Straight-line Plots Research Articles

Thin-layer chromatography of N,N-disubstituted dithiocarbamates of nickel(II) and cobalt(II)

The separation and chromatographic behaviour with different mobile phases of dithiocarbamates of Co(II) and Ni(II) is reported. The effects of the solvent strength and the amine from which the chelate is derived were studied. Slopes of the straight-line plot of R M vs. log X s ( X s = molar fraction of the more polar component in the mobile phase) showed the differences in the adsorption of the metal chelates.

Substituent effects on the kinetic solvent isotope effect in solvolyses of arenesulphonyl chlorides

AbstractThe Hammett type plot of kinetic solvent isotope effect (KSIE = kSOH/kSOD), log(KSIE) vs σ, can be a useful mechanistic tool for solvoltic reactions. The slopes of such straight line plots for para‐substituted benzenesulphonyl chlorides in methanol (0·15), water (0·05) and methanol–water (0·05) are interpreted in terms of different reaction channels (general base‐catalysed and SN2), in contrast to simple Hammett plots, log kSOH (or log kSOD) vs σ, invariably exhibiting non‐linear concave curves.

The effect of UV radiation on the mechanical strength of As 2Se 3 glass fibers

This paper presents tensile strength data for As 2Se 3 glass fibers stored for a period of 30 days under a combination of UV light, complete darkness, moisture and vacuum. The strength statistical distributions were analyzed by both the Weibull and fundamental approaches, the latter assuming no specific functional form for the flaw density distribution. It was found that the fiber strengths deteriorated due to the action of UV light. The combined effect of UV light and humidity was found to lead to enhanced degradation. However, fibers stored under high humidity in complete darkness exhibited superior mechanical properties. The mechanisms responsible for these observations are discussed with regard to the surface topographical changes. Fracture surface specimens were analyzed from all the fiber groups investigated. Plots of log tensile strength versus log mirror radius yielded straight line plots distinctly different for irradiated and unirradiated fiber groups. Approximate values obtained for the critical stress intensity factor, K IC, were 0.16 and 0.25 MPa m 0.5 for irradiated and unirradiated fiber groups, respectively. The significance of these results is discussed.

VERIFICATION OF QUICK CAPILLARY RISE APPROACH FOR DETERMINING PORE GEOMETRICAL CHARACTERISTICS IN SOILS OF VARYING TEXTURE

Capillary rise experiments were conducted with water in soils of varying texture to verify the validity of the recently proposed Quick Capillary Rise (QCR) approach. We verified it by straight line plots obtained between wetting front rise velocity dZ/dt and the inverse of the wetting front rise 1/Z

Time-temperature analysis of cell killing of BHK cells heated at temperatures in the range of 43.5°C to 57.0°C

Baby hamster kidney (BHK) cells were heated at temperatures in the range of 43.5°C to 57.0°C to determine the time-temperature relationship of cell killing. The cells were grown on 0.025 mm thick pieces of mylar to minimize warm-up times. After heating, the cells were plated for the colony formation assay. The endpoints of 1%, 10%, or 90% isosurvival, or the D 0 values of the survival curves were used to construct plots of the logarithm of the reciprocol of the exposure time versus the reciprocol of the absolute temperature. The data for each endpoint resulted in a straight line plot, indicating that the time-temperature relationship for cell killing remained constant from 43.5°C to 57.0°C; namely, a 1.8-fold increase in exposure time was required for a 1°C decrease in temperature in order to obtain isosurviival. Heated BHK cells were also examined using electron microscopy. The threshold level of altered morphology was the dissociation of polyribosomal structure and the formation of electron-dense granules within the mitochondria. The time-temperature relationship for the induction of this altered morphology was identical to that for the 90% isosurvival endpoint. Hence, the appearance of altered morphology appears to be related to cell killing.

