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maximum, it did not even complete the one transit as a spot group, but merely as a faculic area.

Now this particular disturbance was presently accompanied by quite a number of others, which passed through similar stages of rapid growth, and in some cases of decay. Thus the southern activity belt, which had just previously been decidedly quiescent, showed within a few days no fewer than five distinct outbreaks extending over a longitude of some 140° or less (June 16), to which yet another was added by June 21, while in north latitude we had some four outbreaks, amongst which two formed the largest then on view. The simultaneous eruptive paroxysms witnessed from June 13 to June 24 were so numerous that to me it appears utterly futile to endeavour to link a particular magnetic disturbance during those days with any of these scores of violent commotions. With such a multiplicity of intensely active foci scattered over the sun's disc all that can be safely claimed is to point to an undoubted abnormal magnetic terrestrial condition coincident with an abnormally active sun.

In NATURE for July 15 you give an interesting report of a fine aurora having been seen by Prof. Barnard at Yerkes Observatory in the night of June 16-17. Mention has also been made of a sudden magnetic disturbance as early in that month as June 7, by Dr. Chree, but I see no report from these two observers as regards a very fine auroral display which a trustworthy Canadian observer has reported to have taken place late in the evening of June 12. The same Canadian observer also witnessed the display of the evening of June 16, and there can be therefore no confusion of dates. I wish to lay emphasis on the auroral display of the night from June 12-13, because it practically coincided with the explosive development of a spot-outbreak near the east limb, which I witnessed in the early morning hours of June 13. The Greenwich (and other) photographs will bring the proof of the quite unprecedentedly quick development and decay of that particular solar outbreak, which reached a stupendous magnitude within less than two days in an abnormally low latitude, and accompanied by a display of activity, as witnessed through the spectroscope, of an intensity rarely seen. ALBERT ALFRED BUSS. Barrowdale," 22 Egerton Road, Chorltoncum-Hardy, Manchester, July 18.


Cement for Polarimeter Tubes.

IN NATURE of February 25, 1915, was printed a letter from me requesting suggestions for a cement suitable for fastening the end discs of polarimeter tubes in such a way as to resist the action of organic liquids at high temperatures. Several gentlemen kindly wrote to me privately making useful suggestions, and it may perhaps be of value to someone else engaged upon similar work if I mention briefly what these suggestions were.

tine and acetic acid is also used as a cement, but : what extent it is resistant I do not know.

Another ingenious method of making a good join... due, I understand, to Prof. W. Ostwald, was reoce mended to me, curiously enough, by M. le docte Dolne, of Liège, a visitor amongst us on account c the war. By covering the centre of the disc wr wax, and then immersing in an ammoniacal silvering solution, an annulus of silver is deposited on the disc, where it would come in contact with the ent of the tube; the ends of the glass tube are treated similarly. Alternatively a deposit of platinum-black may be produced by moistening with platinum chloride solution and subsequent heating. The disc. are then placed in position, the tube filled with suitable silver or gold solution, one of these metais being then deposited electrolytically on the surface, already silvered, or platinised, until the joint has become perfectly tight. The only question whic might arise in regard to this seal is that, on heating. the different expansion of the glass and the meta might possibly cause leakage.

As the resisting power of most of these cements could not be definitely guaranteed by their suggesters, and the investigation of them all would constitute practically a research in itself, I followed the line of least resistance, and have tried, in the first place, a commercial preparation, “Cæmentium," recommended to me by Dr. J. R. Henderson, of the Royal Technical College, Glasgow. This is prepared by the Camen tium Co., Ltd., Tanner Street, Bermondsey, London. Two tubes cemented with this material have stood well so far, resisting the action of boiling water and of some organic liquids up to temperatures of about 150°. A third broke down in the same circumstances, but was perhaps not properly cemented. I propose to try some of these other cements as occasion may require. In the meantime, any readers of NATURE seeking for such a substance may find amongst these suggestions one likely to be suitable for his particular purpose. I should like, in conclusion, to thank the gentlemen who have so kindly assisted me with their proposals. T. S. PATTERSON. Organic Chemistry Department,

University of Glasgow, July 15.

