[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.
Haemolysis 10.3.4.9.4
Half life 1.3.4
- -height width of peak 9.2.3.3
- -life (of a radionuclide) 16.2
- - biological 16.2
- - effective 16.2
- -oxidation potential 6.4.3
- -peak potential 8.4
- -thickness 16.2
- -wave potential 8.4
- -width 11.2
Halocarbons 19.3.1
Halogen generation 10.3.4.6.1
Halogenated hydrocarbons 19.3.1
Hammering 10.3.4.9.2
Hammer-mill 10.3.4.9.3
Hapten 19.2.3
Hard wired 12.4.3
Hardware 7.2; 12.4.3
Harmonic frequency generation 11.2
- mean 2.3
- overlap 10.3.2.2.3
Haze 19.3.1
Heat capacity 1.3.8
- treatment 10.3.4.9.2
Heating-curve determination 5.2.2
Heating rate 5.2.2
Heavy atom effect 11.2
HEELS 17.2.2.1
Height equivalent to a theoretical stage 9.4.4
- equivalent to one effective plate (see
Effective plate height 9.2.3.10)
- - to one effective theoretical plate* (see
Effective plate height 9.2.3.10)
- - to one theoretical plate (see Plate height
9.2.3.10)
- peak 9.2.3.3
- step 9.2.3.3
- wave 8.4
Helium diffraction 17.7.3
- -cadmium laser 11.2
- -neon laser 11.2
Helmholz energy 1.3.8
Hemagglutination (see Agglutination 19.2.3)
Henry's law constant 1.3.8
Heterochromatic 10.3.2.1.6
Heterogeneity 18.3.2
Heterogeneous immunoassay 19.2.3
- ion-exchange membrane (see Ion-exchange
membrane 9.2.5.3)
- membrane electrode 8.3.2.2
Heteroscedasticity 18.4.3.7
Heuristic problem solving 7.2
HGAAS 10.3.4.6.1
Hierarchical control 7.2
Hierarchy 7.2
High absorber 10.3.4.9.4
- current arc 10.3.1.2
- energy electron energy loss spectroscopy
17.2.2.1
- -frequency conductometric titration
8.5.4
- - conductometry 8.5.4
- - proportional noise 10.3.2.3.4
- - shorting capacitor 10.3.4.1.4
- - titration 6.2
- intensity hollow cathodes 10.3.1.5.7
- level language 7.2
- -pass filters 10.3.2.1.4
- -performance liquid chromatography (see
Liquid chromatography 9.2.1.4)
- pressure arc lamps 10.3.1.5.5
- - flow cell 9.2.7.3
- - liquid chromatography (see Liquid chromatography
9.2.1.4)
- - mercury lamp 11.2
- resolution electron energy loss spectroscopy
17.2.2.1
- vacuum 12.4.4
- voltage spark 10.3.1.3.3
Hold-back carrier 16.2
Holder, of reference 5.2.2
- of sample 5.2.2
Holding time (pump) 12.4.4
Hold-up time 9.2.3.7
- volume 9.2.3.7
Hole-burning 11.2
Hollow cathode discharge 10.3.1.5.7
- cathode lamp 10.3.1.5.7
- - lamps intensity modulated
10.3.1.5.7
- - lamps sealed 10.3.1.5.7
- - sources 10.3.1.5.7
- - open-ended 10.3.1.5.7
Holoenzyme 19.2.2
Homogeneity 18.3.2; 18.8.1
Homogeneous distribution coefficient* (see Distribution
laws 9.5)
- filter 10.3.2.1.4
- ion-exchange membrane (see Ion-exchange
membrane 9.2.5.3)
- immunoassay 19.2.3
- membrane electrode 8.3.2.2
- samples 10.3.4.7.2
Horizontal development 9.2.2.2
- elution 9.2.2.2
Host material 10.3.1.6.2
Hot atom 16.2 - -cathode ionization gauge 12.4.4
- cell 16.2
- ground state reaction 11.2
- hollow cathode source 10.3.1.5.7
- state reaction 11.2
HREELS 17.2.2.1
Hund rules 11.2
Hybrid mass spectrometer 12.2
Hybridoma 19.2.3
Hydraulic robot 7.3
Hydride generation AAS 10.3.4.6.1
- generator 10.3.4.6.1
Hydrodynamic voltammetry 8.5.3
Hydrogen diffusion flame 10.3.4.6.4
- gas electrode 3.4.12
Hydrosphere 19.3.1
Hygrometer 19.3.1
Hygrometry and moisture analysis 19.3.1
Hyperchromic effect 11.2
Hyperfine coupling constant 1.3.5;
14.2.1
Hypersatellite 10.3.4.8.2
Hypochromic effect 11.2
Hypo-phase 9.4.2
Hypsochromic shift 11.2
Hysteresis 7.3; 8.3.2.1;
10.3.2.3.4