Measurement of 5-fluorouracil and its active metabolites in tissue

The 5-fluorouracil content of serum, bile, pancreatic juice, liver, pancreas and muscle was measured by reversed-phase high-performance liquid chromatography using a mobile phase of 5 m M 1-heptanesulfonic acid in 5 m M acetic acid. Free or unmetabolized 5-fluorouracil was extracted from samples with a mixture of light petroleum— n-propanol (40:60). The active metabolites of 5-fluorouracil were hydrolyzed with hot perchloric acid to free 5-fluorouracil and the combined 5-fluorouracil content was extracted. The active metabolite fraction was calculated from the difference between the combined and the free fractions. A straight line plot of the peak areas against concentration was achieved and the detection limit was 50 ng/ml. Five minutes after stopping an intravenous infusion of 15 mg/kg or 5-fluorouracil in a dog, the serum contained only the free form, but other body fluids and tissues contained both free and metabolite fractions. The method may be useful to determine the amount of total drug in patient samples.

Tubulin dimer dissociation and proteolytic accessibility

The alpha and beta subunits of the tubulin dimer each possess a distal C-terminal subtilisin cleavage site which, when cleaved, releases an acidic, small peptide. In addition, each possesses an internal site, cleaved by trypsin in alpha and chymotrypsin in beta, which connects the amino and carboxyl structural domains. A model of the dimer is presented which suggests that the beta C-terminal subtilisin site may be more accessible in the monomer than in the dimer. Kinetics of cleavage at this site on the dimer yield straight-line plots of log (undigested fraction) versus time, from which pseudo-first-order rate constants are obtained. Temperature effects on the rate constant are due to changes in the activity of subtilisin, not to temperature-induced unfolding around this site. The rate constant is proportional to the subtilisin/tubulin ratio, whether this is varied by changing the concentration of subtilisin or of tubulin. However, if the rate constant increases due to decreasing tubulin concentration, the extrapolated zero time intercept decreases. The decrease in zero time intercept is interpreted as being due to the appearance of a rapidly digested fraction upon dilution of tubulin. The increase observed in this fast fraction with dilution of tubulin is fully reversible upon reconcentration. It is suggested that this fast fraction represents monomeric beta-tubulin and the concentration dependence of this fast fraction indicates a dissociation constant of about 1.5 X 10(-7) M.

Determination of elastase activity by reversed-phase high-performance liquid chromatography

The action of elastase on elastin was measured by high-performance liquid chromatography with on-line post-column derivatization. After alkaline hydrolysis, a 20-ml sample was injected into a ODS-2 gel column. An elastin-specific dipeptide, Val-Pro, and the internal standard, Gly-Leu, were eluted by a linear gradient of 0 to 10% of 1-propanol in 50 m M heptafluorobutyrate (pH 3) at a flow-rate of 1 ml/min. The eluent was reacted with fluorescamine, and the fluorescent products were measured. Retention times for Val-Pro and Gly-Leu were 17.33 and 23.54 min. The peak areas of 0.2–16 μg of Val-Pro gave a straight-line plot. Elastase activity was constant from 6 to 24 h and was 0.95 ± 0.02 (S.D.) μg/h. The method may be useful for the measurement of the elastolytic activity in some diseased tissues.