Experiment on Sunset Colours.

EVERYONE is more or less familiar with the coloured halo around a light when viewed through a bedewed window, and the streaks of colour which a cloud of vapour presents in a strong light. The purity of colour in the diffraction halo depends essentially on the uniformity of size of the condensed droplets, and

Mr. O. L. Brady, of the Imperial College of Science, proposed fused silver chloride. Mr. Wm. Doran, Liverpool University, describes a zinc oxychloride cement, and another made by mixing a thick mucilage of gum acacia with calomel. Dr. Pickard suggests litharge and glyceric acid, but adds "that there seems to be some trick in regard to its application." Mr. Thomas Steel, of the Colonial Sugar Refining Co., Sydney, N.S.W., in a letter which the editor has forwarded to me, describes a preparation he has used for many years for cementing glass tubes into metal holders, etc. A soft putty is made of litharge and glycerine, and used just like plaster of The cylindrical surface of a tin can A was wrapped Paris, allowing about sixteen hours for setting. The closely with a sheet of thick blotting paper and sup hard-set compound resists water, oil, or alcohol, and ported in an upright position. A board B about 2 ft. is quite air-tight." I believe that a mixture of gela-square, with a central hole in it, was fitted over the

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the same remark may be applied to a cloud or mist. It occurred to me that the colours of a mist or cloud could be made more brilliant and extensive by controlling in some way the motion and distribution of the differently sized suspended droplets. I have accomplished this partially by the following apparatus.

can in a horizontal position. Narrow strips of wood were nailed to the edges of the board to form a shallow ridge. One of these strips C was made adjustable. The blotting paper was moistened with water, and this was evaporated by blowing steam through the water in the can. The water vapour at a temperature of about 80° will stream steadily upwards from the surface of the can and flow over the board in an undulating cloud, separated from the surface of the board by a thin transparent layer of uncondensed vapour. On illuminating the cloud with a nearly horizontal beam of sunlight S, large patches of gradually changing colour appear when the eye E is directed slightly upwards towards the lower surface of the board. The beam of sunlight should be adjusted so that it just fails to illuminate the surface of the board, and the colours are best seen when this surface is blackened. The air around the board should also be quite undisturbed. These colours rival in brilliancy those to be seen on soap films, and present the features of sunset colours. It appears, then, that some of the brilliancy and extensiveness of. sunset colours is due to a quiescent state or regular motion of the clouds or mist at sunset, and also to a distribution into layers of droplets of nearly uniform size. F. W. JORDAN. South-West Polytechnic, Chelsea, S.W.

Non-Poisonous Character of Nitroglycerin. WITH regard to the dose of nitroglycerin referred to in the notice of a book in NATURE of July 22 (p. 560), it may be useful to have the facts correctly stated. The reference was clearly to a passage in the Extra Pharmacopoeia" (sixteenth edition, vol. i., P. 527), in which I say :-" An employé in the author's laboratory (1905) ate a piece of the nitroglycerin mass weighing about 2 oz., mistaking it for ordinary chocolate. A bad headache supervened, necessitating his lying down, but he was at work again on the following


The "mass" in question is composed of nitroglycerin with chocolate in the proportion of 1/100 grain in 2 grains; the amount of nitroglycerin consumed therefore by the predatory individual on that occasion was approximately 3 grains.

May I add that the young man was a German apprentice of mine, and that his exclamations in halfbroken English, to the effect, "Mein Gott, I shall die, I shall die!" as he gavotted round the laboratory waving his arms about, were the cause of some mirth to bystanders. As things have turned out he possibly has died by now from the effects of nitroglycerin employed in another way.

Considering the powerful vasodilator action of this and allied drugs (the late Prof. Leech determined that the circulation is distinctly affected by even 1/1000 grain of nitroglycerin), it is of interest to realise to what a remarkable extent they are tolerated. Single doses of 5 grains and daily doses of 20 grains have been administered medicinally with safety, according to the Brit. Med. Jl., Epitome ii., 1905, p. 52. Has any one of your readers any knowledge of higher amounts having been taken?


