Temperature effects derivatives

The rats of solvolysis of four isomeric tricyclooctane derivatives have been determined. After correction for leaving-group and temperature effects, the relative reactivities are as shown. 

The recombinantly expressed nitrilase from Pseudomonas fluorescens EBC 191 (PFNLase) was applied in a study aimed at understanding the selectivity for amide versus acid formation from a series of substituted 2-phenylacetonitriles, including a-methyl, a-chloro, a-hydroxy and a-acetoxy derivatives. Amide formation increased when the a-substituent was electron deficient and was also affected by chirality of the a- stereogenic center for example, 2-chloro-2-phenylacetonitrile afforded 89% amide while mandelonitrile afforded 11% amide from the (R)-enantiomer but 55% amide was formed from the (5)-enantiomer. Relative amounts of amide and carboxylic acid was also subject to pH and temperature effects [87,88]. 

Method 1 The effective temperature was derived from the excitation equilibrium of the Fel lines and the surface gravity from the ionization equilibrium of the iron lines. 

Radial velocities were measured by cross-correlation, using a synthetic spectrum as template. Individual spectra were shifted to rest wavelength and coadded. Effective temperatures were derived from the (V — I)o colours by means of the Alonso calibration [8], We assumed log g = 2.0 for all stars (estimated from isochrones) and with these parameters we fed the spectra to our automatic procedure for the determination of abundances [9], We found that the S/N ratio was too low to be able to determine reliably the microturbulent velocities, the weak Fe I lines could not be measured on many spectra. This resulted in a marked dependence of derived abundances on microturbulent velocities. It is well known that microturbulence is not a truly independent parameter but correlates with surface gravity and, more mildly also with effective temperature. By considering the large sample of stars studied by [10] one can be convinced that for all stars with 1.5 < logg < 3.0 (20 stars) there is no marked dependence from either Tefi or log g, and the mean value of the microturbulent velocity is 1.6 kms 1. For this reason we fixed the microturbulent velocity at 1.6 kms-1. 

Pyroelectricity of several kinds of alternating LB films consisting of phenylpyrazine derivatives and stearic acid was measured by the static method at various temperatures. Effects of thermal expansion and molecular packing density of the film on pyroelectricity were also examined. The following conclusions were derived. 

Transient Heating of Droplets When a cold liquid fuel droplet is injected into a hot stream or ignited by some other source, it must be heated to its steady-state temperature Ts derived in the last section. Since the heat-up time can influence the V/2 law, particularly for high-boiling-point fuels, it is of interest to examine the effect of the droplet heating mode on the main bulk combustion characteristic—the burning time. 

The effects of temperature on catalysts derived from traditional triorganophosphorus ligands has been studied and reported previously (13). In general, as the temperature of the reaction increases, the catalyst activity increases while the selectivity to the linear isomer decreases. Temperature effects on halophosphite catalysts follow the expected trend. Table 2 presents supporting bench unit data. 

In the following table the different models are applied to CFC-11. Note the excellent correspondence between the temperature variation calculated by the Stokes-Einstein relation (Eq. 3) and the expression by Hayduk and Laudie (Eq. 4), although both models overestimate the temperature effect compared to the activation model derived from the experimental data (Eq. 2). 

Over the narrow (13 °C) range of temperatures in our experiments the temperature effect is linear and a temperature coefficient can be derived by fitting the 0 values to the following model ... 

---