INDEX OF
TERMS
T
[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.
Tactile sensor 7.3
Tailing 9.2.3.3
Tandem mass spectrometer 12.2
Tangent method 10.3.5.2.6; (see Slope method 15.2)
Tank circuit 10.3.1.4.1
Tantalum carbide-coated tube
10.3.4.5.2
Tapered cavity 10.3.1.4.8
Tar 5.3
Target population 18.4.4
- silicon 10.3.2.6
Task program 7.3
Tast interval 8.4
- polarography 8.5.3
TCS 17.2.3
Teach (in robotics) 7.3
- pendant 7.3
- programming (in robotics) 7.3
Techniques, coupled simultaneous 5.2.3
- discontinuous simultaneous 5.2.3
- simultaneous 5.2.3
TEM 17.3; 17.7.3
Temperature, ambient 9.2.3.5
- appearance 10.3.4.5.3
- ashing 10.3.4.5.3
- atomization 10.3.4.5.3
- charring 10.3.4.5.3
- cleaning 10.3.4.5.3
- coefficient of resistance
10.3.2.3.5
- - responsivity 10.3.2.3.4
- column (see Separation temperature
9.2.3.5)
- critical 9.2.7.1
- detector 9.2.3.5
- drying 10.3.4.5.3
- effect 10.3.6.4.4
- electron 10.3.1.1.1
- electronic excitation 10.3.1.1.1
- errors 10.3.5.2.9
- excitation 10.3.1.1.1
- final 5.2.2; 9.2.3.5
- - isothermal 9.2.3.5
- - pyrolysis 5.3
- gas 10.3.1.1.1; 10.3.4.5.3
- initial 5.2.2; 9.2.3.5
- injection 9.2.3.5
- ionization 10.3.1.1.1
- local 10.3.1.1.1
- maximum pyrolysis 5.3
- mid-analysis isothermal
9.2.3.5
- noise 10.3.2.3.4
- norm 10.3.1.1.1
- profile 10.3.4.5.3
- programme 10.3.4.5.3
- -programmed pyrolysis 5.3
- pyrolysis 10.3.4.5.3
- reduced 9.2.7.1
- retention 9.2.3.5
- rise time (TRT) 5.3
- rotational 10.3.1.1.1
- separation 9.2.3.5
- thermodynamic 10.3.1.1.1
- time profile (TTP) 5.3
- vaporization 10.3.4.5.3
- vibrational 10.3.1.1.1
Temporal stabilization 10.3.1.2.3
Tenor* 9.4.4
Term (electronic state) 10.3.4.8.2
- symbols for atomic states 1.3.5
- - for molecular states 1.3.5
Terminal 7.3
Termolecular reaction (see Molecularity of a
reaction 15.2)
Terrestrial global irradiance (see AM (1)
sunlight 11.2)
Tesla coil 10.3.1.4.2; 10.3.4.1.4; 10.3.1.3.4
Test electrode 8.4
- material 18.7.2
- portion 18.3.6
- sample 10.3.4.9.1; 18.3.6; 18.7.2
- - introduction of 7.3
- solution 18.3.6
THEED 17.3
Theoretical end point 6.2
- finesse 10.3.2.1.3
- plate number (see Plate number
9.2.3.10)
- resolution 10.3.2.1.6
- resolving power 10.3.2.1.3
- specific capacity 9.2.5.4
- stage 9.4.4
Thermal analysis, differential 5.2.2
- analysis, emanation 5.2.2
- conductivity 1.3.12
- - gauge 12.4.4
- decomposition 10.3.4.9.5
- desorption spectroscopy
17.3;
17.7.2
- detector
10.3.2.3.3; 10.3.2.3.5
- diffusivity 1.3.12
- equilibrium 10.3.1.1.1
- - local 10.3.1.1.1; 10.3.1.3.8
- evaporation 10.3.4.2.1
- ionization 12.3.1
- or Johnson noise 10.3.2.3.4
- lensing 11.2
- radiation 10.3.1.1.1
- source 10.3.1.6
- treatment 10.3.4.5.3
Thermally activated delayed
fluorescence 11.2
- ignited arc 10.3.1.2.2
- insulated cells 10.3.5.1.2
Thermistor bolometer 10.3.2.3.5
- gauge 12.4.4
Thermoacoustimetry 5.2.2
Thermobalance 5.2.2
Thermochemical analysis* (see Enthalpimetric
analysis 5.4.1)
Thermochromism 11.2
Thermocouple 10.3.2.3.5
- gauge 12.4.4
Thermodilatometry 5.2.2
Thermodynamic equilibrium 10.3.1.1.1