10 New Cavendish Street, London, W.

MR. MARTINDALE's extremely interesting letter supplies the clue as to how anyone could mistake nitroglycerin for chocolate, but as the book referred to gives no reference and omits the word "mass" after nitroglycerin, the ordinary reader will gain a somewhat confused idea as to the toxic action and characteristics of nitroglycerin. THE REVIEWER.

The Principle of Similitude.

IN NATURE of March 18, Lord Rayleigh gives this formula, h=kao. F(avc/k), considering heat, temperature, length, and time as four "independent" units. If we suppose that only three of these quantities are "really independent," we obtain a different result. For example, if the temperature is defined as the mean kinetic energy of the molecules, the principle of similitude allows us only to affirm that h=ka0.F(v/κа2,сa3). D. RIABOUCHINSKY.

Aerodynamic Institute, Koutchino.

Structure of Hailstones.

WITH reference to the particularly violent hailstorm which passed over S.E. London on Saturday afternoon, July 24, I observed at Woolwich that the hailstones, apart from being very large, had a common shape and structure which may perhaps be worth recording. All the stones examined were either oval or pear-shaped, but not of uniform size; the broad half consisted of clear ice, while the other half was uniformly opaque or closely stratified with alternate layers of clear and opaque ice. S. L. ELBOrne.

77 West Park, Eltham, S.E., July 26.


AT the recent meeting of the Society of Chemical Industry held at Manchester, Mr. W. F. Reid is reported to have made the statement that nitrated cotton is not a high explosive, though every chemist knows that it is the typical high explosive. The fact that certain newspaper

writers have differentiated between nitrated cotton and nitrated benzene or toluene, or any other coaltar derivative, has nothing to do with the differentiation of a high explosive (which is of itself nitrated, and contains within itself sufficient oxygen to allow of its explosion) and those mechanical mixtures, such as gunpowder, which have been now superseded. A letter from Sir William Ramsay published in the Times of July 19 makes all these matters perfectly plain, and no I was responsible person would dispute them. present in the House of Lords when Lord Charnwood brought his statement before that House, and I also heard the rest of the debate, including the answer of the Marquess of Crewe. House, consisting of those who are necessarily laymen so far as their chemical knowledge is concerned, found some difficulty in following the arguments as to whether any substitute for cotton could be effectively used.


To the chemist the matter is perfectly plain, and it has been stated with some degree of precision in an article which appeared in NATURE of July 1. It is true, and has been admitted from the very start of what is now known as the "Cotton Campaign," that some form of nitrated cellulose can be made from anything which contains cellulose. There is not the slightest difference of scientific opinion on this matter, and every competent chemist will concur with what I say, but in practical matters things stand on a totally different footing. There must not only be a regularity of the supply of material, but there must be uniformity of quality; and, in the article already referred to, this point has been made tolerably

clear. It is by no means taking too high a position to state that, unless such uniformity is certain, the task of any works' manager will be so heavy and the risks which he will encounter so great that his factory will be endangered. Quite apart from this, even supposing he surmounts such obstacles, the material which he will produce will be markedly inferior to that which he can make in the ordinary course of his business. It has been quite rightly pointed out by people of expert knowledge and authority that the ballistics on which artillerists' calculations are based are demolished by any alteration in his charge. Sir William Ramsay is perfectly right in showing, not only that the pointing and therefore the sighting of the gun must be altered, but also that the chamber in which the explosive is fired must be enlarged if any form of nitro-cotton inferior to the standard material is used; and it is quite conceivable that the weight of the projectile and the pitch of the grooving would also have to be changed. Without going too closely into such highly technical matters, it can be said with full confidence that the gunner would have his trade to learn again, and this can scarcely be done in the midst of a war.

