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solutions standardized according to the method would have found it necessary to take just described. Correct and constant results cognizance of the fact that the specific effects can only be obtained if such a method of of different ions on the physical properties of standardization is used.

gelatin (or possibly of proteins in general) Another error which permeates the lit- are repressed in the presence of an excess of erature of colloid chemistry is due to Hof- electrolyte. As far as the writer is aware meister's experiments on the influence of there is no disagreement between his results different ions on the swelling of gelatin. and views and those of Sörensen, though Hofmeister's experiments were all made in there is a difference in the method employed the presence of an excess of electrolyte, in and the nature of the protein used. which the specific effect of different ions can The writer's recent experiments seem to no longer be recognized. When we prepare indicate that the specific influence of the sodium and calcium gelatinates or gelatin nature of ions as well as the depressing effect chloride and gelatin sulfate according to the of an excess of electrolyte on the physical writer's method and put them into distilled properties of colloids are connected with the water we find that the sodium gelatinate electrification of water, and that this conswells considerably more than the calcium nection seems to be the same in the case of gelatinate and that the gelatin chloride swells crystalloidal and of colloidal solutions of considerably more than the gelatin sulfate of electrolytes. Since it would exceed the limits the same concentration of isoelectric gelatin of this note to discuss these observations, the and of hydrogen ions. If, however, we add reader interested in this feature of the neutral salt or alkali to the two solutions of problem is referred to the writer's publica, metal gelatinates or neutral salts or acid to tions on the subject in the current numbers the solutions of gelatin chloride and gelatin of the Journal of General Physiology and the sulfate the differences in swelling disappear Proceedings of the National Academy of since in all cases the swelling is repressed. Sciences.

JACQUES LOEB It is only necessary to add enough electrolyte THE ROCKEFELLER INSTITUTE so as to make the solution M/4 or even less FOR MEDICAL RESEARCH, to completely mask the differences. The

NEW YORK writer feels therefore justified in stating that if we wish to compare the effect of different

THE AMERICAN CHEMICAL SOCIETY. ions on the physical properties of gelatin we

II must avoid the error of adding an excess of electrolyte to the solution.

F. 0. Taylor, Chairman A writer& in Nature has raised the ob

George D. Beal, Secretary jection that Sörensen's experiments on the A new field of phytochemical research opened up osmotic pressure of egg albumin were done by the cultivation of medicinal plants on a semiin the presence of ammonium sulfate, but he economical scale: Edw. KREMERS. overlooks the fact that Sörensen's experi- Some of the characteristic toxic principles of ments? were not concerned with the com- western poisonous plants : 0. A. BEATH. parison of the effect of different ions on the

A comparison of several methods for estimating

quinine and strychnine when occurring in the same osmotic properties of egg albumin. If it had

solution: A. R. BLISS, JR. been Sörensen's intention to compare the

Quantitative determination of mercury: Sigosmotic pressure of albumin chloride with

MUND WALDBOTT. Precipitate the mercury from dithat of albumin sulfate or of sodium albumi- lute solution completely on copper foil, dry and nate with that of calcium albuminate he weigh the latter, then expel the mercury by hold

ing the foil above a flame until the gray film has 8 Nature, 1919, CIV. (September 4), 15.

7 Sörensen, S. P. L., Compt. rend. trav. Lab. 8 Loeb, J., J. Gen. Physiol., 1918–19, I., 717; Carlsberg, 1917, XII.

1919-20, II., 87.


just disappeared, then weigh the foil again. The difference in weight is due to the volatilized mercury. In one instance, 99.83 per cent. of Hg was recovered from HNO, solution.

The U. S. P. assay of Donovan's solution: SiGMUND WALDBOTT. The U. S. P. assay of a certain well-prepared Donovan solution gave far too low results in mercuric iodide contents. Preliminary experiments indicated that the two-fold step in the U. 8. P. determination of mercury involved some loss. A simple method for the determination of mercury in Donovan's solution is proposed, as follows: Precipitate 25 c.c. of Donovan's solution with excess of freshly prepared ammonium sulphide solution, decant and filter through a double filter, wash, dry at 100° C. and weigh, the two filter papers being previously counterpoised. Two determinations gave satisfactory results.