- extraction constant (see Extraction constant
at zero ionic strength 9.4.3)
- temperature 10.3.1.1.1
Thermoelectric effect 10.3.2.3.5
Thermoelectrometry 5.2.2
Thermogram of pyrolysis 5.3
Thermogravimetry (TG) 5.2.2
Thermoluminescence 11.2; (see also Thermooptometry 5.2.2)
Thermomagnetometry 5.2.2
Thermomechanical measurement 5.2.2
Thermometric* (see Enthalpimetric analysis
5.4.1)
- chemical sensor 7.4
- enthalpy titration* (see
Thermometric titration
5.4.2)
- titration 5.4.2; 6.2
- - curve (see Thermometric
titration 5.4.2)
- - with catalytic endpoint detection (see Thermometric titration
5.4.2)
Thermomicroscopy (see Thermooptometry
5.2.2)
Thermooptometry 5.2.2
Thermoparticulate analysis 5.2.2
Thermophotometry (see Thermooptometry 5.2.2)
Thermopile 10.3.2.3.5
Thermorefractometry (see
Thermooptometry 5.2.2)
Thermosonimetry 5.2.2
Thickness of liquid-phase film
9.2.3.2
- of the reaction layer 8.4
Thinned CCD 10.3.2.6
Thixotropic agents 10.3.4.9.4
Three-electrode plasma 10.3.1.2.6
Three-slot burner 10.3.4.2.2
Throughput 12.4.4
- rate* 7.4
Thyristor control 10.3.4.1.4
TICT state 11.2
Time, of atomization 10.3.4.5.3
- breakdown 10.3.1.3.3
- centrifugation 9.7
- charring 10.3.4.5.3
- cleaning 10.3.4.5.3
- constant
10.3.1.4.4; 10.3.2.3.4
- -correlated single photon counting
11.2
- drying 10.3.4.5.3
- of fall 10.3.2.3.4
- gas hold-up 9.2.3.7
- gas hold-up, corrected 9.2.3.7
- hold-up 9.2.3.7
- integrating 10.3.2.6
- - photodiode arrays 10.3.2.6
- -of-flight mass spectrometer
12.2
- profile of temperature 5.3
- pyrolysis 10.3.4.5.3
- residence 7.4
- -resolved measurements
10.3.2.3.3
- - spectroscopy
10.3.1.3.8;
11.2
- sampling 8.4
- shut-down 7.4
- start-up 7.4
- of temperature rise 5.3
- total heating 5.3
- transition 8.4
- out 7.3
Timed injector 9.2.7.3
Tissue-blender 10.3.4.9.3
Titer 6.2
Titrant 6.2
Titration 6.2
- acid-base 6.2
- acidimetric 6.2
- alkalimetric 6.2
- amperometric 6.2; 8.5.2
- calorimetric 5.4.2
- chelatometric 6.2
- chronopotentiometric 6.2
- conductometric 6.2; 8.5.4
- - high-frequency 8.5.4
- coulometric 6.2; 8.5.1
- curve 6.2
- - enthalpymetric (see Thermometric
titration 5.4.2)
- - linear 6.2
- - logarithmic 6.2
- - thermometric (see Thermometric
titration 5.4.2)
- dielectrometric 8.5.4
- differential potentiometric
8.5.1
- error 6.2
- fluorometric 6.2
- high frequency 6.2
- iodimetric 6.2
- nephelometric 6.2
- oxidation-reduction 6.2
- polarographic* (see Amperometric
titration 8.5.2)
- polarometric* (see Amperometric titration 8.5.2)
- potentiometric 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)
- precipitation 6.2
- radiometric 6.2
- spectrophotometric 6.2
- thermometric 5.4.2; 6.2
- turbidimetric 6.2
Titre 19.2.3
Titrimetry 6.2
Tolerance 7.3
Top-down design 7.3
Torr 1.6; 12.4.4
Total angle of deviation 10.3.2.1.3
- consumption time 10.3.4.2.2
- current spectroscopy 17.2.3
- decomposition 10.3.4.9.5
- heating time (THT) 5.3
- ion current 12.4.2
- mobile-phase time 9.2.6.2
- - volume 9.2.6.2
- - volume in column 9.2.6.1
- retention time 9.2.3.7