Many references have been made to the use of substitutes for cotton in the manufacture of nitro

cellulose, but they are all of a somewhat academic kind. As has been stated above, no one doubts that such things can be used, but it is a sort of misapplied ingenuity which seeks to find sources of cellulosic materials; such ingenuity would be quite thrown away on a practical maker. There is one possible danger, due entirely to the laxity of the control of the import of cotton at the beginning of the war; it is that between August 4 and the present date the German chemists have been sedulously endeavouring to utilise some such materials. Eleven months, now nearly twelve, is enough even for a German chemist to make some progress; and it may be that a nitro-cellulose of a sort may be being made in Germany now from material other than cotton. The fact remains, however, that the Germans are eagerly buying cotton, and are doing their utmost to obtain more than their legitimate share of the new crop which should be on the market in a month or two.

There is much truth in the statements which have been made in many periodicals in the Times on several occasions and in the Engineer a good many months ago-to the effect that we English people have been a little too modest. Because of the great flood of genius which governed the German nation somewhere in the middle of the last century, and gave us those deathless names, Bunsen, Kekulé, Liebig, Meyer, and others, and because some of our present chemists of the highest rank were trained under these great men, the ordinary British public nas been obsessed with the idea that chemistry is a German science. A very little knowledge of the history of chemistry would show that such a mistake is almost childish. Our French friends have claimed that chemistry is a French science, but those of us


who have read the work of Robert Boyle or have studied the work of Priestley, Cavendish, Berzelius, know very well that chemistry is cosme politan. The arrogance of German soldiers has been reflected in a similar arrogance of Germa chemists; and those eminent in our land whos names it would be impertinent to recite, as we as such of our colleagues now living, whether Scandinavian or Dutch, to whom again it wouk | be improper to refer, have their own opinion as to the correctness of any claim by German chemists to a prerogative in science.

To return to the question of cotton, I think there is not the slightest doubt among those whose opinion is of value that raw cotton or cotton waste is absolutely essential for the produc tion of a satisfactory propulsive explosive; and this view has been accepted by responsible statesmen in both Houses. Personally, investigations of this question through commercial channels have convinced me that this is a fact, and I am perfectly prepared to maintain it against anyone who claims an equal authority. BERTRAM BLOUNT.

THE WAR AND CHEMICAL INDUSTRY. N the occasion of the annual meeting of the Society of Chemical Industry, of which an account appeared in NATURE of July 22, there was a notable change in the character of its business as compared with that of previous annual gatherings. We learn from Prof. Henderson's presidential address that, in the opinion of the society's council, too much of the time which the meeting extends had hitherto been de voted to purely social functions, and that in the past no sufficient advantage had been taken of the opportunity afforded by such an assemblage of technologists to lecture them on matters which superior persons might hold to be for their general good. No doubt the council, like the rest of us, is impressed with the seriousness of the strenuous and critical times in which we are living. Whatever semblance of frivolity may have hitherto characterised these annual gatherings obviously would be out of place on the present occasion. Accordingly, with the co-operation of the Manchester section, a special programme was ar ranged which should at once be "topical" and illustrative of the good resolutions of the council.

Whether their hopes and wishes have been wholly realised may be open to doubt. Four special papers, in addition to the president's address, were presented for the consideration of the members. Naturally, since so much has been said during the past ten or eleven months concerning the relations, immediate and proximate, of applied chemistry to the war, and to matters arising, directly or indirectly, out of it, it was almost inevitable that this comprehensive subject should be the dominant feature of the communications. Prof. Henderson, as might be expected, could not refrain from some reference to a feeling of disappointment that fuller use had not been

made of the society's desire to be of national service. It is regrettable on all grounds that the scientific resources of the nation have not been systematically utilised by the Government. Some help, he admitted, has been rendered, but more, he thought, might have been done by a more efficient organisation-say, by the creation of a "central body" which should have the duty on the one hand of keeping in intimate touch with the Admiralty, the War Office, and the Ministry for Munitions, and on the other of referring to the societies representative of the different branches of pure and applied science the questions with which each is particularly fitted to deal. How far this conception of a scientific clearinghouse differs essentially from that which has actually been set up by the Royal Society is not, however, very clear.

