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The Pallada had a displacement of 7,775 tons and was a sister s.h.i.+p of the Admiral Makarov and Bayan. She was launched in November, 1906, and had a water-line length of 443 feet; beam, 57 feet; draft of 21-1/ feet, and a speed of 21 knots. She carried two 8-inch, eight 6-inch, twenty-two 12-pounders, four 3-pounders, and two torpedo tubes. Seven inches of Krupp armor protected the vessel amids.h.i.+ps and four inches forward.
The Pallada was engaged in patrolling the Baltic with the Admiral Makarov when attacked by the submarines. She opened a strong fire on them, but was blown up by a torpedo launched by one of the submerged craft, while the Makarov escaped.
BRITISH CRUISER HAWKE SUNK
On October 15th, while the British cruisers Hawke and Theseus were patrolling the northern waters of the North Sea, they were attacked by a German submarine. The Hawke, a cruiser of 7,750 tons, commanded by Capt. H.P.E.T. Williams, was torpedoed and sank in eight minutes. Only seventy-three of her crew of 400 officers and men were saved.
BRITISH AVENGE AMPHION'S LOSS
Capt. Cecil H. Fox, who was in command of the British cruiser Amphion when she was destroyed by a German mine early in the war, had his revenge on October 17, when, in command of the cruiser Undaunted, he sank four German torpedo boat destroyers off the coast of Holland. Only 31 of the combined crews of 400 men were saved and these were taken as prisoners of war.
CHAPTER XVI
SUBMARINES AND MINES
_Battles.h.i.+ps in Constant Danger from Submerged Craft--Opinions of Admiral Sir Percy Scott--Construction of Modern Torpedoes--How Mines Are Laid and Exploded on Contact_.
Sir Percy Scott, admiral in the British navy, who through his inventions made possible the advance in marksmans.h.i.+p with heavy guns and increased the possibilities of hitting at long range and of broadside firing, said recently that everything he has done to enhance the value of the gun is rendered useless by the advent of the latest type of submarine, a vessel which has for its princ.i.p.al weapon the torpedo. Dreadnoughts and super-dreadnoughts are doomed, because they no longer can be safe at sea from the submarine nor find safety in harbors.
"The introduction of vessels that swim under water," he said, "has in my opinion entirely done away with the utility of the s.h.i.+ps that swim on top of the water. The functions of a war vessel were these: Defensively, [1] to attack s.h.i.+ps that come to bombard our forts, [2] to attack s.h.i.+ps that come to blockade us, [3] to attack s.h.i.+ps convoying a landing party, [4] to attack the enemy's fleet, [5] to attack s.h.i.+ps interfering with our commerce; offensively, [1] to bombard an enemy's ports, [2] to blockade an enemy, [3] to convoy a landing party, [4] to attack the enemy's fleet, [5] to attack the enemy's commerce.
"The submarine renders 1, 2 and 3 impossible, as no man of war will dare to come even within sight of a coast that is adequately protected by submarines. The fourth function of a battles.h.i.+p is to attack an enemy's fleet, but there will be no fleet to attack, as it will not be safe for a fleet to put to sea. Submarines and aeroplanes have entirely revolutionized naval warfare; no fleet can hide itself from the aeroplane's eye, and the submarine can deliver a deadly attack in broad daylight.
"In time of war the scouting aeroplanes will always be high above on the lookout, and the submarines in constant readiness. If an enemy is sighted the gong sounds and the leash of a flotilla of submarines will be slipped. Whether it be night or day, fine or rough, they must go out in search of their quarry; if they find her she is doomed and they give no quarter; they cannot board her and take her as prize as in the olden days; they only wait till she sinks, then return home without even knowing the number of human beings they have sent to the bottom of the ocean.
"Not only is the open sea unsafe; a battles.h.i.+p is not immune from attack even in a closed harbor, for the so-called protecting boom at the entrance can easily be blown up. With a flotilla of submarines commanded by das.h.i.+ng young officers, of whom we have plenty, I would undertake to get through any boom into any harbor and sink or materially damage all the s.h.i.+ps in that harbor."
A PRACTICAL MAN'S VIEWS
This is not a mere theorist or dreamer talking, says Burton Roscoe in commenting on Admiral Scott's statements; it is the one man in England most supremely versed in naval tactics, the man to whom all nations owe the present effectiveness of the broadside of eight, twelve and fourteen inch guns and the perfection in sighting long range guns.
