Energy levels for transitions among the lowest 24 fine-structure levels belonging to the 1s2nl (n ≥ 5) configurations of Li-like Ar XVI and Fe XXIV have been calculated using the fully relativistic GRASP code. Oscillator strengths, radiative rates and line strengths have also been generated among these levels for the four types of transitions: electric dipole (E1), magnetic dipole (M1), electric quadrupole (E2) and magnetic quadrupole (M2). Comparisons are made for the electric dipole transitions with other available results, and the accuracy of the present data is assessed.
Yellow-cedar (Callitropsis nootkatensis (D.Don) D.P. Little), a conifer in the Cupressaceae with indeterminate growth, is undergoing severe decline and mortality in southeast Alaska and the coast of northern and central British Columbia. This decline is attributed to cold damage to roots associated with climate warming and reduced snowpack. The cold tolerance of indeterminate conifer species is little studied, and less is known about root cold tolerance, as most studies focus on shoots. We compared the seasonal cycle of cold hardiness in roots and shoots of yellow-cedar seedlings from high and low elevation populations over one year. Freezing tolerance of shoots followed a typical seasonal cycle with low levels of cold tolerance observed from April to October and moderate levels of cold tolerance observed in mid-winter. Differences in shoot cold tolerance among populations were consistent with the latitude and elevation of origin. In contrast, at the same freezing temperatures, roots of all seedlings had consistent, high levels of cold damage throughout the year.
A method for continuously measuring the quantity of non-conducting immiscible liquid dispersed in a detergent slurry is developed. The instrument relies on measuring the rms value of fluctuations in the instantaneous resistance across electrodes in the flowing fluid. Fundamental concepts underlying this technique are discussed, together with the details of the measuring system and the construction of the electrodes. Some experimental results are presented which show that the output of the instrument is proportional to the quantity of the dispersed phase. This technique is generally applicable to any two-phase fluid system where the carrier is conducting and the minor discontinuous component has a different value of conductivity.
Information processing speed (Reaction time, RT) to a single administration of the Trails A and Trails B components of the Trail Making Test (TMT) is used in the assessment of brain and behavioural functional integrity across the lifespan in both clinical and research contexts. Although the clinical utility of such single trial-related and thus rapidly gained results, is recognised, it is possible that its administration as a single trial only, precludes its ability to provide a more in-depth and thus relevant representation of functional integrity per se, and it does not allow a range of ability to be examined. Because outcome from a single trial can be susceptible to the influence of spurious and extraneous effects we examined how, within a single testing session, RT varied with respect to the administration of four trials of both Trails A and B of the TMT, and how the effects may be associated with anxiety and self-consciousness. We examined how RT varied with respect to the administration of four trials of the Trail making test and compared the performance over each of these trials with that of the first trial. Between the third and fourth trial, questionnaires on anxiety and self-consciousness were administered. This paradigm was tested with fifty five younger adults (age range eighteen - thirty years). Our results indicated that repeating both Trails A and B of the TMT, administering the tests over four trials, revealed a significantly disproportionately slowed information processing speed (RT) to the first compared to consecutive trials, with the effect greatest for the more difficult or resource-demanding Trails B test. There were no significant correlations between change in information processing speed and anxiety or self-consciousness. The first of the four trials represents the only trial typically performed in the clinical application of this test. Our finding that the time to complete one single trial can be significantly slower compared to the response to additional trials, indicates that an individuals’ information processing speed can appear much slower than their actual ability. Such findings can be expected to be of particular relevance to the future use of this test clinically when an individual’s performance is measured and judged with respect to possible diagnosis, and in future research when group-level TMT performance is compared between younger and older adults for example.
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