Naturally, too, Prof. Henderson bemoans our backsliding as regards the position and future prospects of our chemical industries:

We have been made to realise more clearly than ever before that during the last forty years chemical industry in Germany has made marvellous strides in advance, whilst in this country it has by comparison stood still or even gone back. We have to admit that certain branches of applied chemistry, particularly the manufacture of dyestuffs, of synthetic drugs, and of organic compounds and fine chemicals in general, have passed almost wholly out of our hands, or rather have never been taken up to any notable extent in this country.

As to the real reasons for German progress and British backwardness there is little doubt, in Prof. Henderson's mind. He shares the conviction of Profs. Perkin and Meldola that it is due partly to our failure to realise that "scientific research work, carried out in the laboratory, is the soul of industrial prosperity," and partly to

the mutual aloofness and reserve of manufacturers and teachers. But, whatever may be the true causes, Prof. Henderson is emphatically of the opinion of most sensible men that it is about time we cut the cackle and came to the 'osses "-or, as he prefers to put it, "that we shall refrain from talk and proceed to action." "Let us admit frankly that we have left undone many things which we ought to have done, and, having confessed our sins, let us unite in striving to secure the future prosperity of our industries."

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We might well apply this injunction to certain papers which followed the president's address. Of them it may be said they were Vox, et praeterea nihil. The author of one paper bewails our proneness to label-worshipping, and the "stupid confusion" which paralyses "a bewildered public in its efforts to distinguish the chemist, properly although not legally so called, from the pharmacist or apothecary. He tilts against the system under which our schools and colleges are governed, considers that teachers are "victimised. by the principle of the hole-and-corner," and is of opinion that appointments should be made by the candidates making the selection themselves. Another author tilts against everybody and everything in general-whatever is, is wrong, is


the refrain of his paper-English education and English life, the British public, the Board of Trade and the War Office, Home Office, the the Local Government Board in particular, the Government of course, collectively; lawyer-politicians as a class, with special reference to the late Lord Chancellor and Lord Moulton of Bank for interfering in matters with which they had no concern; Oxford and the Royal Society and the general body of men of science-all alike come in for cavil, censure, and condemnation. Even the society he was addressing "needs to wake up." It "must intervene actively in the promotion and protection of chemical industry." In spite of what others regard as more than thirty years of creditable activity, the members were told it has been "almost supine hitherto," and has "allowed others to tinker with matters which primarily should be its concern. No doubt the somnolent members, when they did wake up, rubbed their eyes in hopeless wonderment as to who had been poaching upon their preserves. But they were probably reassured when they learned that it was only the deputation, "nominally representing the Royal and Chemical Societies academic parpoliticians"--who recently waited upon the Presi ties in science" and "first cousins to the lawyerdents of the Boards of Trade and Education, and so presumably they went comfortably to sleep again.

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It is one of our national characteristics that we rather enjoy self-depreciation, and that we have a good-humoured toleration of the critic who reminds us of our national shortcomings. But something depends upon how it is done. The implied reproof, to begin with, must be intrinsically just and merited. If it is so recognised, it adds

to its effectiveness when administered with a certain delicacy and restraint of statement. But no useful purpose is served by reckless assertion and indiscriminate blame, declaimed in exuberant philippic.



It is a relief to turn to the paper by Dr. Beilby on chemical engineering, and to that by Sir W. H. Lever copartnership in chemical industries; for it is papers like these that are of real use to us at the present juncture. According to Dr. Beilby our "colleges have two distinct functions to perform, and it is best that this should be clearly recognised; first, to allow the future leaders in applied science to come naturally to the top during their training; and secondly, to prepare a large number of welltrained professional men for the organisation and development of industry." He fears that the making of practical chemists has suffered severely from the fallacy that all students ought to aim at being pioneers in some branch of their science.

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futile, it is positively mischievous, for it raises an ideal which for the ordinary man is quite inappropriate during his preparation for a life of serious practical endeavour." The remarkable development of chemical industry in Germany has resulted much more from the large command of chemists and engineers of sound professional training and ability than from the possession also of an even larger supply of research chemists of mediocre ability.

