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Kaposi Sarcoma. The most prominent herpesviral particles in KS cells are those of the KSHV HHV-8 agents illustrated in

Kapp is plotted against , and it shows a behavior corresponding to Equation 4. The association constant Kx . Equation 5 relates relaxation time, equilibrium con-

Kappa .

Kappa number response for R .

Kappa Opioid Agonists used in moiecular modelling study.

Kappa trends 06 07 2002.

Kappa-Selective Ligands .

Kappe approach to dihydropyrimidines.

Kapteijn et al., 1999 shows the model commonly u.sed to pre.sent a reversible reaction taking place on the surface of a solid catalyst. Three elementary steps are distinguished, i.e. adsorption of A on an active site, reaction of this adsorbed complex to adsorbed complex B, and desorption of B from the active site.

Kaptein s niles for net and multiplet RPM of CIDNP. The variables are defined as follows

Kaptein s rules for net and multiplet RPM of CIDNP. The variables are defined as follows

Kaptoi -type polyimide.

Kapton HN films lose almost the complete surface potential within 24 h, exhibiting a steep decay in the first minutes. Upilex R renders better results, since its potential decay is moderate and after 24 h around 45 of the applied charge

Karabatsos s transition state models ,

Karaoglanov plot of the potential-time curve in potential range of peak II

Kare-metal couple installed.

Karel Capek s drawing after his visit to the mineral collection of the British Museum ,

Karel Wiesner

Kariapper-Foster model of co-deposition whereby metal ions are adsorbed on the particles. The first step describes physisorption. In the second, part of the adsorbed metal ions get reduced and form a mechanical bond with the metal surface.

Karin Frei.

KarJ Fischer dr ri nfiguration with coulnmeiric protcssing unit ouiside ant titralion vicsscIb inside the drj So. ElongatcJ wires connect insrrgrncnl lo electrodes ill titration i essei in ihc dry box. Unit on lie ri ht uses p ridiitc solvent unit on ihc lefi iikci pyridinc-fnee solvenL

Karl Fischer coulometric cell, model DL-37. The diaphragm

Karl Fischer instrument

Karl Fischer method for determination of water. The conventional burette titration with visual detection of the end point leads to imprecise results. Thus, a cell containing two small platinum electrodes is used. As long as no iodide is present in the solution, the current between the electrodes is weak. When excess iodide is present in the solution at the instant the equivalence point is reached, a significant current is registered.

Karl Fischer two-component coulometric cell. Model DL-37 reproduced courtesy of Mettler Toledo. The instrument generates iodine by a electrolysis current appUed in pulses. The duration of these pulses is reduced as the titration end point is approached. The diaphragm is used to avoid oxidation of the reduced ions appearing at the surface of the cathode. Some models exist without a diaphragm. They are easier to clean but they cannot solve all apphcations.



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