Sixteen Experimental Investigations from the Harvard Psychological Laboratory, Hugo Münsterberg [top fiction books of all time TXT] 📗
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for the open space. In E the weight of each was 20 gr.,
making the total weight of the filled space 80 gr.
TABLE V.
6 Centimeters.
A B C D E
less = gr. less = gr. less = gr. less = gr. less = gr.
R. (a) 10 8 2 12 0 8 14 6 0 9 6 5 8 2 10
F. (a) 12 4 4 12 6 2 12 4 4 8 3 9 6 3 11
K. (a) 10 2 8 12 6 2 14 2 4 6 4 10 7 2 11
––— ––— ––— ––— ––—
32 14 14 36 12 12 40 12 8 23 13 24 21 7 32
TABLE VI.
8 Centimeters.
A B C D E
less = gr. less = gr. less = gr. less = gr. less = gr.
R. (a) 4 1 5 5 1 4 7 0 3 4 0 6 3 0 7
(b) 4 0 6 5 1 4 6 1 3 4 1 5 2 1 7
F. (a) 5 0 5 5 0 5 6 0 4 3 0 7 4 0 6
(b) 5 1 4 6 1 3 8 0 2 4 1 5 2 3 5
K. (a) 4 1 5 6 1 3 7 1 2 3 2 5 1 3 6
(b) 4 0 6 7 0 3 6 1 3 4 0 6 3 0 7
––- ––- ––- ––- ––-
26 3 31 34 4 22 40 3 17 22 4 34 15 7 38
TABLE VII.
12 Centimeters.
A B C D E
less = gr. less = gr. less = gr. less = gr. less = gr.
R. (a) 3 6 16 8 3 14 10 8 7 6 3 16 3 4 18
F. (a) 5 7 13 10 5 10 9 6 10 6 4 15 5 1 19
K. (a) 8 2 15 8 4 13 13 9 3 3 7 15 3 0 22
––— ––— ––- ––— –––
16 15 44 26 12 37 32 23 20 15 14 46 11 5 59
TABLE VIII.
18 Centimeters.
A B C D E
less = gr. less = gr. less = gr. less = gr. less = gr.
R. (a) 2 0 23 0 0 25 4 4 17 3 1 21 0 1 24
(b) 3 1 21 1 0 24 5 3 17 1 6 18 0 2 23
F. (a) 1 4 20 3 0 22 8 6 11 0 5 20 2 0 23
(b) 2 3 20 2 1 22 6 7 12 1 4 20 0 3 22
K. (a) 4 2 19 4 0 21 2 7 16 0 7 18 0 0 25
(b) 1 0 24 2 6 17 8 0 17 2 6 17 1 0 24
––— ––— ––— ––— ––—
13 10 127 12 7 131 33 27 90 7 29 114 3 6 141
TABLES IV.-VIII.
The first line in column A (Table IV.) signifies that out of 10
judgments, comparing an open space 4 cm., total weight 20 gr., with a
filled space of 4 points, total weight also 20 gr., the filled space
was judged less 7 times, equal 2 times, and greater once.
III.
The results of the investigation, thus far, point to the conclusion
that short filled spaces are underestimated, that long spaces are
overestimated, and that between the two there lies what might be
called an ‘indifference zone.’ This unexpected outcome explains, I
think, the divergent opinions of the earlier investigators of this
problem. Each theory is right in what it affirms, but wrong in what it
implicitly or openly denies.
I next set out to determine as precisely as possible how far the
factor of fusion, or what Parrish has called irradiation, enters into
the judgments. It was evident from the beginning of this whole
investigation that fusion or displacement of the points was very
common. The term ‘irradiation’ is, however, too specific a term to
describe a process that works in these two opposite directions. The
primary concern of these next experiments was, therefore, to devise
means for preventing fusion among the points before the subject
pronounced his judgment. With our apparatus we were able to make a
number of experiments that show, in an interesting way, the results
that follow when the sensations are not permitted to fuse. It is only
the shorter distances that concern us here. The longer distances have
already been shown to follow the law of optical illusion, that is,
that filled space is overestimated. The object of the present
experiments is to bring the shorter distances under the same law, by
showing, first, that the objective conditions as they have existed in
our experiments thus far are not parallel to those which we find in
the optical illusion. Second, that when the objective conditions are
the same, the illusion for the shorter distances follows the law just
stated.
