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The Time-error for Size Comparison as a Function of Stimulus Duration and Interpolated Interval PDF

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INFORMATION TO USERS This material was produced from a microfilm copy of the original document. While the most advanced technological means to photograph and reproduce this document have been used, the quality is heavily dependent upon the quality of the original submitted. The following explanation of techniques is provided to help you understand markings or patterns which may appear on this reproduction. 1.The sign or "target" for pages apparently lacking from the document photographed is "Missing Page(s)". If it was possible to obtain the missing page(s) or section, they are spliced into the film along with adjacent pages. This may have necessitated cutting thru an image and duplicating adjacent pages to insure you complete continuity. 2. When an image on the film is obliterated with a large round black mark, it is an indication that the photographer suspected that the copy may have moved during exposure and thus cause a blurred image. You will find a good image of the page in the adjacent frame. 3. When a map, drawing or chart, etc., was part of the material being photographed the photographer followed a definite method in "sectioning" the material. It is customary to begin photoing at the upper left hand corner of a large sheet and to continue photoing from left to right in equal sections with a small overlap. If necessary, sectioning is continued again — beginning below the first row and continuing on until complete. 4. The majority of users indicate that the textual content is of greatest value, however, a somewhat higher quality reproduction could be made from "photographs" if essential to the understanding of the dissertation. Silver prints of "photographs" may be ordered at additional charge by writing the Order Department, giving the catalog number, title, author and specific pages you wish reproduced. 5. PLEASE NOTE: Some pages may have indistinct print. Filmed as received. Xerox University Microfilms 300 North Zeeb Road Ann Arbor, Michigan 48106 LD3907 13-2214-1 s 1950 Karlin, Lawrence, 1917” ' 0K27 The time-error for size comparison as a function of stimulus duration and interpolated interval. New Y> 1950. [2],127 typewritten leaves, diag: tables. 29cm. C58S41 Thesis (Ph.D.) - New York Univer­ sity, Graduate School, 19i>0* "References": p.1211-127* «Cholf I ict Xerox University Microfilms, Ann Arbor, Michigan 48106 THIS DISSERTATION HAS BEEN MICROFILMED EXACTLY AS RECEIVED. lIBBARr 09 BEN 1091 UNIVSR8IT7 HlflRSITT HEIOHTP .V ~r v THE TIME-ERROR FOR SIZE COMPARISON AS A FUNCTION OF STIMULUS DURATION AND INTERPOLATED INTERVAL by Lawrence Karlin A dissertation In the department of psychology submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy at New York University, April, 1950* ACKNOWLEDGMENTS The writer wishes to express his sincere thanks And to acknowledge a profound debt to Professor Lyle H. Lanier for his guidance, advioe and criticism in carrying out this study. He also wishes to express his appreciation to Professors Thomas N. Jenkins and Presley D. Stout for valuable suggestions. TABLE 07 CONTENTS I. Iatrodnatloa II. Oaaaral Baokoround..........................5 Trtti Thaory............................ 5 ErtanalTa Stlaull and Traea Thaory........8 Stimulus Duration...................... 10 Praatiea Sffsata ....................... 11 Csntral Tandanay and Balatad Effacto .....14 Tiaa-arror Studlaa of Tlaual Extant...... 19 Tfcaoratlaal Considaratloaa.............. «7 Suaaary .... ..55 III. Outllna of tha Praaaut study .......... 57 IT. Apparatus aad Oaaaral Proaadura............ SO Prajaatloa 8yataa...................... SO Tlalao Syataa.......................... 40 Stlaalus Matarlala..................... 48 Oparatloa of Xqulpaant ........ 44 T. Naaulta........... 45 Xxparlaaat X ............... 45 Jtxparlaant XX .... 05 Exparlaaat XXX ......................... 78 Exparlaaat X T .......................... 04 Xxparlaaat T ........... ..97 IX. Dlsauaaloa................ 105 Thaoratiaal Interpretations ..........107 TII. Suaaary and Oonelnalona..................117 Suaaary.............................. 117 Qoaelualoaa.......................... 