222
PHYSICS: STE WART AND MORROW
PROC. N. A. S.
MOLECULAR SPACE ARRAY IN LIQUID PRIMARY' NORMAL ALCOHOLS: THE CYBOTAC...
29 downloads
274 Views
206KB Size
Report
This content was uploaded by our users and we assume good faith they have the permission to share this book. If you own the copyright to this book and it is wrongfully on our website, we offer a simple DMCA procedure to remove your content from our site. Start by pressing the button below!
Report copyright / DMCA form
222
PHYSICS: STE WART AND MORROW
PROC. N. A. S.
MOLECULAR SPACE ARRAY IN LIQUID PRIMARY' NORMAL ALCOHOLS: THE CYBOTACTIC STATE By G. W. STIwART AND ROGIR M. MORROW PHYSICAL LABORATORY, UNIVERSITY OF IOWA
Communicated March 15, 1927
For more than a decadel the X-ray circular diffraction halo in liquids has been known. Doubtless numerous times the suggestion has been made2 that there is in the liquid a spacial arrangement of molecules, probably as fragmentary crystals. But definite evidence of such a structure has been lacking. The authors, with the assistance of Mr. Wm. D. Crozier, have investigated by means of MoKa X-radiation the liquid primary normal alcohols from ethyl to lauryl and have obtained the following: 1. There are two significant distances determined by diffraction intensity peaks. 2. One of these distances remains fairly constant varying from 4.6 A with lauryl, C,1H,=(OH), to 4.4 A with butyl, C4H9(OH), and then decreasing more rapidly to methyl, CH3(OH), 3.8 A. 3. The other distance varies linearly with the content of CH2 in the molecule, the variation for each such addition being approximately 1.54 A. The distance for lauryl is about 22 A. 4. The evidence leads to the conclusion that the latter distance is occasioned by the length of the chain molecule and the former by the distance of separation of molecules perpendicular to the chain. 5. From computation of density and from the polarity of the compound, one finds that two OH polar groups appear to unite, making a chain two molecules in length, and that the planes containing these groups are not perpendicular to the chains. 6. The addition of each CH2 lengthens the molecule by approximately 1.3 A, which is the same order as crystalline C distances,. and is in agreement with .the similar experiments of Muller and Saville3 and earlier observers on solid long chain hydrocarbons. The above interpretation of separation of chains and relative positions of heads, is in agreement (within the error of our experiment) with the calculations of Adam,4 .who found the area of cross-section occupied by each sa-turated fatty acid chain on the surface of water was 21.0 X 10-16 cm.2, and this is equal to (4.58 X 10-8)2 cm.2 In the experiments the peak width was over 30 whereas the width for the same radiation diffracted from a crystal was about 0.40. The experiments indicate clearly a definite space array. Comparisons of peaks in liquid and solid state at approximately the same temperatures show that the computed spacings are not the same. The space array in
VOiL. 13, 1927
PHYSICS: C. BAR US
223
the liquid is not crystalline, but is one in which molecular mobility is permitted and the resulting peaks represent the most probable spacings. A name is proposed for this non-crystalline, space-array state. The noun is cybotaxis and the adjective cybotactic. This conception of the liquid state gives a description of a "solution" and contributes to various theories in connection with liquids. The experiments and discussion will soon be published in full. 1 Debye and Scherrer, Nachr. Gesell. Gottingen (1916), p. 6. 2
3 4
Vide Hewlett, Phys. Rev., 20 (1922), p. 688 and others. Muller and Saville, Journal Chem. Soc., 127 (1925), p. 599. Adam, Proc. of Roy. Soc. (1921), (1922), (1923).
PINHOLE PROBE MEASUREMENTS WITH MASSIVE CYLINDRICAL AIR COL UMNS* By CARI BARUS DUPARTMINT OF PHYSICS, BROWN UNIVZRSITY Communicated March 8, 1927
1. Introductory.-After completing the work with the broad horn of my last paper,' similar experiments were made with a long slender horn (40 cm. long) and with cylindrical tubes (28 cm. long, 2.8 cm. diam.). The results in the former case are too complicated to be given here. In the latter (tube), the nodal pressure-capacity (s, C) graphs of the transformer (electric oscillation) consisted of a group of nearly straight and parallel lines, running close together, so long as the pinhole lay below the middle (d = 14 cm.) of the tube. After this (d = 15 cm. to 0) the slopes decreased rapidly. There were no marked crests, but rather noise increasing continuously with the capacity, C, or falling pitch. The break circuit (electric siren) graphs, however, showed the usual cuspidal crests (here at a', e", a") with long intervals of relative silence between. As far as the middle of the pipe, the crests were about of the same nodal intensity, s. Hence these data accentuate the results already described for the horn. In the s-d graphs, the a' and a" crests lay at about d = 7 cm. and near the bottom, while the e" crest was marked near the middle d = 15 cm. of the pipe. From this it appears both the a' and a" of the motor break (siren) evoke the first overtone a" of the d' closed organ pipe; whereas in the case of the e", the pipe with a telephone plate at one end vibrates as an open organ pipe with a node near the middle. 2. Extensible Pipe.-Since there are three vibrating systems in the transformer method, two of them should be made adjustable if the third is given, to obtain the largest acoustic pressure values (s). An extension