The theory of emulsion making: W. D. Ban

This paper



Robert Spurr Weston, Chairman

W. W. Skinner, Secretary Determination of iodid and bromid in mineral waters and brines: W. F. BAUGHMAN and W. W. SKINNER.

The determination of bromid and iodid in mineral waters and brines: H. H. WILLARD and C. C. MELOCHE. The iodid is oxidized to iodate by adding to the neutral solution of salts a considerable excess of permanganate and boiling for a moment. The solution is cooled, a small amount of hydrochloric acid is added, more than enough to liberate all the bromin and a current of air passed through the hot solution to remove all bromin which is collected in sodium hydroxide, reduced to bromid, precipitated as mixed silver chlorid and bromid, fused, weighed, fused in chlorin and weighed again. From the loss in weight the amount of bromin is calculated. The residue in the retort is treated with alcohol to reduce the excess of permanganate, and the manganese dioxide filtered off. To the filtrate potassium iodid is added then excess of acid, and the iodine liberated is titrated with thiosulfate.

The removal of colloidal silicic acid and clay from natural waters: OTTO M. SMITH.

A study of well water in a rural community: G. O. HIGLEY. This study was begun because of the fact that the death rate from typhoid in Delaware County was 25.2 per 100,000 of population, as against 6.9 for Cuyahoga County (Cleveland) and

3.9 for Hamilton County (Cincinnati). The writer with assistants personally visited about 675 homes, noted the condition of the well and surroundings, talked with the people, emphasizing especially the danger if human excreta finds entrance into well water, and took a sample of water in a sterilized bottle for analysis. The tests made were the lactose broth and the chlorid tests.

About 40 per cent. of the water from dug wells was found polluted. As the eastern half of the county is underlain with shale, and the western half with limestone it was thought that the degree of pollution of well water might be found markedly different in the two sections; however the work is still too incomplete to warrant any report on this point.

Field methods for the chlorination of small amounts of water: F. R. GEORGIA, describes conditions of water supply prevailing in the area occupied by the First Depot Division in France. Various methods and devices are described and illustrated for the continuous chlorination of small supplies of water. Some of these devices were constructed in the field from materials at hand. The Lyster bag for water sterilization is described and methods for its use and control are discussed. Tabulations of the bacteriolog. ical results obtained are given.

The electrostatic precipitation of dust as applied to the sanitary analysis of air: J. PENTEADO BILL. An apparatus was devised for producing a rectified alternating current of about 20,000 volts. The collector is a 12-inch piece of aluminum tubing, 21 inches in diameter, through which air is drawn by a motor at the rate of 273 cubic feet per hour. Seventy-one tests, each of one hour's duration, were made with this apparatus and a Palmer water spray sampler in the various buildings and departments of a large plant making rubber goods. The following determinations were made for each test: Relative and absolute humidity, barometric pressure, weight of total sediment in 50 c.c. sample of 100 c.c. aqueous suspension of particles collected in both machines, weight of organic and inorganic fractions of each 50 c.e. sample, the weight of the aluminum collector be. fore testing, with its accumulated dust charge, and with the dust portion still retained after rinsing out to make up a 100 c.c. aqueous suspension. Counts were made on each suspension. The high tension weight figures were reduced to figures comparable with the rate of air passage through the Palmer machine. The resulting figures when compared with the weight figures of the Palmer determinations, together with a comparison of the

counts made on both Palmer and high tension suspensions, showed, on a percentum basis, that the Palmer apparatus collected 59.9 per cent. of total particles counted in the high tension suspensions, 63.3 per cent. of the total sediment, 66.6 per cent. organic portion, and 55.2 per cent. inorganic portion collected by the electrical machine. Based on total sediments collected per 240 cubic feet of air in each process whose air was sampled, the Palmer collected 63 per cent. of the amount retained by the electrical method. The conclusions are that the Palmer apparatus under similar conditions is 61.6 per cent. as efficient as the electrical method (average of above figures). The electrical apparatus used is too bulky for ordinary field work, and suggestions are made for its simplification. It is felt that the findings warrant further study of the electrical precipitation method as applied to the sanitary analysis of air.



W. E. Henderson, Chairman

W. A. Patrick, Secretary The vapor pressures of mercury in the range 120° to 250° : ALAN W. C. MENZIES. Two McLeod gauges containing dry hydrogen over pure mercury were connected with the same pressure reservoir. One of the gauges was raised to the desired temperature and both gauges then operated simultaneously. The vapor pressure of mercury was calculated from the difference, due to mercury vapor, of the pressure readings given by the hot and the cold gauges respectively.