Pumping tests in nonuniform aquifers — The radially symmetric case

Traditionally, pumping-test-analysis methodology has been limited to applications involving aquifers whose properties are assumed uniform in space. This work attempts to assess the applicability of analytical methodology to a broader class of units with spatially varying properties. An examination of flow behavior in a simple configuration consisting of pumping from the center of a circular disk embedded in a matrix of differing properties is the basis for this investigation. A solution describing flow in this configuration is obtained through Laplace-transform techniques using analytical and numerical inversion schemes. Approaches for the calculation of flow properties in conditions that can be roughly represented by this simple configuration are proposed. Possible applications include a wide variety of geologic structures, as well as the case of a well skin resulting from drilling or development. Of more importance than the specifics of these techniques for analysis of water-level responses is the insight into flow behavior during a pumping test that is provided by the large-time form of the derived solution. The solution reveals that drawdown during a pumping test can be considered to consist of two components that are dependent and independent of near-well properties, respectively. Such an interpretation of pumping-test drawdown allows some general conclusions to be drawn concerning the relationship between parameters calculated using analytical approaches based on curve-matching and those calculated using approaches based on the slope of a semilog straight line plot. The infinite-series truncation that underlies the semilog analytical approaches is shown to remove further contributions of near-well material to total drawdown. In addition, the semilog distance-drawdown approach is shown to yield an expression that is equivalent to the Thiem equation. These results allow some general recommendations to be made concerning observation-well placement for pumping tests in nonuniform aquifers. The relative diffusivity of material on either side of a discontinuity is shown to be the major factor in controlling flow behavior during the period in which the front of the cone of depression is moving across the discontinuity. Though resulting from an analysis of flow in an idealized configuration, the insights of this work into flow behavior during a pumping test are applicable to a wide class of nonuniform units.

Effect of conditions of manufacture on the properties of ultrafine nickel powder

The steady expansion of the fields of applications of ultrafine powders (UFPs) necessitates studying and developing their methods of manufacture. In particular, there is a need to identify the factors influencing the particle size of UFPs. Of special interest in this connection is the levitation method [i], which enables UFPs to be produced with very narrow particle size ranges and mean particle sizes varying from 0.01 to 0.5 ~m in a continuous process. The present work was therefore undertaken with the aim of examining, using nickel UFPs as an example, the effect of the key parameters of production of particles by the levitation method on their size. Use of a ferromagnetic material made it possible to study at the same time the effect of the dimensional factor on the magnetic properties of such UFPs. The first results of this investigation have been reported in [2]. As can be seen from the diagrammatic representation shown in Fig. I, evaporation of a metal drop i in the apparatus employed is performed in a suspended state with the aid of a countercurrent generator 2 supplied from a VChG4-10/0.44 high-frequency generator 3. Nickel vapor entrained by an inert gas stream condenses, with the formation of spherical particles (Fig. 2), which are trapped by a filter 4. At the end of the process the particles are removed from the filter by means of a rod 5 into a capsule 6, another rod 7 serving to withdraw a sample of the particles for electron microscopy. During evaporation fresh metal is continually supplied to the drop from a wire of the starting material 8, which passes through a feeding device 9 and a stuffing box I0. The velocity of the cooling inert gas stream v is regulated by means of a valve ii and a rotameter 12. In our work all investigations were carried out at an inert gas pressure close to atmospheric. A study was made of the effect of the rate of particle condensation s, rate of flow of the cooling inert gas, and its atomic weight on the size and magnetic properties of the nickel particles being formed. Magnetic properties were studied using a vibration magnetometer. The rate of condensation for levitation under self-regulating conditions is usuallymade equal to the rate of consumption of the metal wire [i], which can easily be regulated by varying the speed of rotation of the feeding device rollers. In the apparatus employed the rollers were driven by an RD-09 reversing motor through a special reductor. The linear wire feed rate in the system was varied steplessly and in steps in the range 0.03-30 m m/sec (for 0.2-mmdiameter nickel wire the corresponding variation of s was from 0.01 to i0 mg/sec). At constant rates of _fl~ of inert gas through the vaporizer the dependence of the mean nickel UFP particle size d, calculated on the basis of analyses of micrographs, on s was as shown in Fig. 3. The power-function character of the ~ vs s relationship was maintained wit h various inert gases and at various gas flow rates. The slopes of the straight-line plots in the figure indicate a typical d ~ s~/~ relationship.

