Battleships in World War II

World War II saw the end of the battleship as the dominant force in the world's navies. At the outbreak of the war, large fleets of battleships—many inherited from the dreadnought era decades before—were one of the decisive forces in naval thinking. By the end of the war, battleship construction was all but halted, and almost every remaining battleship was retired or scrapped within a few years of its end.

Some pre-war commanders had seen the aircraft carrier as the capital ship of the future, a view which was reinforced by the devastating Pearl Harbor attack in 1941. The resultant Pacific War saw aircraft carriers and submarines take precedence. There were just two engagements in the Pacific Theater when battleships fought each other, and only three such engagements in the Atlantic. Instead, they were used to add to fleet air defense, for shore bombardment, and in several cases as fixed port defense batteries.

Battleships remained the most heavily protected ships afloat; nonetheless, sixteen were sunk or crippled by bombs or torpedoes delivered by aircraft, while three more were sunk by submarine-launched torpedoes. The war also saw the development of the first guided bombs, which would make it much easier for aircraft to sink battleships in the future.

Operations
The German pre-dreadnought battleship SMS Schleswig-Holstein fired the first shots of World War II with the bombardment of the Polish garrison at Westerplatte; and the final surrender of the Japanese Empire took place aboard a United States Navy battleship USS Missouri (BB-63). Between the two events, it became clear that battleships were now essentially irrelevant, and aircraft carriers were the new principal ships of the fleet.

Still, battleships played a part in major engagements in Atlantic, Pacific and Mediterranean theatres. In the Atlantic, the Germans experimented with taking the battleship beyond conventional fleet action, using their fast battleships as independent commerce raiders. Although there were a few battleship-on-battleship engagements, battleships had little impact on the destroyer and submarine Battle of the Atlantic, and aircraft carriers determined the outcome of most of the decisive fleet clashes of the Pacific War.

In June 1940 GERMAN BATTLESHIP Scharnhorst and GERMAN BATTLESHIP Gneisenau surprised and sank the lightly escorted aircraft carrier HMS Glorious off western Norway This engagement marked the first and last time surface gunnery sank a fleet carrier. In the Attack on Mers-el-Kébir, British capital ships opened fire on the French battleships harboured in Algeria with their own heavy guns, and the fleeing French ships were then pursued by planes from aircraft carriers.

Taranto and Matapan
In late 1940 and 1941, a range of engagements saw battleships attacked by carrier aircraft.

The first example of the power of naval aviation was the British air attack on the Italian naval base at Taranto that took place on the night of 11–12 November 1940. A small number of Royal Navy aircraft attacked the Italian fleet at harbour, succeeding in sinking one Italian battleship and damaging two others.

Importantly, the attack forced the Italian navy to change tactics and seek battle against the superior British Navy, which resulted in their defeat at the Battle of Cape Matapan. In that battle, British carrier-deployed torpedo bombers damaged an Italian battleship sufficiently to force it to withdraw from the main force, and then at night British battleships sank the Italian force's three heavy cruisers.

Scharnhorst class
The  Scharnhorst class were the first capital ships, alternatively referred to as battlecruisers or battleships, built for Nazi Germany's Kriegsmarine after World War I. The class comprised two vessels: the lead ship GERMAN BATTLESHIP Scharnhorst and GERMAN BATTLESHIP Gneisenau. Scharnhorst was launched first, and so she is considered to be the lead ship by some sources; however, they are also referred to as the Gneisenau class in some other sources, as Gneisenau was the first to be laid down and commissioned. They marked the beginning of German naval rearmament after the Treaty of Versailles. The ships were armed with nine 28 cm (11 in) SK C/34 guns in three triple turrets, though there were plans to replace these weapons with six 38 cm (15 in) SK C/34 guns in twin turrets.

The battleship war in the Atlantic was driven by the attempts of German capital ship commerce raiders to influence the Battle of the Atlantic by destroying convoys supplying the United Kingdom and later the Soviet Union. The superior numbers of British surface units devoted themselves to protecting the convoys, and to seek-and-destroy missions against the German ships, assisted by both naval and land-based aircraft and by sabotage attacks. Scharnhorst and Gneisenau conducted successful raids during Operation Berlin. While attempting to attack Arctic Convoys, Scharnhorst was sunk at the Battle of North Cape by a British force of destroyers, cruisers, and the battleship Duke of York. Gneisenau was bombed while in dry dock and never repaired.