In repeating some of the experiments reported in Tables IV.-VIII. with
varying conditions, I first tried the plan of using metallic points at
the ends of the spaces. Thus, by an apparent difference in the
temperature between the end points and the filling, the sensations
from the end points, which play the most important part in the
judgment of the length, were to a certain extent kept from fusing with
the rest. The figures in Table II. have already shown what may be
expected when the points are kept from fusing. Here, also, a marked
tendency in the direction of apparent lengthening of the distance was
at once observed. These short filled distances, which had before been
underestimated, were now overestimated. The same results follow when
metallic points are alternated with hard rubber points in the filling
itself.
This changing of the apparent temperature of the end points has, it
must be admitted, introduced another factor; and it might be objected
that it was not so much the prevention of fusion as the change in the
temperature that caused the judgments to drift towards overestimation.
I have statistics to show that this observation is in a way just.
Extremes in temperature, whether hot or cold, are interpreted as an
increase in the amount of space. This conclusion has also been
reported from a number of other laboratories. My contention at this
point is simply that there are certain conditions under which these
distances will be overestimated and that these are the very conditions
which bring the phenomenon into closer correspondence with the optical
illusion, both as to the stimuli and the subjective experience. Then,
aside from this, such an objection will be seen to be quite irrelevant
if we bear in mind that when the end points in the filled distance
were replaced by metallic points, metallic points were also employed
in the open distance. The temperature factor, therefore, entered into
both spaces alike. By approaching the problem from still another point
of view, I obtained even more conclusive evidence that it is the
fusion of the end points with the adjacent points in the short
distances that leads to the underestimation of these. I have several
series in which the end points were prevented from fusing into the
filling, by raising or lowering them in the apparatus, so that they
came in contact with the skin just after or before the intermediate
points. When the contacts were arranged in this way, the tendency to
underestimate the filled spaces was very much lessened, and with some
subjects the tendency passed over into a decided overestimation. This,
it will be seen, is a confirmation of the results in Table II.
I have already stated that the two series of experiments reported in
Section II. throughout point to the conclusion that an increase of
pressure is taken to mean an increase in the distance. I now carried
on some further experiments with short filled distances, making
variations in the place at which the pressure was increased. I found a
maximum tendency to underestimate when the central points in the
filled space were weighted more than the end points. A strong drift in
the opposite direction was noticed when the end points were heavier
than the intermediate ones. It is not so much the pressure as a whole,
as the place at which it is applied, that causes the variations in the
judgments of length. In these experiments the total weights of the
points were the same in both cases. An increase of the weight on the
end points with an equivalent diminution of the weights on the
intervening points gave the end points greater distinctness apparently
and rendered them less likely to disappear from the judgments.
At this stage in the inquiry as to the cause of the underestimation of
short distances, I began some auxiliary experiments on the problem of
the localization of cutaneous impressions, which I hoped would throw
light on the way in which the fusion or displacement that I have just
described takes place. These studies in the localization of touch
sensations were made partly with a modification of the Jastrow
æsthesiometer and partly with an attachment to the apparatus before
described (Fig. 1). In the first case, the arm upon which the
impressions were given was screened from the subject’s view, and he
made a record of his judgments on a drawing of the arm. The criticism
made by Pillsbury[6] upon this method of recording the judgments in
the localization of touch sensations will not apply to my experiments,
for I was concerned only with the relative, not with the absolute
position of the points. In the case of the other experiments, a card
with a single line of numbered points was placed as nearly as possible
over the line along which the contacts had been made on the arm. The
subject then named those points on the card which seemed directly over
the points which had been touched.
[6] Pillsbury, W.B.: Amer. Journ. of Psy., 1895, Vol. VII., p.
42.The results from these two methods were practically the same. But the
second method, although it obviously permitted the determination of
the displacements in one dimension only, was in the end regarded as
the more reliable method. With this apparatus I could be more certain
that the contacts were made simultaneously, which was soon seen to be
of the utmost importance for these particular experiments. Then, too,
by means of this æsthesiometer, all movement of the points after the
contact was made was prevented. This also was an advantage in the use
of this apparatus, here and elsewhere, which can hardly be
overestimated. With any æsthesiometer that is operated directly by the
hand, it is impossible to avoid imparting a slight motion to the
points and thus changing altogether the character of the impression.
The importance of this consideration for my work was brought forcibly
to my attention in this way. One of the results of these tests was
that when two simultaneous contacts are made differing in weight, if
only one is recognized it is invariably located in the region of the
contact with the heavier point. But now if, while the points were in
contact with the skin and before the judgment was pronounced, I gave
the lighter point a slight jar, its presence and location were thereby
revealed to the subject. Then, too, it was found to be an advantage
that the judgments were thus confined to the longitudinal displacement
only; for, as I have before insisted, it was the relative, not the
absolute position that I wished to determine, since my object in all
these experiments in localization was to determine what connection, if
any, exists between judgments upon
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