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December 11, 1856.

General SABINE, R.A., V.P. and Treasurer, in the Chair.

The Chairman announced that the President had appointed the following gentlemen Vice-Presidents :

Major-General Sabine.

The Very Rev. The Dean of Ely.
William Robert Grove, Esq.

William Allen Miller, M.D. ·

Rear-Admiral Sir James Clark Ross.

Rear-Admiral William Henry Smyth.

The following communications were read:

I. "Observations made to ascertain the Specific Gravity of
Sea-water in the Northern and Southern Hemispheres."

By Rear-Admiral PHILIP P. KING, R.N., F.R.S. &c.
Received October 15, 1856.

(Abstract.)

The specimens of sea-water experimented upon were collected during the voyage of Her Majesty's Ship 'Adventure,' commencing at Rio de Janeiro, and from thence in succession to St. Catharine's, the River Plate, round the Falkland Islands to Cape Horn, and thence to Valparaiso; and during the ship's return from Valparaiso, through the Strait of Magalhaens to the River Plate and Rio de Janeiro. The series was then completed by the voyage to England.

From the author's observations it may be inferred that the density of the water of the Ocean is, very nearly, identical in all parts of the Atlantic between 40° North and 40° South latitude, the exceptions being due to local causes. Dry winds, by increasing the effect of evaporation, would naturally increase the density of the surface water, 2 A

VOL. VIII.

whilst on the other hand, winds charged with vapour would have but little effect; and a heavy fall of rain, particularly in equatorial parts of the Ocean, where the sea is so little disturbed, would very sensibly diminish it. It is also very sensibly less in the vicinity of the coast, particularly when the latter is of a shoal character, as is the case between the River Plate and the Strait of Magalhaens, where the whole extent is fronted by a bank having from 30 to 50 fathoms of

water.

The mean specific gravity of the water of the South Pacific, contained between the parallels of 10° and 40°, is 1026-48, and between 40° and 60° it is 1026.13.

The results obtained by the author are then compared with the following, viz.

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Observations made on board the Hamlet' in 1849, during a voyage from Sydney to England.

Observations made on board the Thomas Arbuthnot' in 1849 and 1850, during a voyage from England to Sydney.

Specific gravities of specimens of water collected by Captain J. Elphinstone Erskine, R.N., of Her Majesty's Ship ‘Havannah,' the Senior Officer on the Australian Station, during a visit to New Caledonia, the Loyalty Islands, and to those at the south-eastern end of the Solomon Islands.

Specific gravities of specimens of water collected by the late Captain Sir James Everard Home, Bart., R.N., C.B., of Her Majesty's Ship Calliope,' the successor of Captain Erskine in the command of the Station, who visited the Friendly and the Fidjee Islands.

Specific gravities of specimens of water collected by Mr. Simpson, who commanded a trading vessel between China and Sydney, from the Indian Ocean between the Strait of Sunda and the Latitude of 36° South.

II. "On the Existence of Silver in Sea-water." By FREDERICK FIELD, F.C.S. Communicated by MICHAEL FARADAY, Esq., D.C.L., F.R.S. &c. Received October 23, 1856.

In a paper first published by MM. Malaguti, Durocher, and Sarzeaud in the Annales de Chimie et de Physique,' xxviii. p. 129,

and translated in the Quarterly Journal of the Chem. Soc., vol. iii. p. 69, there is an account of the detection and estimation of silver in sea-water. The authors suspected the existence of the metal from the extensive diffusion of silver in the mineral kingdom, the conversion of its sulphide into chloride by the prolonged action of soluble bodies containing chlorine, and the solubility of chloride of silver in chloride of sodium. The method pursued was by passing sulphuretted hydrogen through large quantities of water, and also by fusing the salts obtained by evaporation with litharge and subsequent cupellation.

As a solution of chloride of silver in chloride of sodium is instantly decomposed by metallic copper, chloride of copper being formed and silver precipitated, it appeared to me highly probable that the copper and the yellow metal used in sheathing the hulls of vessels, must, after long exposure to sea-water, contain more silver than they did before having been exposed to its action, by decomposing chloride of silver in their passage through the sea, and depositing the metal on their surfaces. A large vessel, the 'Ana Guimaraens,' now under the Chilian flag, was hauled down in the Bay of Herradura, near Coquimbo, for the purpose of being repaired, and the captain obligingly furnished me with a few ounces of the yellow metal from the bottom of the vessel. The investigation was interesting, as the metal had been on for more than seven years (an unusually long period), and the ship had been trading up and down the Pacific Ocean all that time. The metal, upon examination, was found to be exceedingly brittle, and could be broken between the fingers with great ease. 5000 grs. were dissolved in pure nitric acid and the solution diluted; a few drops of hydrochloric acid were added, and the precipitate allowed to subside for three days. A large quantity of white insoluble matter had collected by that time at the bottom of the beaker. This was filtered off, dried, and fused with 100 grs. pure litharge and suitable proportions of bitartrate of potash and carbonate of soda, the ashes of the filter also being added. The resulting button of lead was subsequently cupelled, and yielded 2:01 grs. silver, or 1 lb. 1 oz. 2 dwts. 15 grs. troy per ton. This very large quantity could hardly be supposed to have existed in the original metal, as the value of the silver would be well worth the extraction. It is to be regretted that the captain had

none of the original on board. A piece of yellow metal with which he was repairing the vessel yielded only 0 oz. 18 dwts. to the ton. I was enabled by the courtesy of the captain of the 'Nina,' a brig which had just arrived in the Pacific from England, to obtain more satisfactory information. He gave me a piece of Muntz's yellow metal from his cabin, from the same lot with which the brig was sheathed, but which had never been in contact with salt water; and also a small portion from the hull of the ship after it had been on nearly three years. The experiments were performed as before, and the results were very striking.

grs.

1700 from cabin gave 051=003 per cent.=0

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19 14 per ton.

400 023

=7 13 1

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1700 from hull That which had been exposed to the sea having nearly eight times as much silver as the original sample.

Many other specimens were examined of metals from the bottoms of ships, and of pieces which are always kept on board in case of need, and it was invariably found that the former contained more silver than the latter. For instance, a piece from the hull of the 'Bergmann' gave 5 ozs. 16 dwts. 18 grs. per ton, while that from the cabin yielded 4 ozs. 6 dwts. 12 grs. 200 grs. from a piece from the hull of the 'Parga' gave '072 gr., and a piece of fresh metal 050; while from the Grasmere,' only coppered a few months, 610 grs. from the hull gave 075 and from the cabin 072,-a very slight difference indeed.

It will be observed that the amount of silver in the above specimens of fresh metal is very high, and it is probable that most of these are merely the re-rolling of masses of metal melted down from old sheathing, and have derived the greater part of their silver from the sea on former occasions. It is well known that the copper used in the manufacture of yellow metal is very pure, containing 2 or 3 dwts. of silver per ton, frequently not so much, and silver is very seldom associated with the other constituent, zinc. In order to arrive at more certain results, however, I have granulated some very pure copper, reserving some in a glass stoppered bottle, and suspended the remainder (about 10 ounces) in a wooden box perforated on all sides, a few feet under the surface of the Pacific Ocean. When occasion

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