Gelatinisation of starches of different amylose/amylopectin content. A study by differential scanning calorimetry

Differential scanning calorimetry has been used to study the gelatinisation of waxy maize, wheat and potato starches as a function of water content. Despite the good straight-line plots obtained when the data were fitted using the Flouy-Huggins equation, some doubt exists over the applicability of this equation, since it is unclear whether melting of the ‘last’ crystallite occurs (effectively) at equilibrium or is controlled by plasticisation of the amorphous regions of the granules as a result of a glass transition. The gelatinisation of these three starches and, in addition, amylomaize starch, was examined at an intermediate water content (v 1 0·67, 57 % water). The most appropriate model for gelatinisation includes a glass transition, perhaps due to plasticisation of the amorphous amylose fraction, and two phase transitions within amylopectin; M1, assigned to the disordering of amylopectin crystallites, preceded by G due to the disordering of ‘double-helices’ associated with short-range order. The enthalpies of gelatinisation of amylomaize, wheat and waxy maize starches ranked in order of amylopectin content. In contrast, potato starch had the largest gelatinisation enthalpy of all the starches even though its amylopectin content was similar to that of wheat starch. The reason for this may lie in a high proportion of ‘double helical’ material with only short range order for this starch, compared with other starches.

Electrophilic substitution in indoles. Part 14. Azo-coupling of indoles with p-nitrobenzenediazonium fluoroborate

Indole and its 1- and 2-methyl derivatives undergo second-order azo-coupling reactions with p-nitrobenzenediazonium tetrafluoroborate to afford the corresponding indole-3-azo-(4′-nitrobenzenes). Kinetic studies with related 3-deuterioindoles showed that there is no isotope effect, thus confirming that the initial attack of the electrophile is the rate-determining step, as in the majority of electrophilic aromatic substitutions.In contrast, 3-methylindole afforded 3-methylindole-2-azo-(4′-nitrobenzene) and the reaction not only showed a small deuterium isotope effect (ca. 2) but was also affected by base catalysis by water added to the acetonitrile. The difference in behaviour of the 3-methylindole from indole and its 1- and 2-methyl derivatives could be accounted for by a mechanism involving primary attack of the diazonium salt at the 3-position followed by rearrangement; further evidence for this mechanism was provided by the straight line plot obtained in comparisons of the rates of reactions for the four indoles with acidity functions (which reflect protonation at the 3-position).

Effect of Decreased Porosity with Depth on Oil and Gas Reserves in South Louisiana Sandstone Reservoirs: ABSTRACT

The decrease in porosity with depth is the most important single factor controlling the amount of oil and gas in place per unit volume of sandstone reservoir rocks. A study of more than 17,000 conventional cores taken almost entirely from Miocene and younger sediments between approximately 1500 and 19,500 ft showed that on the average porosity decreases 1.265% of total volume/1000 ft of burial. Data from abnormally pressured reservoirs also fit the straight-line plot of porosities from all reservoirs. Since 1965, conventional core data have become available for about 1800 samples from lower Tertiary sediments between depths of 9000 and 14,000 ft and more than 2200 samples from Cretaceous sediments between depths of 15,000 and 22,000 ft. Improved wireline logging techniques have provided additional porosity data, particularly at depths where conventional core data are limited. Data available since 1965 confirm the conclusion that, in south Louisiana, porosity and recovery of oil and gas per unit volume decrease with depth.

A study of the trans influence in some rhodium(I) complexes using infrared spectroscopy

The trans influence of a series of nitrogenous bases has been investigated by monitoring the infrared stretching frequency of carbon monoxide in complexes of the type trans-[Rh(CO){(C 6H 5) 3P} 2L]PF 6 where L is pyridine, 4-acetylpyridine, 4-dimethylaminopyridine, 3,4-dimethylpyridine, 4-cyanopyridine, 4-benzoylpyridine, 3-chloropyridine, 4-hydroxypyridine, imidazole, benzimidazole, 2-ethylbenzimidazole, and 2-metylbenzimidazole. A straight line plot is obtained when the p K a values of the pyridines (except 4-hydroxypyridine) are plotted versus the CO stretching frequency of their complexes. The hydroxypyridine and imidazole ligands do not give data that fit the linear plot. These bases are the only ones of the group studied whose conjugate acids have two sites of deprotonation that are strongly correlated through resonance. This feature is discussed as a possible reason that the p K a values are not good measures of the sigma donor capabilities of those ligands toward the metal.

