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Amplitude analysis

Fourier transform, molecular systems, component amplitude analysis cyclic wave functions, 224-228 reciprocal relations, 216-217 Four-state system loop construction ... [Pg.77]

Gaussian wavepackets multiple spawning, 402 propagation, 380-381 molecular systems, component amplitude analysis, wave packet construction, 229-230... [Pg.77]

Restriction equations, molecular systems, component amplitude analysis, reciprocal relations, 215-217 Robb, Bemardi, and Olivucci (RBO) method, conical intersection location, 489—490 Rotational couplings ... [Pg.96]

Wigner rotation/adiabatic-to-diabatic transformation matrices, 92 Time-dependent ground state (TDGS), molecular systems, component amplitude analysis, near-adiabatic limit, 220-224... [Pg.100]

Feinberg 1, Fein G, Floyd TC Period and amplitude analysis of NREM EEG in sleep repeatability of results in young adults. Electroencephalogr Clin Neurophysiol 48 212-221, 1980... [Pg.634]

Greenberg (G7), 1956 Flow of films (5 liquids) down tube 2.5 X 30 in. Data on film thickness, wave velocity, frequency, amplitude analysis of roll waves. [Pg.217]

Konsztowicz, K.J. (1993), Acoustic emission amplitude analysis in crack growth studies during thermal shock of ceramics , in Schneider, G.A. and Petzow, G. (editors), Thermal Shock and Thermal Fatigue Behavior of Advanced Ceramics, Dordrecht Kluwer Academic, 429 441. [Pg.431]

Figure 7. Relaxation amplitude analysis variation of AH with [Fe(CN)64 ]. AH = normal enthalpy of the relaxation mode observed (14). (a) At 23.5°C, plot according to linearized form of Equation 2. Total azurin 2-7 X 10 5 M. (b) At 6.5°C, plot according to Equation 2. Total azurin 2-11 X 10 5 M. The line drawn is the best fit to the experimental points with Kt = 1.0 X 102 M 1 and AH/ = —5.5 kcal/mole. Figure 7. Relaxation amplitude analysis variation of AH with [Fe(CN)64 ]. AH = normal enthalpy of the relaxation mode observed (14). (a) At 23.5°C, plot according to linearized form of Equation 2. Total azurin 2-7 X 10 5 M. (b) At 6.5°C, plot according to Equation 2. Total azurin 2-11 X 10 5 M. The line drawn is the best fit to the experimental points with Kt = 1.0 X 102 M 1 and AH/ = —5.5 kcal/mole.
The typical surface response evoked in the AC (Fig. 1) consists of two short latency primary potentials (PI and P2) which are followed by a negative potential (Nl) (Teas and Kiang, 1964) and then a longer latency secondary positive potential ( + S). The anticholinergic drugs produced a fusion of PI and P2 potentials and amplitude analysis of these individual waves was therefore impracticable. In this study the maximum height of the primary complex (+P) was analysed together with analysis of the amplitude and peak latency of +S potential. [Pg.160]

See other pages where Amplitude analysis is mentioned: [Pg.163]    [Pg.169]    [Pg.67]    [Pg.72]    [Pg.73]    [Pg.76]    [Pg.76]    [Pg.80]    [Pg.86]    [Pg.88]    [Pg.94]    [Pg.95]    [Pg.96]    [Pg.102]    [Pg.103]    [Pg.104]    [Pg.104]    [Pg.108]    [Pg.107]   


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Amplitude analysis cyclic wave functions

Amplitude analysis modulus-phase relations

Amplitude analysis molecular systems

Amplitude analysis near-adiabatic limit

Amplitude analysis reciprocal relations

Amplitude analysis systems

Amplitude analysis wave packets

Amplitude analysis, relaxation

Analysis of Variable Amplitude Spectra

Analysis of amplitude

Application to large amplitude methods analysis in the Laplace domain

Component amplitude analysis

Molecular systems, component amplitude analysis

Vibrational analysis amplitude

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