The vapor pressure of tetranitromethane : ALLAN W. C. MENZIES. These measurements covered the range 40° to 126°, thus including the solution of War Problem No. 142 of the National Research Council. The entropy of vaporization of this liquid appears to be normal.

Production of hydrochloric acid from chlorine and water: H. D. GIBBS.

Opening up minerals with phosgene: CHARLES BASKERVILLE. The bleaching of ferruginous silicous bricks by the action of phosgene in plants where that poisonous 'gas was manufactured has been noted. The useful application of this method of conversion of iron oxides into volatile ferric chloride, with a bleaching, for glass-sand, was suggested by Hulett. Phosgene under the influence of heat is very reactive at temperatures of 450° C. and above. We have converted oxides of aluminum and cerium, insoluble in acids, oxides of zirconium and thorium, insoluble in acids except

boiling concentrated sulphuric acid, directly into water soluble chlorides or oxy-chlorides. Bauxite and carborundum yield ferric and aluminum chlorides. Zirconium chloride has been distilled from zircon (silicate), ferric chloride from the contaminating iron being fractioned away due to its greater volatility. The silica remains behind. Thorianite yields soluble thorium and uranium chlorides, The procedure is very simple. The pulverized material is heated in a quartz tube in a stream of gaseous phosgene. It is proposed to extend the work to a large number of the rareearth minerals.

The preparation of colloidal gold and silver by new reducing agents: HARRY N. HOLMES. Phase rule studies of the nitrotoluenes: C. H.

JR. Compression by adsorption: WILLIAM D. HARKINS and D. T. EWING.

The work done by the attraction between a mercury surface and the surface of an organic substance : W. D. HARKINS, E. H. GRAFTON and D. T. EWING,

The change of molecular kinetic into molecular potential energy: WILLIAM D. HARKINS and L. E. ROBERTS.

The separation of yttrium from the erbium earths: P. H. M. P. BRINTON and C. JAMES.

A new method for the determination of zirconium: M, M. SMITH and C. JAMES.

The effect of lead upon thorium nitrate in aqueous solution : FANNY R. M. HITCHCOCK.

An electrometric study of the neutralization of monocalcium phosphate: GERALD WENDT, A. H. CLARKE and S. M, WEISMAN.

The existence of an ozone form of hydrogen: GERALD L. WENDT and Rob. S. LANDAUER.

Action of thiosulfate on arsenate in acid solution: GEO. SHANNON FORBES and O. J. WALKER. Thiosulphate in excess precipitates As,S, from HzAso, in HCI (Vortmann, 1889). We combined reactants, varying one concentration at a time, and plotted S,Oz/H,AsO, against HCI/H,AsO. for incipient precipitation, Given one concentration constant, any curve has a horizontal part along which 8,03/H,As0,=k=2, meeting a nearly vertical part when HCI/H,As0,=2. This indicates a complex, H,AsO,(HS,03)", but its average hydrogen content decreases with increasing S,O''s. Trithionate, with thiosulphate, accompanies As,S, along the “vertical" lines. 2H,AsO (HS,O)," + 6HS,O

= AS,S+ 58,06" + 8H,0.

Pentathionate, with sulphite, accompanies As So along the horizontal lines. 4H. + 28,0," + 8,0" = 8,00" + 250, + 2H20.

Specifio heat determinations with an adiabatic calorimeter: FARRINGTON DANIELS and CHARLES B. HURD.

The partition of metallic radicals between a salt phase and an alloy phase: HERBERT F. SILL.

The retention of bromine by silicic acid gel: W. A. PATRICK and E. L. RYERSON.

Determination of the viscosity of pyroxylin 80lutions : E. F. HIGGINS and E. C. PITMAN.

A slide rule for special cases: F. C. BLAKE.

Adsorption by precipitates. (II.), the adsorption of anions by hydrous ferric oxide: HARRY B. WEISER and EDMUND B. MIDDLETON.

The physical character of hydrous ferric oxide: HARRY B. WEISER.

Flame reactions of selenium and tellurium: HARRY B. WEISER and ALLEN GARRISON.

The catalyst in the oxidation of ammonia: G. A. PERLEY.