1S1 ▼XII* Hafarenas*...............................ltd I INTRODUCTION The constant error resulting from the successive com­ parison of two stimuli is usually described as a "time-error." The sign of the time-error is positive or negative depending on whether the second member of a pair is, respectively, under- or overestimated when compared with the first member. In experiments involving the successive comparison of lifted weights, Pechner (9) found a negative time-error to be the rule; i.e., a persistent tendency was displayed to overestimate the second member of a pair. Assuming that the judgments in this situation depended on a comparison of the seoond stimulus with a "memory image" of the first, he attri­ buted the negative time-error to the "fading" of the image during the time interval between two successive presentations. This fading memory-image provided the consistently lower "level" against which the second stimulus was judged, with the consequent overestimation of the second stimulus. Recog­ nizing further that the time-error situation provided a method for "fraotionating" the course of the memory image in time, he experimented with varying time intervals Interpolated between two successively presented stimuli. As he predicted, the time- error became increasingly negative with increasing length of interpolated interval. In subsequent studies of the time-error these results were verified and extended to Include other modalities such 2 as vision and audition. Although various theoretical in­ terpretations have generally assumed some kind of "’fading" after-effect, the concept of a "memory-image” as an embodi­ ment of this after-effect has long since been discarded. This was done mainly on the basis of introspective evidence (10,26,28) which provided no phenomenal justification for the role assigned to the memory image in the comparison judgment. Most time-error experiments have employed stimuli vary­ ing in intensity (e.g., heaviness of weights, loudness of sounds and brightness of lights), but a few recent studies have investigated the time-error for the successive compari­ son of stimuli varying in extent (e.g., the distances between dots /6,4l7, lengths of lines /25,277, areas of circles and [jj&J) squares . The results ®f the latter group of studies have not uniformly suggested the presence of a negative time- error. The lack of uniformity of the results for stimuli varying in size as compared to those obtained with extensive stimuli, may be due to the possibility that each of the two types of stimuli (intensive and extensive) involve comparison judgments governed by different kinds of mechanisms. Thus, although most explanations of the time-error assume that the after-effect of intensities fade (diminish) in time, is it equally reasonable to assume that the after-effects of ex­ tensities (or sizes) fade also? In brief, how does the concept of a fading after-effect apply to size comparisons; is "fading", in the case of extensive stimuli equivalent to "shrinkage?" Limited information is provided by the studies using visual extents in that they did not investigate the time- error for varying interpolated intervals but determined it only for a single interval (eight seconds). It is not known, therefore, whether the time-error for this kind of stimulus varies systematically with changing interpolated interval* The only conclusion that might be drawn at present is that, for this kind of stimulus, there may not be a consistently negative time-error at 8-seoond interpolated interval. The "time-error function", as described in the experi­ mental literature, usually refers to the real or assumed relationship between the time-error and Interpolated inter­ val. Further study of the experimental literature dealing with the successive comparison of visual stimuli in a broader context, suggested that stimulus duration might be another important, if neglected, parameter of this kind of situation. The possibility was suggested by the results of these studies (£2,45) that the time-error might be a function of stimulus duration as well as of Interpolated interval. Also of in­ terest in this connection is the finding by Vada (44) that time-errors for auditory intensities vary systematically with 1 stimulus duration. The results of this experiment suggest that additional comparison could be made between extensive l7 this article has not been translated from the original Japanese. Information was obtained from an English abstract and from inspection of the tables in the Japanese text. 4 and intensive stimuli in.terms of stimulus duration as well as interpolated interval. The present study is concerned with the question raised by these considerations; namely, do time-error functions ex­ ist for extensive magnitudes similar to those previously found for intensive magnitudes? To answer this question, the present study was designed to investigate the successive com­ parison of the size of circles as a function of stimulus dura­ tion and interpolated interval. Further examination of the techniques and procedures used in the studies of the time-error for visual size indicates that the lack of consistency in the results may be partly due to a failure to deal adequately with such factors as aontrol of illumination, adaptation effects, practice effects and modes of presenting stimuli (e.g., projection vs. direct, background size, etc.). For this reason special considera­ tion was given in the present study to the design of equip­ ment and procedures in order to accomplish a greater measure of control over these factors than has been achieved in earlier studies.

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