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Functioning time

We are now in a position to explain the results of Table I. As a consequence of the degeneracy of , at a conical intersection there are four degenerate functions tl/f, tb and Ttbf = Ttb = tb j. By using Eq. (Ic), an otherwise arbitrary Flermitian matrix in this four function time-reversal adapted basis has the form... [Pg.453]

The kinetics of alkaline hydrolysis of an ester can be followed by the pH-stat method, in which the pH is held constant by adding a solution of strong alkali to the reacting ester solution. The volume of alkali added in order to keep the pH constant is recorded as a function-time. Find the volume function needed to determine the rate constant that is, given the volume-time data for this type of experiment, what plot or calculation will yield the rate constant ... [Pg.57]

In addition to the type of output, the functioning time of the detonator, which is the interval from delivery of the input to the stab detonator until the output of the initiator is realised, is of considerable importance. Where fast initiation is required, the use of LA is essential and, in addition to being used as the intermediate charge, is sometimes incorporated in the initial priming charge in minor percentages to decrease the operation time of the LSt mixt... [Pg.860]

In other words the differential of a product of two functions is equal to the first function times the differential of the second, plus the second times the differential of the first. Numerous examples of this principle will be encountered in the exercises at the end of this chapter, as well as in following chapters. The other rules presented above can easily be modified accordingly. [Pg.230]

Figure 5. The loss tangent (tan 8) plotted as a function time during a UV cross-linking reaction. All the values of tan 8 for the different frequencies intersect at the gel time of 1660 s, indicating that the sample has reached its gd point. Here, the incident UV light intensity is 0.02 mW cm . ... Figure 5. The loss tangent (tan 8) plotted as a function time during a UV cross-linking reaction. All the values of tan 8 for the different frequencies intersect at the gel time of 1660 s, indicating that the sample has reached its gd point. Here, the incident UV light intensity is 0.02 mW cm . ...
The interfacial pair correlation functions are difficult to compute using statistical mechanical theories, and what is usually done is to assume that they are equal to the bulk correlation function times the singlet densities (the Kirkwood superposition approximation). This can be then used to determine the singlet densities (the density and the orientational profile). Molecular dynamics computer simulations can in... [Pg.132]

A chemical reactor is cooled by both jacket cooling water and condenser cooling water. A mathematical model of the system has yielded the following openloop transfer functions (time is in minutes) ... [Pg.371]

Retention TMS-derivatization Diazomethane Functional time (min) products treated group ... [Pg.125]

Identification of volatile, soluble and covalently-bound metabolites of carbon tetrachloride detection of molecular alterations in cell changes in cell function time-course and dose-dependent analysis of cause and effect relati onshi ps. [Pg.103]

CO-H reactions. We studied the concentration of surface species as a function time. The catalysts,which were the same as those used by Ponec (26) in his experiments,showed a correlation between activity and concentration of Pd species. From batch experiments we obtained the following results ... [Pg.239]

See in Vol 5 of Encycl, p E63-L). It supplies constant current or coastant voltage pulses of varying magnitude duration. It is also capable of measuring EED s resistance and functioning times and provides containment for the initiator being tested. The instrument is described in Ref 2 and a more recent version is described in Ref 3... [Pg.408]

An example of the importance of the order of operations and what they operate on is to consider the operator differentiate twice by x, i.e. d7dx-. Taking the function Sx-1, the product equivalent to the order function times the result of operating on the function is 3>r x d (3x" )/dx = 3X4 x 36x- = 108x but if the operator d7dx2 is allowed to operate on the square of 3X4 the result is different d (9xf )/dx = 504xT... [Pg.44]

The test chamber barometric pressure must not exceed absolute ambient air pressure by more than 1% at any rime. At the conclusion of the test, record the following a) chamber pressure b) muzzle velocity c) target accuracy d) sabot discarding characteristics e) fuze functioning time and f) observation of loading firing difficulties... [Pg.474]

Jackson also detd functioning time of conductive LA-graphite mixts, placed on top of conductive PETN-graphite mixts fired in the fixture shown in Fig E14... [Pg.689]

The functioning time In microseconds of three series of eight detonator test -fixtures of 30 mg conductive LA/graphite -98.7/1/3 and 220 mg conductive PETN/ graphite —95/5 loaded at 16000 psi are shown in Table XXI of Ref 25 (not reproduced here). The average times 2.102, 2.105 ... [Pg.689]

The effectx>f variation in sample sizes of conductive LA/graphite-96.7/3-3 and conductive PETN-graphite-95/5 loaded at 16000 psi is shown in Table IV of Ref 25 (not reproduced here). The 1st three columns show the average functioning times of 30 mg LA/graphite and 220 mg PETN/graphite as 2.031, 2.036 2,120 with deviations 0-135, 0.142 0.068, respect-... [Pg.689]

Zr/Fb styphnate/ Pb02/gum 19.5/35/45.5/0.8 For electric ignition squibs for functioning time of 1msec reproducible high altitude ignition... [Pg.442]