Equilibria in the systems: carbon disulfide, methyl alcohol and carbon disulfide, ethyl alcohol: E. C. McKELVY and D. H. SIMPSON. The mutual solubility relations of the two pairs of liquids were determined over practically the whole range of concentrations paying particular attention to the purity of the materials used. The following values were obtained for the critical solution temperature and the critical concentration: for methyl alcohol-carbon disulfide + 35.7°, 84.7 per cent. CSZ; for ethyl alcohol-carbon disulfide 24.4°, 82.7 per cent. CS2; applications to the determination of small quantities of water in the alcohols and the analysis of anhydrous methyl and ethyl alcohol mixtures were pointed out.

cated that these salts all form an isomorphous series but the crystallographic measurements showed that only the cobalt, nickel and manganese salts are isomorphous, while the copper salt belongs to a different system. The formulas of all four fluorides are of the same acid fluoride type: MF3.5HF.6H,0. It was surprising to obtain the acid fluoride by recrystallization from water, a basic salt being expected under these conditions. These acid fluorides are not permanent in the air but decompose, losing hydrogen fluoride and, in the case of copper, losing water also, so that the cry. stals used for analyses must be carefully selected. The formation of a hydrated, non-crystallized crust is distinct from that of the hydrated acid fluoride crystals. In this crust the ratio of metal to fuorine, for the cases of cobalt and nickel, was found to be about one to two, with varying water con. tent. This crust differs from the crystals in solu. bility and form, as well as in composition. We have arrived at the conclusion that the crust de. scribed by Berzelius as containing two molecules of water, the crust later described by Clarke as containing three molecules of water, and the crust and powder obtained by us are the same, the water content being variable and the crystal form being undeveloped. All were obtained in the same manner.

The determination of mercury: H. B. GORDON.

The preparation and uses of Tiči, solution: F. L. ENGLISH and H. S. TANNER.

Contrasting effects of sulfates and chlorides on the hydrogen ion concentration in acid solutions: A. W. THOMAS and M. E. BALDWIN.

Chromophor tautomerism in indicators: WILLIAM C. ARSEM.


Secretary (To be continued)

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Notes on the estimation of nitrates and nitrites in battery acids : LILY BELL SEFTON.

A metal to glass joint and some of its applications : E. C. McKELVY and C. S. TAYLOR.

Fluorides of cobalt, nickel, manganese and copper: F. H. EDMISTER and H. C. COOPER. The fluorides of cobalt, nickel, manganese and copper can be prepared by dissolving the hydroxide or the carbonate of the metal in hydrofluoric acid, the same product being obtained, whichever is used. In all cases a crust-like product was obtained. By recrystallizing from water, slightly acidulated with hydrofluoric acid, crystals of the acid fluorides were formed and analyses and measurements of these crystals were made. The analyses indi

A Weekly Journal devoted to the Advancement of Science, publishing the official notices and proceedings of the American Association for

the Advancement of Science

Published every Friday by THE SCIENCE PRESS LANCASTER, PA.

GARRISON, N. Y. NEW YORK, N. Y. Entered in the post-office at Lancaster, Pa., us second class matters





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In the past few years, and particularly during the war, research in connection with industry has had much consideration. Most of our large technical societies have devoted sessions to its discussion and have listened to admirable papers on the subject. I hope not to retraverse the ground thus covered. In this audience the vital importance of research to our technical industries would not need arguing even if it had not been amply argued. In these discussions research has been considered as something to be carried on in large well-organized laboratories, and for that reason possible only for large companies, for associated companies managing a cooperative laboratory or for government laboratories and the like. I believe that this way of thinking of research unnecessarily restricts it, and that differently conceived its usefulness to small as well as large establishments would become evident and might result in its large extension.

The various activities covered by such titles as “Research, Development and Technical Control” are those which should be assumed by a research department in a small business. In order to avoid a cumbersome name for such a department, I want to make a plea for a definition of technical research which some of you may think degrading. Doubtless you are accustomed to thinking of research as an adventure into the realms of the absolutely unknown. A department capable of research in this sense will only be possible in a small business when that business happens to have in it a real scientist. But every technical business (and what manufacturing business is not technical?) is continually confronted with the need of more information than is possessed by its regular staff in regard to processes, characteristics of materials, etc., and if it is to develop realizes that it must find new fields for

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