Bismarck class
Germany's next two capital ships were the GERMAN BATTLESHIP Bismarck and the GERMAN BATTLESHIP Tirpitz, armed with eight 38 cm (15 in) SK C/34 in twin turrets. On 24 May 1941, during its attempt to break out into the North Atlantic as a commerce raider, Bismarck engaged the British battleship HMS Prince of Wales (53) and the battlecruiser HMS Hood (51). Due in part to the Bismarck's superior range-finding and accuracy, it soon sank Hood with an apparent hit to her magazines. Bismarck and Prince of Wales hit each other three times, the damage compelling Prince of Wales to withdraw and Bismarck to call off its commerce raiding operation, as part of its fuel reserve had been contaminated with salt water. While the Bismarck was heading for St. Nazaire, the Royal Navy continued to hunt it, and eventually an attack by Swordfish biplane torpedo bombers from the aircraft carrier HMS Ark Royal (91) disabled Bismarck's rudder and significantly reduced her speed. This enabled two Royal Navy battleships (HMS King George V and HMS Rodney), cruisers and destroyers to close in for the kill.

Tirpitz was positioned in Norway to attack Arctic Convoys, but never managed to engage any ships and was sunk in port by British bombers.

Normandy
Both British and American battleships participated in the Allied invasion of Normandy during Operation Overlord, being used to bombard German coastal defences. Battleships proved instrumental in destroying the heaviest and most inland fortifications that could not be neutralised by smaller warships such as destroyers due to their lesser firepower and range and which aircraft were less efficient at reducing due to frequent cloud cover and poor visibility in the English Channel. Additionally, the presence of Allied battleships effectively inhibited the movement of German reinforcements along the French coastline because of the suppressive potential of their main batteries. Battleships also proved their continued worth as vessels of sea control by deterring the sortie of the remaining heavy German warships into the North Atlantic during the operation.

The Pacific battles
In many of the crucial battles of the Pacific, for instance Coral Sea and Midway, battleships were either absent or overshadowed as carriers launched wave after wave of planes into the attack at a range of hundreds of miles. The primary tasks for battleships in the Pacific became shore bombardment and anti-aircraft defense for the carriers. The two largest battleships ever constructed, Japan's Yamato-class battleship, which carried a main battery of nine 18.1-inch (460 millimetre) guns were designed to be a principal strategic weapon, but Yamato fired her main guns in only one engagement, while Musashi never fired her main guns in an engagement. They were hampered by technical deficiencies (slow battleships were incapable of operating with fast carriers), faulty military doctrine (the Japanese waited for a "decisive battle", which never came), and defective dispositions (as at Midway).

Pearl Harbor
Before hostilities broke out in the Pacific Theatre, extensive pre-war planning centered around dreadnoughts. The Royal Navy could not achieve parity with the estimated nine Japanese capital ships in Southeast Asia, since doing so would leave only a handful of ships to use against Nazi Germany. However, Prime Minister Winston Churchill was optimistic about the improving situation in the North Atlantic and Mediterranean and allocating two ships to the defense of Singapore was seen as a compromise. Furthermore, the U.S. Navy later agreed to send its Pacific Fleet with its eight powerful battleships to Singapore in the event of hostilities with Japan.

On 7 December 1941 the Japanese launched a surprise attack on Pearl Harbor. Five out of eight U.S. battleships were quickly either sunk or sinking, with the rest seriously damaged (of those sunk two were total losses). The Japanese thus neutralized the U.S. battleship force in the Pacific by an air attack and showed the vulnerability to air attack of warships lying at anchor, as at Taranto. The loss of the battleships led the US Navy to rely on aircraft carriers as capital ships to make counterattacks against the Japanese, such as the Doolittle Raid in April 1942, and to engage Japanese naval forces at the Battle of the Coral Sea in May 1942 and the Battle of Midway in June 1942.

The sinking of the British battleship HMS Prince of Wales (53) and her escort, the battlecruiser HMS Repulse (1916), further demonstrated the vulnerability of a battleship to air attack, in this case while at sea without air cover. Both ships were on their way to assist in the defense of Singapore when Japanese land-based bombers and fighters found and sank them on 10 December 1941. Prince of Wales had the unwanted distinction of being the first modern battleship sunk by aircraft while underway and able to defend herself.

Midway
Commonly understood as a victory of carriers, Midway showed up deficiencies in Japanese operational planning. Yamamoto, considering his battleships the most valuable units, kept them far to the rear, in line with traditional practice. This placed them too far away to assist Nagumo (and they would have been too slow to keep up with him in any case). Yet, when Nagumo's carriers were sunk, Yamamoto lost an opportunity to salvage something. Carriers, for all their evident potency, were virtually defenseless at night, and Fletcher might have been dealt a crushing blow by Yamato the night of 6–7 June, had Yamamoto stayed closer.

Guadalcanal
Initially, when the U.S. entered the war in December 1941, none of the nine Pacific Fleet battleships were available. One was being overhauled at Puget Sound Navy Yard from June 1941 until March 1942. Of the eight at Pearl Harbor, two were total losses and six had been sunk or crippled and were sent to West Coast shipyards for repair and reconstruction. With a top speed of only 21 knots, they would not have been able to keep up with the fleet carriers in any case. The new fast battleships of the North Carolina-class battleship and South Dakota-class battleship (1939) were still undergoing trials. North Carolina and South Dakota were ready by summer of 1942 and provided anti-aircraft defense during the Eastern Solomons and Santa Cruz Islands carrier battles.



