. Carnegie Institution of Washington publication. COMPLEX NEURAL ARCS. 99 measurements make it smaller. When the spring and the current are carefully adjusted the latency of the break may be even less than The total latency of the Harvard signal without friction is not over This seems to be constant within the errors of measurement for currents such as were used in our experiments. We were particularly gratified at this showing of the Harvard marker. We started to use it because of its availability. We continued to use it because of its excel- lence. From these various records of
. Carnegie Institution of Washington publication. COMPLEX NEURAL ARCS. 99 measurements make it smaller. When the spring and the current are carefully adjusted the latency of the break may be even less than The total latency of the Harvard signal without friction is not over This seems to be constant within the errors of measurement for currents such as were used in our experiments. We were particularly gratified at this showing of the Harvard marker. We started to use it because of its availability. We continued to use it because of its excel- lence. From these various records of the latency of our apparatus, it appears that the actual latency of the word-reactions will really be about 37 a less than the recorded value. This total error, however, will vary from word to word, but will be relatively constant for similar initial sounds. The instrumental variation is much smaller than the unit. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Carnegie Institution of Washington. Washington, Carnegie Institution of Washington
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