The newest type of submarine torpedo is 100 per cent efficient. The torpedo net of steel that used to be the s.h.i.+p's defense against torpedoes is now useless. The modern torpedoes need only to come in contact with a surface like the torpedo net or the armor plate of a battles.h.i.+p to discharge a sh.e.l.l which will burst through a two-inch armor caisson, rupture the hull of a battles.h.i.+p, and sink it in a few minutes.
The torpedo submarines of the modern type have a submerged speed of from eight to ten knots an hour. Only a small surface, including the bridge or conning tower, is exposed, thus making it almost impossible to hit them with the clumsy guns aboard s.h.i.+p. The highest type of submarine has a submerged tonnage of 812 tons and its length is 176 feet.
Each submarine carries from one to six torpedoes, each of which is capable of sinking the most heavily armored vessel afloat. The sighter in the conning tower moves swiftly, up within range of the vessel he is attacking and gives the signal for the discharge of the torpedo. The men aboard the attacked s.h.i.+p have no warning of their impending death except a thin sheaf of water that follows on the surface in the wake of the submerged torpedo and which lasts only an instant.
RUN BY COMPRESSED AIR
By a compressed air arrangement motive power is furnished the torpedo in transit for its propellers. A gyroscope keeps it on a plane and upright.
A striker on the nose of the torpedo is released by a fan which revolves in the water. The nose of the torpedo strikes the side of the battles.h.i.+p and the compact jars the primer of fulminate of mercury. The high explosive of gunpowder forces out a sh.e.l.l and exploded with it after the sh.e.l.l has penetrated the armor. Then the work is done.
It is generally believed the princ.i.p.al harbors and fortifications in England are heavily supplied with torpedoes of the new type. It is also believed that the fortifications about the River Elbe are thus equipped.
If this is a fact the defending nation will be able not only to repulse any fleet attempting an invasion but also to destroy it. By throwing across the Straits of Dover, or across the lower end of the North Sea, a flotilla of its powerful submarines England can prevent any naval invasion of France or England or Belgium by Germany should the attacking fleet take this route.
In the latest type of submarine the United States is deficient. There are only twenty-nine submarines in the United States naval service at the present time and only eighteen under construction.
The old type of torpedo did not have penetrative power [Ill.u.s.tration: Cross section of Belgian Type of Fortress. The forts at Liege were of this type and long withstood the battering of the German guns.
This kind of modern fort was designed by the famous Belgian military engineer, General Brailmont. The strength of every such work must depend on the spirit of its garrison, and at Liege and Namur, the Belgian defenders gave a good account of themselves. These forts are provided with an elaborate system for repelling attempts to carry the works by a.s.sault and for making a counter-attack. There are land-mines, fired electrically from the forts, wire entanglements, disappearing guns, and search-lights to locate and blind an attacking enemy.]
[Ill.u.s.tration: Construction of Modern Torpedo, Showing All Important Parts, Including Engine, Propellers, Steering Gear, etc.] sufficient to sink the modern armor-clad battles.h.i.+p unless it struck under exceptionally favorable circ.u.mstances. A large percentage of the destructive power was expended on the outside of the hull. Commander Davis of the United States navy invented the torpedo that carries its power undiminished into the interior of the vessel.
CAN CUT TORPEDO NETS
The new torpedoes are provided with special steel cutters by which they cut through the strongest steel torpedo net. The torpedo has within it an eight-inch gun, capable of exploding a sh.e.l.l with a muzzle velocity of about 1,000 feet a second. The projectile carries a bursting charge of a high explosive, and this charge is detonated by a delayed-action fuse. When the torpedo strikes its target, the gun is fired and the sh.e.l.l strikes the outside plating of the s.h.i.+p. Then the fuse in the sh.e.l.l's base explodes the charge in the sh.e.l.l, immediately after the impact.
With a small fleet of these under-water fighting vessels--say of two or three--an invading or blockading fleet of not more than twenty men-of-war can be destroyed within an hour by an otherwise unprotected harbor or port.
Germany has a few of these latest style submarines, and if it can rush the construction of the thirty-one now being built, it will have a flotilla that will protect its harbor towns against invasion.