A set of five real d-orbitals defines a function space. In spherical polar coordinates r, 0, and , they consist of a common radial function times a combination of spherical harmonics 7 (0, ), l 2 and m =0, 1, 2. The combinations of the five spherical harmonics are chosen such that the orbitals are real. [Pg.92]

Description of time function Time function Laplace transform z-Transform... [Pg.726]

Figure 12. Comparison between calculated and experimental layer thicknesses as a function time for the growth of GaP by supercooling. (Reproduced with permission from reference 95. Copyright 1983 American Institute of Physics.)... Figure 12. Comparison between calculated and experimental layer thicknesses as a function time for the growth of GaP by supercooling. (Reproduced with permission from reference 95. Copyright 1983 American Institute of Physics.)...
Figure 2.27 Degree of cure as a function time for an epoxy resin measured using isothermal DSC. Figure 2.27 Degree of cure as a function time for an epoxy resin measured using isothermal DSC.
Figure 9.3. Viscosity of an water-in-oil ( ), mixed ( ) and inverted (A) emulsions as a function time at constant shear rate. Figure 9.3. Viscosity of an water-in-oil ( ), mixed ( ) and inverted (A) emulsions as a function time at constant shear rate.

See other pages where Functioning time is mentioned: [Pg.64]    [Pg.54]    [Pg.560]    [Pg.489]    [Pg.232]    [Pg.908]    [Pg.682]    [Pg.690]    [Pg.690]    [Pg.708]    [Pg.717]    [Pg.51]    [Pg.296]    [Pg.194]    [Pg.167]    [Pg.3]    [Pg.148]    [Pg.180]    [Pg.155]    [Pg.159]    [Pg.114]   
See also in sourсe #XX -- [ Pg.145 ]




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Adiabatic time dependent density functional theory

Affine timing function

Arbitrary function of time

Atoms time-dependent wave functions

Autocorrelation function short-time behavior

Autocorrelation function, time-dependent

B — Time-Correlation Functional Form for the Relaxation Modulus

Centroid methods time correlation functions

Chain dynamics time-correlation function

Classical time correlation functions

Concentration fluctuations time correlation functions

Concentration in the Body as a Function of Time—First Order (Exponential) Rate Processes

Conductivity as a function of time

Contact angles as a function of time

Contact time density function

Contact times functional definition

Continuous time function

Continuous time random walk correlation functions

Continuous time random walk functions

Correlation function delay time

Correlation function equal-time cross

Correlation function long-time behavior

Correlation function time-dependent

Correlation functions time independent

Coupled cluster wave function time dependent

Cumulative residence time distribution function

Dead time function

Dead time transfer function

Density function theory time-dependent calculations

Density function, residence time

Density functional theory methods time-dependent extension

Density functional theory time complexity

Density functional theory time-independent

Diffusivity as a Function of Time

Dipolar time correlation functions

Dipole time-correlation function

Displacement correlation function time-dependent

Displacement functions, time

Displacement functions, time derivatives

Distribution function of relaxation times

Distribution function reaction time, mixing

Distribution function, residence time

Distribution function, time dependent

Double-Time Greens Functions

Electronic states time-dependent wave functions

Equal time density correlation function

Equal time density correlation function calculation

Equilibrium time correlation function

Equilibrium time correlation function Subject

Escape-time function

Evaluation of time functions

Excited States from Time-Dependent Density Functional Theory

Experimental Determination of Residence Time Functions

First-order electric field time correlation function

Flow, as a function of time

Fokker-Planck equation time-dependent distribution function

Four-time correlation function

Free energy functionals time-dependent component

Frequency dependence time correlation function

Frequency-time correlation function

Frequency-time correlation function molecular liquids

Function of integration time

Function of time

Functional Changes in Dosage Forms with Time

Functional Safety and Timing Constraints

Functional analysis reaction time course

Functional analysis time course

Functional barrier estimating the time it takes for styrene to travel through a material

Functions and their space-time organization

General time correlation function

Green function methods time-ordered

Hydrogen atom time-dependent wave functions

Imaginary-time correlation functions

Imaginary-time correlation functions centroid density

Imaginary-time correlation functions dynamical properties

Indicator function time derivative

Integrated Intensity as a Function of Annealing Time

Known function of time

Leached as a function of time

Lead time functional products

Level as a function of time

Metallic clusters time-dependent density functional

Microscopic expression for the time correlation function

Molecular function time-dependent Schrodinger equation

Monomer as a function of time

Monte Carlo method time correlation function

Normalized residence time distribution function

Nuclear magnetic resonance spectroscopy time-correlation function

Numerical solution as functions of time for two

Orientation autocorrelation function correlation time

Orientational time correlation function

Other Residence Time Distribution Functions

PH as a function of time

Pair correlation function time-dependent

Pair distribution function time dependent

Partition function time modeling

Permeation as a function of time

Phase Space Time Correlation Functions

Photochemistry functional theory, time-dependent

Position time correlation functions

Probe rotational time correlation functions

Pyranose to Furanose Interconversion as a Function of Time and Water

Quantum mechanics time-dependent density functional theory

Quantum time-correlation functions

Real-time correlation functions

Residence time distribution function defined

Residence time distribution function definition

Residence time distribution function impulse input, 263

Residence time distribution function perfectly mixed reactors

Residence time distribution functions external

Residence time distribution functions internal

Residence time distribution probability function

Residence time function

Response function time domain

Response function time-derivative

Response time as a function of the MeOH feed flowrate

Response time as a function of the thermal driving force for an idealized heat exchanger at different hold-up values