- - volume 9.2.3.7
- transmittance 10.2.1.3.4
Totally porous packing 9.2.3.1
Townsend first coefficient 10.3.1.5.2
TPD 17.3; 17.7.2
Traceability 18.8.2; (see
also Definitive method 18.4.2)
- chain (see Traceability 18.8.2)
Traceable (see Traceability 18.8.2)
Tracer 16.2
- generally labelled 16.2
- isotopic 16.2
- nominally labelled 16.2
- specifically labelled 16.2
- stereospecifically labelled 16.2
- uniformly labelled 16.2
Track detector nuclear 16.2
- nuclear 16.2
Trajectory 7.3
- control 7.3
Transducer 7.2
- part of a sensor 7.4
Transfer 7.3
- activity coefficient 9.4.3
- coefficient (electrochemical)
1.3.10
Transferred plasma 10.3.1.2.6
Transient pressure gradient
10.3.2.3.5
- spectroscopy 11.2
Transistor field effect 8.3.2.4; 10.3.2.5
- ion-selective field effect
8.3.2.4
Transit time 10.3.2.3.4; 10.3.1.4.2
Transition, charge-transfer 11.2
- (dipole) moment 11.2
- flow 12.4.4
- free-bound 10.2.1.1.2
- free-free 10.2.1.1.2
- frequency 1.3.5
- interchromophoric, radiationless
10.2.1.3.7
- intermolecular, radiationless 10.2.1.3.7
- interval 6.2
- intrachromophoric, radiationless
10.2.1.3.7
- point 6.4.2
- polarization 11.2
- potential 6.4.3
- probability for absorption
10.3.1.1.4
- - spontaneous emission 10.3.1.1.4
- - stimulated emission 10.3.1.1.4
- radiationless 10.3.4.8.2; 10.2.1.3.6; 11.2
- radiative 10.2.1.3.6
- of rotational energy
10.2.1.3.1
- Rydberg 11.2
- simultaneous pair 11.2
- state 15.2
- time 8.4
- vertical 11.2
- of vibrational energy 10.2.1.3.1
- vibronic 10.2.1.3.3; 11.2
- wave number 1.3.5
Transitive, radiative 11.2
Transmission 12.2
- electron microscopy
17.3;
17.7.3
- high energy electron
diffraction 17.3
- reflection factor 10.3.2.1.3
Transmittance 1.3.6; 11.2
- internal 10.2.1.3.4
- total 10.2.1.3.4
Transport 7.3
- discrete 7.3
- interferences 10.3.4.3.4
- number 1.3.10
- solute volatilization interference
10.3.4.3.4
Transversal mode 10.3.1.6.1
Transverse electromagnetic mode
10.3.1.4.8
Trap 12.4.4
Treated solution 18.3.6
Trennzahl (see Separation number
9.2.3.10)
Triangular wave voltammetry 8.5.3
Triboluminescence 11.2
Triggerable stationary gap 10.3.1.3.3
Triode getter pump 12.4.4
- pump 12.4.4
Triplet state 11.2
- - triplet absorption
10.2.1.3.6
- - annihilation 11.2
- - energy transfer 11.2
Trivial energy transfer 11.2
True value 2.2; 10.3.3.1.7; 18.2.1;
18.4.3.5
Trueness 18.6.1
Tube glassy carbon 10.3.4.5.2
- - in-tube atomizer 10.3.4.5.2
Tunable lasers 10.3.5.1.1
Tuned amplifier measuring system
10.3.1.5.8
- - line oscillator 10.3.1.4.1
Tungsten-halogen lamp
10.3.1.6.3;
10.3.5.1.1; 11.2
-probe atomizer 10.3.4.5.2
-strip 10.3.4.5.2
Tuning stub 10.3.1.4.8
Tunnelling 11.2 (see
also STM 17.7.3)
Turbidimetric titration 6.2
Turbidity 11.2
Turbomolecular pump 12.4.4
Turbulent flame 10.3.4.2.2
Twin nebulizer 10.3.4.2.2
Two-colour indicator 6.2; 6.4.2
Two-dimensional array CCD 10.3.2.6
- chromatography 9.2.1.6
Two-photon excitation 11.2
- process 11.2
Two-point measurement mode (in enzymology)
19.2.2
Two-step procedure 10.3.4.7.1
Twyman interferometer 10.3.2.1.4