;
10.3.5.1.3
- Echelle 10.3.2.1.10
Polyclonal 19.2.3
Polycrystalline electrographite
10.3.4.5.2
Polyfunctional ion exchanger 9.2.5.3
Polymerization, photoinduced 11.2
Pooled standard deviation (see Standard deviation
from grouped data 2.3)
Population inversion
10.3.1.6.1;
11.2
Pore radius 9.2.3.1
Porodes 10.3.4.1.2
Porosity, interparticle 9.2.3.2
Porous cup electrodes 10.3.4.1.2
- layer open-tubular
column 9.2.3.2
Port 7.3
Portion 18.3.3
Pose 7.3
- - to-pose control 7.3
Positioning accuracy 7.3
Position-sensitive photomultiplier tubes
10.3.2.6
- proportional counters 10.3.2.6
Positive column 10.3.1.5.1
- column current density
10.3.1.5.5
- displacement pump 12.4.4
- ion 12.3.2
Post-column derivatization 9.2.1.6
Postdisperser 10.3.2.1.5
Post-filter effect 10.3.6.4.2
Postprecipitation 9.5
Potency 19.2.3
Potential apex 8.4
- breakdown 10.3.2.5
- characteristic 8.4
- difference 8.4
- - of interfacial membrane-solution
8.3.2.4
- electric 9.6
- gate bias 8.3.2.4
- half-oxidation 6.4.3
- half-peak 8.4
- half-wave 8.4
- peak 8.4
- quarter-transition-time 8.4
- summit 8.4
- transition 6.4.3
Potentiometric coulometric titration (see
Coulometric titration 8.5.1)
- selectivity coefficient
8.3.2.1
- titration 6.2;
8.5.1
- - controlled-current 8.5.1
- - null-current* (see Differential
potentiometry 8.5.1)
- - zero-current* (see Differential
potentiometry 8.5.1)
Potentiometry 8.5.1
- controlled-current 8.5.1
- differential 8.5.1
- null-current* (see Potentiometry
8.5.1)
- precision null-point* (see
Potentiometry
8.5.1)
- zero-current* (see Potentiometry
8.5.1)
Powder techniques 10.3.4.2.1
Power and event control module 7.3
- of detection 10.3.1.3.8
- pulse 10.3.1.6.1
- radiant 1.3.6;
10.3.2.1.6;
10.3.2.3.2;
11.2
- reflected 10.3.1.4.1
- resolving 10.3.2.1.6
- spectral 10.3.2.3.2
- - radiant 11.2
- spectrum (of noise) 10.3.2.3.4
Practical resolution 10.3.2.1.6
- resolving power 10.3.2.1.6
- specific capacity 9.2.5.4
Precipitate 9.5
Precipitation 9.5
- indicator 6.4.4.
- from homogeneous solution 9.5
- in meteorology 19.3.1
- titration 6.2
Precision 2.2;
7.3; 10.3.3.1.5;
18.2.3
- of a balance 4.2
- null-point potentiometry* (see
Potentiometry
8.5.1)
- of weighing 4.2
Pre-column derivatization (see Post-column
derivatization 9.2.1.6)
Preconcentration 10.3.4.9.6
Precursor 8.4;
16.2
- ion 12.3.2
Predisperser 10.3.2.1.5
Predissociation 11.2
Pre-equilibration 9.4.1
Preexponential factor 1.3.9;
15.2
Pre-filter effect 10.3.6.4.2
Prefixes (of SI units) 1.4.5
Preheated atomizer 10.3.4.5.3
- platform 10.3.4.5.3
- probe 10.3.4.5.3
Pre-ionization state 12.3.1
Premix burner 10.3.4.2.2
Pre-processor 12.4.3
Prespark curve 10.3.4.2.1
- period 10.3.4.2.1
Pressed-disc 10.3.4.9.4
Pressure 9.7
- critical 9.2.7.1
- drop 9.2.3.6
- - across the column 9.2.7.2
- gauges 19.3.1
- at inlet 9.2.3.6
- monitored pyrolysis 5.3
- at outlet 9.2.3.6;
9.2.7.2
- programmed elution 9.2.7.5
- reduced 9.2.7.1
- relative 9.2.3.6
- -sensitive detector 10.3.2.3.5
- static 19.3.1
- /temperature-programmed elution
9.2.7.5
Primary combustion zone 10.3.4.2.2
- discharge 10.3.1.5.7
- excitation 10.3.4.8.2