Sir William Lever's paper is a weighty contribution to what is at the present crisis a very serious problem. One of the most distressing features of the times is the widespread unrest in the labour world concerning the division of the profits arising from the remarkable activity of certain industries connected with the war. So far it has not extended to any marked extent to the chemical industries, probably because these are not subjected to the same disturbing influences as, say, the coal-miners. But Sir William Lever's paper is a timely account, judicious, impartial, and dispassionate, of the working of a system which is pursued with signal advantage and success in the great organisation which he controls, and as such it may be commended to the thoughtful consideration of all employers of labour.


MR. A. R. HINKS, secretary of the Royal

Geographical Society, described at a recent meeting of the society the work which has been carried out, and is still in progress, on a map on the scale 1/1,000,000. It is well known that, before the outbreak of war, conferences of representatives of the principal Powers had met in London and Paris, and had come to an agreement as to the production of a map on this scale, to cover ultimately all lands, on a uniform projection and with uniform methods of representation, etc. A few sheets had been produced in various countries. They were scattered, in some instances imperfect and not available in any quantity, and in any event useless to meet even partially the necessity which was felt, almost at the outset of the war, of a map to cover uniformly Western and Central Europe and Asia Minor and adjacent areas affected by military operations. Even for Europe no such map existed, and it was necessary, in taking a broad view of the operations, or for any such purpose as that which will ultimately become of prime importance, the tracing of boundaries, to pass at certain points from maps of a particular scale and method to others totally different in every respect. People are prone to comment that the scale 1/1,000,000 (nearly 16 miles = 1 inch) is too small even for such general purposes, but it is not so. It allows the representation of important places, railways, roads and boundaries, rivers, and elevation by means of contour lines, either alone or in conjunction with layer colours.

Such a map, then, was undertaken by the Royal Geographical Society under the direction of the Geographical Section of the General Staff. The society's responsibility has extended to the compilation of construction drawings from the materials available on the spot, while the engraving and reproduction is being carried out by the Ordnance Survey Department. Methods have been used which, if slightly rough, have allowed of high speed, and a number of the sheets are already on the market in a preliminary issue. The work at the society's house has been done by Mr. Hinks and a number of volunteer fellows, all more or less accustomed to map-compilation, with the assistance of certain external advisers and a few trained draughtsmen.

Despite the possibilities for error which are inseparable from work done thus rapidly and without access to local information at the moment

possibilities which were frankly discussed by Mr. Hinks-there can be no question that a valuable and important task has been accomplished. Much experience has been gained. In certain respects the methods laid down at the international conferences have been improved upon. Two of the most important departments in which the work marks a real scientific advance are (1) the solid endeavours which have been made to overcome the immense difficulties of regularising the spelling of place-names in Central and Near Eastern Europe; (2) the contouring of the maps, which, in the same localities, often represents a reasoned collation of very imperfect sources, and the application to the data thus obtained of what may be called topographical sentiment of a high order. The systems of transliteration and hints as to pronunciation are indicated, where necessary, on the maps themselves. The work of compiling the physical outlines and contours has enabled a proper value to be set on many of the wellknown official and other maps; notably it has resulted in the detailed criticism of the great Austrian staff map of 1/750,000, which does not emerge triumphantly from this test.

It is to be hoped that on the solid foundation of preliminary work thus laid will be raised, after present exigencies have been met, a structure of permanent value to geography generally; these maps should ultimately be revised and executed by the best methods, excellent as the present results are for the time being.


THERE is no falling off in the stream of work which comes from Prof. Jacques Loeb's laboratory in the Rockefeller Institute, from which we have now before us some ten or a dozen papers, mostly by Prof. Loeb himself, all published since the beginning of last year. the beginning of last year. They deal with various subjects in that field of comparative physiology, or dynamical biology, which Loeb has so diligently reaped as well as sown. Most of them are concerned with one or other of three topics, the phenomenon of heliotropism, the in

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