Dial Legibility as a Function of Scale Graduation and Dial Shape

The study of dial legibility in terms of accuracy of reading has been carried on from two approaches. In one of these the dial shape is varied, while the graduations are held constant. The other approach is to hold shape constant and to vary the number of graduations. The present study presents a combination of the two earlier approaches, with shapes and graduations both being varied. Sixty dials were presented in booklets to forty Ss, who read them to the nearest 0.1 cm. while being timed. The results indicate that in dial reading situations where exposure time is not limited there is a significant difference among graduations but not among dials

An Investigation of the Judged Complexity of Stimuli With High Information Content

The complexity of stimuli with high constructed complexity was judged by 40 subjects on an equal-appearing intervals scale. Earlier studies had employed stimuli of lower constructed complexity, and it was felt that the judgment task would prove more difficult when the constructed complexity was increased. Results showed that subjects experienced no difficulty in making the judgments-as constructed complexity increased, so did judged complexity. It was suggested that magnitude estimation might be a more appropriate means of assessing judged complexity than equal-appearing intervals for future studies

An extended scheme for fitting X-ray data with accretion disk spectra in the strong gravity regime

Accreting black holes are believed to emit X-rays which then mediate information about strong gravity in the vicinity of the emission region. We report on a set of new routines for the Xspec package for analysing X-ray spectra of black-hole accretion disks. The new computational tool significantly extends the capabilities of the currently available fitting procedures that include the effects of strong gravity, and allows one to systematically explore the constraints on more model parameters than previously possible (for example black-hole angular momentum). Moreover, axial symmetry of the disk intrinsic emissivity is not assumed, although it can be imposed to speed up the computations. The new routines can be used also as a stand-alone and flexible code with the capability of handling time-resolved spectra in the regime of strong gravity. We have used the new code to analyse the mean X-ray spectrum from the long XMM--Newton 2001 campaign of the Seyfert 1 galaxy MCG--6-30-15. Consistent with previous findings, we obtained a good fit to the broad Fe K line profile for a radial line intrinsic emissivity law in the disk which is not a simple power law, and for near maximal value of black hole angular momentum. However, equally good fits can be obtained also for small values of the black hole angular momentum. The code has been developed with the aim of allowing precise modelling of relativistic effects. Although we find that current data cannot constrain the parameters of black-hole/accretion disk system well, the approach allows, for a given source or situation, detailed investigations of what features of the data future studies should be focused on in order to achieve the goal of uniquely isolating the parameters of such systems.Comment: Accepted for publication in ApJ S

An Analysis of the Content of Perceptual Responses to Randomly Derived Stimuli

In order to understand the role of the stimulus in form perception, an analysis of perceptual responses and stimulus characteristics must be undertaken. Previous research was focused upon the characteristics of the stimulus. This study presents a first approach to categorization of response. Objective, randomly-derived stimuli were presented tachistoscopically to Ss, who responded with their associations to the stimuli. The data suggest that the categories are meaningful ways of construing these responses. Some categories seem to be basic, while others require further differentiation. Hypotheses for future research have been obtained from these data

An Experimental Comparison of Associative Responses to Two Types of Randomly Derived Stimuli

Two methods for constructing random shapes were compared as to their effect upon latency of the associative response. Attneave and Arnoult had hypothesized that their Method II shapes would contain less stimulus information than would their Method I shapes. In the present study this hypothesis was substantiated only for female subjects. It was concluded that a reduction in stimulus information could not alone account for these results and that subject variables such as set and response threshold variability, must be included in the interpretation of results

Variation in the primary and reprocessed radiation from an orbiting spot around a black hole

We study light curves and spectra (equivalent widths of the iron line and some other spectral characteristics) which arise by reflection on the surface of an accretion disc, following its illumination by a primary off-axis source - an X-ray 'flare', assumed to be a point-like source just above the accretion disc resulting in a spot with radius dr/r<1. We consider General Relativity effects (energy shifts, light bending, time delays) near a rotating black hole, and we find them all important, including the light bending and delay amplification due to the spot motion. For some sets of parameters the reflected flux exceeds the flux from the primary component. We show that the orbit-induced variations of the equivalent width with respect to its mean value can be as high as 30% for the observer's inclination of 30 degrees, and much more at higher inclinations. We calculate the ratio of the reflected flux to the primary flux and the hardness ratio which we find to vary significantly with the spot phase mainly for small orbital radii. This offers the chance to estimate the lower limit of the black hole spin if the flare arises close to the black hole.Comment: 10 pages, 9 figures, accepted by MNRA

X-ray iron line variability for the model of an orbiting flare above a black hole accretion disc

The broad X-ray iron line, detected in many active galactic nuclei, is likely to be produced by fluorescence from the X-ray illuminated central parts of an accretion disc close to a supermassive black hole. The time-averaged shape of the line can be explained most naturally by a combination of special and general relativistic effects. Such line profiles contain information about the black hole spin and the accretion disc as well as the geometry of the emitting region and may help to test general relativity in the strong gravity regime. In this paper we embark on the computation of the temporal response of the line to the illuminating flux. Previous studies concentrated on the calculation of reverberation signatures from static sources illuminating the disc. In this paper we focus on the more physically justified case of flares located above the accretion disc and corotating with it. We compute the time dependent iron line taking into account all general relativistic effects and show that its shape is of very complex nature, and also present light curves accompanying the iron line variability. We suggest that future X-ray satellites like XMM or Constellation-X may be capable of detecting features present in the computed reverberation maps.Comment: Accepted for publication in MNRAS, 11 pages, 12 figure

The effects of relativistic bulk motion of X-ray flares in the corona on the iron Kalpha line in Seyfert 1 galaxies

We study the effects of the bulk motion of X-ray flares on the shape and equivalent width of the iron Kalpha line from an untruncated cold disk around a Kerr black hole using fully relativistic calculations. The flares are located above a cold accretion disk -- either on or off the rotation axis. For on- or off-axis flares, the upward/outward bulk motion causes a reduction of the iron Kalpha line width. To a distant observer with a low inclination angle (\theta_o \simlt 30deg.), larger upward/outward bulk velocities decrease the extension of the red wing, with little change in the location of the blue `edge'. In contrast, an observer at a large inclination angle (e.g. \theta_o=60deg.) sees both the red wing and the blue `edge' change with the bulk velocity. The equivalent width of the iron Kalpha line decreases rapidly with increasing bulk velocity of flares. However, the `narrower' line profiles observed in some objects (e.g. IC4329A and NGC4593) are difficult to produce using the out-flowing magnetic flare model with an appropriate equivalent width unless the X-ray emission is concentrated in an outer region with a radius of several tens of r_g=GM/c^2 or more. An important result is that the iron Kalpha line intensity is found to be constant even though the continuum flux varies significantly, which is true for out-flowing magnetic flares with different bulk velocities but similar intrinsic luminosities when located close to the central black hole. We find that fluctuations in the bulk velocities of out-flowing low-height flares located at the inner region (r\simlt 15r_g) can account for a constant iron Kalpha line and significant continuum variation as observered in MCG-6-30-15 and NGC5548. (Abridged)Comment: 30 pages (including 8 figures); minor changes, to appear in ApJ, Nov. 10, 200