- ion-selective electrode
8.3.2.2
- pH standards 3.4.12
- photochemical process 11.2
- photoproduct 11.2
- pollutant 19.3.1
- radiation 10.2.1.2.3
- sample 18.3.6
- source 10.3.1.1.1
- standard 6.2;
18.8.1
- - solution 6.2
Principal ion 12.3.2
Principle of measurement 18.2.2
Prism 10.3.2.1.1
- angle 10.3.2.1.3
- height 10.3.2.1.3
- rotating 10.3.1.6.5
Probability of ionization 10.3.1.5.2
Probe (in ETAAS) 10.3.4.5.2
- gas sampling 19.3.1
- preheated 10.3.4.5.3
Procedures for error control 7.2
Processing, batch 7.3
- concurrent 7.2
- serial 7.3
Product (in enzymology) 19.2.2
- data representation and exchange
7.2
- ion 12.3.2
Proficiency testing 18.6.1
Program 7.2
- rate 9.2.3.5
Programmed elution 9.2.7.5
- flow chromatography 9.2.1.6
- pressure chromatography
9.2.1.6
- temperature chromatography
9.2.1.6
- - vaporizer 9.2.2.1
Programming 7.3
- off-line 7.3
- on-line 7.3
Projection screen 10.3.1.3.6
Prolate trochoidal mass spectrometer
12.2
Propagation of error 18.4.3.8
- of variance 18.4.3.8
Proportional counter 10.3.2.4.3
- counters position-sensitive
10.3.2.6
- gas-scintillation
counter 10.3.2.4.3
Protective gas 10.3.4.5.2
Protein-free filtrate 19.2.1
Protocol 18.7.2
Proton affinity 12.3.1
Protonated molecule 12.3.2
Proton-excited AES 17.2.4
Proximity sensor 7.3
Pseudo-first-order reaction 19.2.2
Pseudoreversible indicator 6.4.3
Pseudo-zero-order reaction 19.2.2
Psychrometric hygrometer (see Hygrometer
19.3.1)
Psychrometry 19.3.1
p-type delayed fluorescence 10.2.1.3.5
- regions 10.3.2.5
Pulse amplitude distribution
10.3.2.4.3
- duration
8.4; 10.3.1.6.1
- energy 10.3.1.6.1
- mode pyrolyser 5.3
- power 10.3.1.6.1
Pulsed laser field desorption 17.7.3
- laser sources 10.3.1.6.1
Pulverizer 10.3.4.9.3
Pump 9.2.2.1
- pneumatic 9.2.2.1
- power 10.3.1.6.3
- -probe technique 11.2
- reciprocating 9.2.2.1
- speed 12.4.4
- syringe 9.2.2.1
Pumping 10.3.1.6.1
- cavity 10.3.1.6.2
- lamp 10.3.1.6.2
- period 10.3.1.6.1
- speed 12.4.4
Purge gas 10.3.4.6.1
Purification of solvent 9.4.4
Purity, radiochemical 16.2
- radionuclidic 16.2
- spectral 10.3.2.1.6
Pyro-electric detector 10.3.2.3.5
- photodetector array 10.3.2.6
Pyro-electricity 10.3.2.3.5
Pyrogram 5.3
- IR 5.3
- MS 5.3
Pyrolysate (pyrolyzate) 5.3
Pyrolyser (pyrolyzer) 5.3
- coil 5.3
- continuous mode 5.3
- Curie-point 5.3
- filament (ribbon) 5.3
- pulse mode 5.3
Pyrolysis 5.3; 10.3.4.5.3
- analytical 5.3
- catalytical 5.3
- curve 10.3.4.5.3
- flash 5.3
- fractionated 5.3
- -gas chromatography
5.3;
9.2.1.6
- -gas chromatography-infrared spectroscopy
(Py-GC-IR) 5.3
- -gas chromatography-mass spectrometry
(Py-GC-MS) 5.3
- -infrared spectroscopy (Py-IR)
5.3
- - spectrum 5.3
- in-source 5.3
- isothermal 5.3
- -mass spectrometry (Py-MS) 5.3
- -mass spectrum 5.3
- off-line 5.3
- oxidative 5.3
- pressure monitored 5.3
- reactor 5.3
- reductive 5.3
- residue 5.3
- sequential 5.3
- stepwise 5.3
- temperature 10.3.4.5.3
- temperature-programmed 5.3
- thermogram 5.3
- time 10.3.4.5.3
Pyrolytic graphite 10.3.4.5.2
- graphite coating 10.3.4.5.2
- techniques 10.3.4.9.5
Pyrolyzate volatile 5.3
PYS 17.2.1.4