Dependence of (a) [O] and (b) [O2] on time corresponding to the simplified Chapman mechanism.</p
<p> is plotted against ; is defined as the time when the summation of all of falls below the thres...
<p>(<i>A</i>) The <i>τ</i> values are shown in pseudocolor within the <i>K<sub>r</sub></i>-<i>V<sub>...
Abstract. It is shown that the time-dependent equations (Schrödinger and Dirac) for a quantum syste...
Dependence of [O3] on time corresponding to the simplified Chapman mechanism.</p
Comparison of the dependence of [O3] on time for the stationary state computed via SimKinet (solid l...
[extract] 6.1 INTRODUCTION In Chapter 1, we described two fundamental types of action that are obser...
<p>Kinetic constants used to describe <i>H</i><sub>2</sub> <i>O</i><sub>2</sub> evolution.</p
<p>The dependence of the mean time of the algorithm execution from the total number of residues in t...
<p>(A) The relaxation time after exposure to the stimulus with various magnitudes and durations is p...
<p>The dependence on and of the time (in days) at which the simulated tumor grows to 1000 Generali...
In this paper we will analyze the coupling constant equation in the context of the arrow. we will us...
Consider a Hamiltonian system that consists of a slow subsystem S and a fast subsystem F. The autono...
<p>Dependence of reaction (a) temperature and (b) time on quantitative ion intensity.</p
<p>Time dependence of a) first and b) second derivative and c) phase portrait of the generalized log...
Consider a Hamiltonian system that consists of a slow subsystem S and a fast subsystem F. The autono...
<p> is plotted against ; is defined as the time when the summation of all of falls below the thres...
<p>(<i>A</i>) The <i>τ</i> values are shown in pseudocolor within the <i>K<sub>r</sub></i>-<i>V<sub>...
Abstract. It is shown that the time-dependent equations (Schrödinger and Dirac) for a quantum syste...
Dependence of [O3] on time corresponding to the simplified Chapman mechanism.</p
Comparison of the dependence of [O3] on time for the stationary state computed via SimKinet (solid l...
[extract] 6.1 INTRODUCTION In Chapter 1, we described two fundamental types of action that are obser...
<p>Kinetic constants used to describe <i>H</i><sub>2</sub> <i>O</i><sub>2</sub> evolution.</p
<p>The dependence of the mean time of the algorithm execution from the total number of residues in t...
<p>(A) The relaxation time after exposure to the stimulus with various magnitudes and durations is p...
<p>The dependence on and of the time (in days) at which the simulated tumor grows to 1000 Generali...
In this paper we will analyze the coupling constant equation in the context of the arrow. we will us...
Consider a Hamiltonian system that consists of a slow subsystem S and a fast subsystem F. The autono...
<p>Dependence of reaction (a) temperature and (b) time on quantitative ion intensity.</p
<p>Time dependence of a) first and b) second derivative and c) phase portrait of the generalized log...
Consider a Hamiltonian system that consists of a slow subsystem S and a fast subsystem F. The autono...
<p> is plotted against ; is defined as the time when the summation of all of falls below the thres...
<p>(<i>A</i>) The <i>τ</i> values are shown in pseudocolor within the <i>K<sub>r</sub></i>-<i>V<sub>...
Abstract. It is shown that the time-dependent equations (Schrödinger and Dirac) for a quantum syste...