Rouse-modes time correlation function

Schrodinger equation time-dependent wave function

Single molecule spectroscopy three-time correlation function

Single-reference methods time-dependent density functional

Single-time correlation function, nonlinear

Single-time correlation function, nonlinear correlations

Solvation time correlation function

Solving for Level as a Function of Time

Source-time function

Space and time correlation functions

Space-time correlation function

Spatial correlation function time dependent

Step Function Excitation and Time Constant

Stretched exponential relaxation time distribution function

The Calculation of Time Correlation Functions and Static Properties

The Residence Time Distribution Functions and their Relationships

The Residence-time Distribution Function

The Time Correlation Function

The Time-dependent Function

Thickness as function of time

Three-time correlation function, single

Time Correlation Functions for Self-Diffusion

Time Evolution of the Chain Distribution Function

Time Increments as a Function of Latitude

Time autocorrelation function

Time autocorrelation function dynamics

Time correlation function

Time correlation function classical approach

Time correlation function collective

Time correlation function decay

Time correlation function normalized

Time correlation function pulse echo experiments

Time correlation function single-particle

Time correlation function, equation

Time correlation function, supercooled liquids

Time correlation function, transition path

Time correlation functions centroid density

Time correlation functions centroid molecular dynamics

Time correlation functions classical bath

Time correlation functions definition

Time correlation functions dielectric relaxation

Time correlation functions diffusion coefficient

Time correlation functions examples

Time correlation functions golden rule rates

Time correlation functions initial decay rate

Time correlation functions limits

Time correlation functions motion

Time correlation functions overview

Time correlation functions quantum bath

Time correlation functions simple examples

Time correlation functions solvation dynamics

Time correlation functions spectral density

Time correlation functions stationary systems

Time correlation functions statistical errors

Time correlation universal’ - function

Time dependent density functional theory properties

Time dependent dielectric function

Time domain density functional theory

Time function

Time function

Time series transfer function approach

Time-Amount Functions

Time-Dependent Density Functional Theory TDFT)

Time-Dependent Friction Function Exact Expression

Time-age shift function

Time-correlation function Monte Carlo simulation

Time-correlation function chain

Time-correlation function composite

Time-correlation function fluctuation

Time-correlation function of the flux operator

Time-correlation function potential

Time-correlation function segmental motion

Time-correlation function total

Time-course experiments functional selectivity

Time-current correlation function

Time-dependent Density-functional Response Theory (TD-DFRT)

Time-dependent basis functions

Time-dependent current density functional

Time-dependent current density functional theory

Time-dependent density functional

Time-dependent density functional interacting electrons

Time-dependent density functional linear response

Time-dependent density functional response

Time-dependent density functional response theory

Time-dependent density functional theory

Time-dependent density functional theory TD-DFT)

Time-dependent density functional theory TDDFT)

Time-dependent density functional theory TDDFT) method

Time-dependent density functional theory computational aspects

Time-dependent density functional theory derivation

Time-dependent density functional theory developments

Time-dependent density functional theory effective potential

Time-dependent density functional theory electronic excitations

Time-dependent density functional theory exact exchange

Time-dependent density functional theory function

Time-dependent density functional theory kernel

Time-dependent density functional theory kinetic energy

Time-dependent density functional theory linear response

Time-dependent density functional theory many-body system

Time-dependent density functional theory other forms

Time-dependent density functional theory performance

Time-dependent density functional theory solutions

Time-dependent density functional theory. See

Time-dependent distribution function, stochastic

Time-dependent electron localization function

Time-dependent equation wave function propagation

Time-dependent nuclear wave function

Time-dependent orbital functional theory (TOFT)

Time-dependent polarization functions

Time-dependent response functions

Time-dependent wave function

Time-evolution operator function

Time-lagged correlation function

Time-resolved spectroscopies functions

Time-resolved spectroscopies response functions

Time-varying calculations, spectral function

Timing function

Timing function

Transfer Functions, Time Constant and the Forcing Function

Transient time correlation functions

Transit time frequency function

Unstabilized polyethylene time to failure as a function

Velocity correlation functions, time behavior

Velocity time correlation functions

Viscosity Time Function

Volume as a function of time

Waiting-time probability density function

Washout function, residence time

Washout function, residence time distribution

Wave function phase-isolated, time-dependent

Wave function time independent

Wave function time-dependant

Wave function time-dependent variational principle

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