Determination of acidity constants by solvent extraction/flow injection analysis using a dual-membrane phase separator

The absorbances of both the organic and aqueous phases in a solvent extraction/flow injection analysis system are simultaneously monitored. Acidity constants are determined from straight line plots relating the ratio of peak areas in the aqueous and organic phases, A/sub a//A/sub o/, to the hydrogen ion activity of the aqueous phase. Theoretical equations describing this relationship for both HA and BH/sup +/ charge type acids are derived and verified experimentally using 3,5-dimethylphenol (pK/sub a/ = 10.09 +/- 0.01) and p-toluidinium ion (pK/sub a/ = 5.28 +/- 0.01). The distribution coefficient of the neutral conjugate species is also obtained during the experiment. Some distinct practical advantages to using the dual-membrane device over the single-membrane device are discussed. 21 references, 2 tables.

Examples of Pitfalls in Well Test Analysis

Summary Recent developments in the modeling and prediction of pressure transient tests for various reservoir and flow conditions have indicated the similarities in response that may exist among totally different cases. Several case studies are used to point out pitfalls associated with force-fitting a particular flow regime or reservoir condition on a set of pressure vs. time data. Introduction Current diagnostic procedures used to select a reservoir flow model to interpret well tests include various plots of pressure drop or pressure recovery vs. some function of time. These plots include log ?p vs. log ?t, log-log plot; p vs. log ?t, semilog plot; p vs. ?t, linear flow plot; p vs. 4?t, bilinear flow plot; and p vs. (1/?t), spherical flow plot. The utility of these plots has been shown in a series of published papers during the past decades. A review of these was made recently by Ramey.1 With the advances in analytical and numerical modeling of flow problems in reservoirs, many papers have discussed modeling the response of an idealized reservoir geometry or flow regime under the conditions of a given wellbore flow. Because of many possibilities that may exist in real situations, many investigators are working to formulate and to obtain the pressure response in reservoirs of increasing complexity. Real-life examples of pressure data to fit a given idealized model are often nonexistent. Consequently, many authors use synthetic data to point out the use of their proposed technique or model. In fact, practicing engineers now are reading about many techniques and models for which there may never be examples of actual data to fit. Some people may even criticize the enormous effort toward prediction of pressure response in certain idealized models. One must note, however, that all the idealized cases published to data and yet to be published are opening our eyes to response similarities that may exist among the performance of completely different systems. The purpose of this paper is to present a few examples, make a comparison between the responses of various reservoir models, and point out the errors in interpretation if the radial flow model is forced on the data in all cases. Reservoir Flow Models Reservoir geometry and kz/kr are the two major factors controlling the nature of flow between the high-pressure portion of the field and the wellbore. Fig. 1 shows examples where cases of radial, linear, and spherical flow may develop. The bulk of the well testing literature is based on the assumption of a radial flow regime. Studies conducted on complex geometries, such as multilayered with or without crossflow and various wellbore and boundary conditions, have focused primarily on the main frame of a radial flow system. The case of linear flow has been emphasized mainly for fracture-controlled flow regime. Recently, the pressure behavior in a long and narrow reservoir was reviewed.2 Spherical flow has received very sporadic attention in the literature.3–5 Each of these flow regimes has its own distinct flow equation. The solution to the flow equation in the absence of wellbore effects results in a straight line on a plot of pressure vs. some function of time. The straight line is obtained for radial flow on a p vs. log ?t, for linear flow on p vs. ?t, and for spherical case on p vs. 1/?t. Selection of the proper flow system depends on what is known about the particular reservoir. For tests conducted during the development stages of a field, such a selection may be possible. The real difficulty is during the exploratory phase, when field data are too few to support a given model strongly. The question addressed here is whether the formation of a straight line on a given pressure vs. time plot is indicative of the corresponding flow regime. The answer would have been easy if the straight line plots were unique. Evidence shows that pressure vs. time data for a given system may result in pseudostraight lines on two or more characteristic plots. A pseudostraight line is defined here as a trend of data points resembling a straight line on a pressure vs. time plot with no physical condition justifying such a case. Experimentation With Theoretical Plots Consider a set of pressure vs. time data where p=f(t) results in a straight line on given plot. The entire set or a portion of the same set may result in a pseudostraight line on other plots. Figs. 2 through 7 show the results of experimentation with these plots. Each case starts with an assumed condition, and the graphical representation on other scales are presented.

