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The solid line represents the RPA Zf , for Zj 1 and 2.Q1, as a function of the velocity of the probe particle. Long-dashed and dashed-dotted lines represent the RPA and —AE Axf contributions to the Zj stopping power, respectively. Short-dashed

The solid line represents the RPA Zj . for Zj 1 and l.G l, as a function of the velocity of the probe particle. Dashed and dotted lines represent contributions from the excitation of plasmons and e-h pairs, respectively.

The solid line represents the value for this quantity obtained by using the 11-6-8 potential. Note that Haarman s results for the thermal conductivity combined with Kestin s results for the viscosity lead to a value that is in very good agreement with the theory. From J. Kestin and E. A. Mason, m Transport Phenomena .

The solid line represents the voltages of deviation from the V2 law while the dashed line represents the voltages of deviation from Eq. . The other parameters used are

The solid line shows a typical semilogarithmic polarization curve for an active electrode. Different stages of reaction control are shown in the anodic and cathodic regimes

The solid line shows a typical semilogaritlimic polarization curve for an active electrode. Different stages of reaction control are shown in tlie anodic and catliodic regimes

The solid line shows plralTj from Eq. . The dash-dotted line shows the value of the fourth-order term. The third-order term, being purely imaginary, contributes only in the sixth order it is shown as the dashed line. However, there are other contributions to the sixth order.

The solid line shows the behavior expected for an inverted reaction based on the 1.1-eV variation in driving force introduced by the pH variations.

The solid line shows the best-fit linear regression given in Equation .

The solid line shows the cahbiation curve for the antiquity indicator Ar Ar for lunar soils, proposed by Eugster et al. , Meteoritics and Planetary Sciences, Vol. 36,

The solid line shows the Leonard-Jones potential according to

The solid line shows the probability for findin the charge on a Cu site between q and q dq in a fee disordered alloy with any concentration. The dotted lines show the conditional probabilities corresponding to sites with a concentration of Cu atoms on the nearest-neighbor shell of 100 , 75 , 50 , 25 , and 0 .

The solid line shows the probability for finding the charge on a Cu site between q and q dq in a bcc disordered alloy with any concentration. The dotted lines show the conditional probabilities corresponding to sites with a concentration of Cu atoms on the nearest-neighbor shell of 100 , 50 , and 0 .

The solid line shows the re-

The solid line slanting upwards at frequency on the horizontal axis serves as the baseline for a series of H spectra of chloroform, according to the COSY pulse sequence for a series of values of t. Each peak results from one cycle of 90 - i -90 followed by Fourier transformation during ti of

The solid line was obtained by linear regression.

The solid line was theoretically predicted from the copolymerization

The solid line with experimental points shows the total ion current collected by the steel plate as its bias is varied. The steep slope of this curve shows clearly that the ions are stopped at about 5 V. The dashed line is the derivative of the solid line and gives the energy distribution of the beam. As the bias goes negative, the secondary electrons liberated by the ion impact are repelled from the plate and appear as a small increase in the total current

The solid lines and figures represent slopes corresponding to the predicted asymptotic behaviors for the EV and sub-theta regimes. Reprinted with permission from . Copyright American Chemical Society

The solid lines are adapted with the integral term of Eq. as in

The solid lines are calculated from Eq. . Data from Ref .

The solid lines are contours of given potential energy. The minimum reaction path is shown as a dashed line. The entrance valley has a depth — V De the potential energy is above that of either valley but below that of the dissociation plateau, where both bonds are broken and the three atoms are far apart from one another. It is customary to take the zero of energy as the energy of the plateau.

The solid lines are the function r. The dashed curve represents the non-resonant attentuation with 0 067.

The solid lines are the predictions of a small-deformation theory, while the dashed lines are for a large-deformation theory. The closed squares are from Rallison s

The solid lines are the result of the power law fit Inc oc P , which gives the indicated slopes .



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