France, also with its fifty submarines and thirty-one under construction, and its great corps of scouting aeroplanes, will prove a formidable agent in crippling the activities of Germany's big fleet of dreadnoughts, armored cruisers and battles.h.i.+ps. Russia will need its twenty-five submarines for coast defense and probably will not send them out of the Baltic [or out of the Black Sea in the event that Italy is drawn into the conflict.]
Undoubtedly, then, the great battles in the present war, on the water at least, may be decided by these silently moving, d.i.n.ky sized, almost imperceptible submarines which carry the ever-destroying torpedoes. And the loss of lives will be more prodigious than ever.
SUBMARINE STRENGTH OF THE POWERS
Built Building.
Great Britain....................... 69 France.............................. 50 Russia.............................. 25 Germany............................. 24 Italy............................... 18 Austria............................. 6
SUBMERGED MINES--HOW THEY ARE LAID AND THEIR WORKING
The sinking of the light cruiser Pathfinder of the British navy by a German mine in the North Sea early in the war called special attention to the deadly character of the mines of the present day.
A modern mine-laying s.h.i.+p puts to sea with a row of contact mines on rails along her side, ready for dropping into the sea. The rails project over the stern. The essential parts of a special type of mine of recent design consist of (1) the mine proper, comprising the explosive charge and detonating apparatus in a spherical case; (2) a square-shaped anchor chamber, connected with the mine by a length of cable; (3) a plummet-weight used in placing the mine in position, connected with the anchor chamber by a rope. Thus the mine appears on the deck of the mine-laying s.h.i.+p before being lowered over the stern.
Before the mine goes over, a windla.s.s inside the plummet-sinker is revolved by hand until the length of cable between the plummet and the anchor-chamber has been reeled off equivalent to the depth below the surface at which the explosive mine is to float.
Then the entire apparatus is hove overboard. The plummet and anchor-chamber sink, while the spherical mine proper is kept on the surface for the moment by means of a buoyant air-chamber within. A windla.s.s in the anchor-chamber now pays out the cable between it and the mine as the anchor-chamber sinks. On the plummet touching bottom, the tension in the cable between it and the anchor-chamber is lessened, and the windla.s.s mentioned stops. The anchor-chamber thereupon sinks to the bottom, dragging down the spherical mine until that is at the selected depth ready for its deadly work.
CHAPTER XVII
AERO-MILITARY OPERATIONS
_Aerial Attacks on Cities--Some of the Achievements of the Airmen in the Great War--Deeds of Heroism and Daring--Zeppelins in Action--Their Construction and Operation._
During the first ten weeks of the war German airmen flew over Paris several times and dropped bombs that did some damage. Aeroplanes, not Zeppelins, were used in these attempts to terrorize the capital and other cities of France.
The early visits of Zeppelin airs.h.i.+ps to Antwerp have been described in a previous chapter. These were continued up to the time of the fall of Antwerp. While comparatively few lives were lost through the explosion of the bombs dropped, the recurring attacks served to keep the inhabitants, if not the Belgian troops, in a state of constant excitement and fear. When the city fell into German hands, a similar condition arose in England, where it was feared that Antwerp might be made the base for German airs.h.i.+p attacks on London and other cities of Great Britain; and all possible precautions were taken against such attacks. The members of the Royal Flying Corps were kept constantly on the alert; powerful searchlights swept the sky over London and the English coast every night and artillery was kept in readiness to repel an aerial invasion. Such was the condition in the third week of October.
BRITISH ATTACK ON DUSSELDORF
A new type of British aeroplane was developed during the war, capable of rising from the ground at a very sharp angle and of developing a speed of 150 miles an hour. And in their operations in France and Belgium the British army aviators proved themselves highly efficient and earned unstinted praise from Field Marshal Sir John French, in command of the British forces on the continent. One of their notable exploits was an attack, October 8, on the Zeppelin sheds at Dusseldorf and Cologne, in German territory. The attack was made by Lieut R.S.G. Marix, of the Naval Flying Corps, in a monoplane, and Squadron Commander Spencer Grey, with Lieut S.V. Lippe, in a biplane. Flying from Antwerp at a height of 5,000 feet, to escape the almost continuous German fire, Lieut.