Pressure vs. Air Flow Through Fresh Tobacco Leaves

ABSTRACT INLET pressure and pressure drop across an exit orifice were measured for various air flows and depths of fresh tobacco leaves and whole plants bulked at 180 to 300 kg/m3 in a curing configuration. Flow was calculated from the pressure drop across the orifice. Air flow through leaves and whole stalks as a function of the pressure gradient gave the expected straight line plot on a log-log graph with a slope of 0.64 to 0.88. Bed depth effects could be effectively normalized by dividing the pressure by the depth. The intercept decreased appreciable with increases in the bulk density of the tobacco thus reflecting the increases in flow resistance with density. Correlation coefficients varied from 0.86 to 0.99 with most of them being about 0.99. Density effects, which caused large decreases in flow as density increased, could be approximately normalized by dividing the pressure gradient by the third power of the ratio of the actual density to a reference or average density. Lower densities tended to be overcompensated and higher densities tended to be undercompensated.

The application of microelectrodes to the study of homogeneous processes coupled to electrode reactions: Part II. ECE and DISP 1 reactions

The application of steady state current measurements at a disc shaped microelectrode to the study of first, and pseudo-first order homogeneous reactions has been extended to ECE and DISP 1 reactions. The oxidation of anthracene in “super dry” acetonitrile, and of hexamethylbenzene in acetonitrile were investigated and from a comparison of steady state microelectrode data, to data from transient experiments, were shown to be ECE and DISP 1 reactions respectively in agreement with previous investigations. The rate constants for these reactions were obtained from the gradients of simple straight line plots and were in agreement with values obtained more conventionally. It is shown that the non-uniform accessibility of the disc complicates the analysis of second order reactions.

AN APPROACH TO QUICK DETERMINATION OF SOME WATER TRANSMISSION CHARACTERISTICS OF POROUS MEDIA

We conducted capillary rise experiments with water in glass beads and soils. The validity of Poiseuille's law was verified in the first time segment by the straight line plots obtained between wetting front rise velocity dZ/dt and the inverse of the wetting front rise 1/Z. The values of the penetration coefficient γ and hydraulic conductivity K derived from first time segment capillary rise data using Poiseuille's analysis matched those measured independently. Predicted values of equivalent radius matched those determined by the mercury intrusion technique. The shape factor G of a porous medium is much higher than its theoretical value 8 in a single capillary. It is defined to vary with the water-filled porosity f and the formation factor e (G = 8/f + e). An empirical relation between permeability k and formation factor e allows the speedy estimation of shape factor G, equivalent radius r, and advancing contact angle α from derived water transmission constants. We show that capillary rise data of the first time segment are sufficient for physical characterization of soils in terms of water transmission constants (γ and k) and pore geometrical properties (e, G, and r).

Discussion of the validity of Kuno’s relation to determine the base lifetime from a reverse recovery experiment

It is shown that Kuno’s modified relation ts/τeff =ln[1+(JF/JR)]+B, is valid for all diodes irrespective of whether or not heavy doping effects are important and whether the emitter and base thickness are small or large provided ts is large or JR/JF is small). The slope of the ts vs ln[1+(JF/JR)] straight line plot gives τeff. For a large base thickness, τeff≂τB. For a short base, 1/τeff=1/τB+1/t1, where t1 depends on the base thickness, the emitter properties, and the surface recombination velocity at the base contact. For small ts/τB, B is not constant anymore, and the ts vs ln[1+(JF/JR)] plot becomes curved in all cases. The effects of photoexcitation and of drift field in the quasineutral regions are also considered.