By contrast, the Imperial Japanese Navy had the advantage of a dozen operational battleships early in the war, but chose not to deploy them in any significant engagements. The two Fusō-class battleship and two Ise-class battleships, despite their extensive modernization and respectable speeds, were relegated to training and home defense, while the two Nagato-class battleship and two Yamato-class battleship were being saved due to fuel limitations for a "decisive battle", which never came. In fact, the only Japanese battleships to see much action in the early stages were the four Kongō-class battlecruisers, which served mostly as carrier escorts due to their high speed and antiaircraft armament. U.S. fast battleships North Carolina and USS South Dakota (BB-57) were available after the Battle of Midway and played key roles in defending U.S. carriers against air attacks, though North Carolina was temporarily put out of action by JAPANESE SUBMARINE I-19, which was credited with sinking USS O'Brien (DD-415) escorting her.

During the later part of the Guadalcanal campaign in fall 1942, Japan and the U.S. were both forced to commit their battleships to surface combat, due to the need to carry out night operations, and because of the exhaustion of their carrier forces. The Japanese used battleships a single time for shore bombardment, sending JAPANESE BATTLESHIP Kongō and JAPANESE BATTLESHIP Haruna against Henderson Field. In the most successful Japanese battleship action of the war, this action killed 41 defenders and put the airfield out of action for about 12 hours. During the First Naval Battle of Guadalcanal, battleships JAPANESE BATTLESHIP Hiei and JAPANESE BATTLESHIP Kirishima attempted a second bombardment of Henderson Field but were driven off by a force of U.S. cruisers and destroyers. Several USN ships were lost and others were crippled, but they inflicted critical damage on Hiei, which was abandoned after being subject to repeated air attacks that made salvage impossible. The following evening, at the Second Naval Battle of Guadalcanal on 15 November 1942, the United States battleships USS South Dakota (BB-57) and USS Washington (BB-56) fought and defeated a bombardment force centered around Kirishima. Although South Dakota was incapacitated early on by a faulty circuit breaker and suffered moderate damage, Washington's accurate radar-directed fire fatally crippled Kirishima.

Leyte Gulf
By the time of the Battle of the Philippine Sea in 1944, heavy aircraft losses had left the Japanese carrier fleet ineffectual and forced the Japanese to finally commit their dreadnoughts, both old and new, to the upcoming Leyte Campaign. The objective in this "decisive battle" was to stop the Allies from capturing the Philippines, which would cut off the Japanese oil supply and render their navy useless.

In the Battle of Leyte Gulf, two Japanese battleship forces converged on the American landing forces at Leyte Gulf. The Center Force of five fast battleships attacked from the north; the Southern Force of two slower old battleships attacked from the south. In the Battle of the Sibuyan Sea on 24 October 1944, the Center Force came under attack by American aircraft and JAPANESE BATTLESHIP Musashi, sister ship to Yamato, was sunk long before she could come within gun range of the American fleet. At the Battle of Surigao Strait early on 25 October, the Japanese Southern Force which included the battleships JAPANESE BATTLESHIP Fusō and JAPANESE BATTLESHIP Yamashiro encountered a force including six American battleships (five of them raised and repaired from Pearl Harbor), led by Admiral Jesse Oldendorf of the U.S. Seventh Fleet. Fusō was sunk by torpedoes from US destroyers before the opposing battleships fired. Yamashiro was hit by the US battleships and retired without being able to fire on them. After the battleships had ceased fire she was sunk by a torpedo fired by a US destroyer. This engagement marked the last time in history when battleship faced battleship.

In the Battle off Samar later on 25 October 1944, the remaining four powerful battleships of the Center Force, JAPANESE BATTLESHIP Yamato, JAPANESE BATTLESHIP Kongō, JAPANESE BATTLESHIP Haruna and JAPANESE BATTLESHIP Nagato and their cruiser escort, surprised and attacked the seemingly much weaker American task force "Taffy 3", consisting of destroyers, destroyer escorts, and escort carriers. American destroyers and aircraft attacked the battleships, enabling Taffy 3 to disengage and forcing the Center Force to withdraw, This battle marked the only time Yamato engaged enemy ships with her primary or secondary batteries.

Japanese Coast
During July and August 1945 several American battleships and HMS King George V conducted naval bombardments of several Japanese coastal cities. These attacks targeted major factories as well as the cities' harbors and nearby rail infrastructure.

Soviet and Finnish battles
During the Soviet-Finnish Winter War, the Soviet battleships Marat and Oktyabrskaya Revolutsiya made several attempts to neutralize the Finnish coastal batteries to facilitate a full naval blockade. The Soviets inflicted little damage on the Finnish positions, and the defenders hit back, claiming at least one hit on Marat.

During the German assault on the Soviet Union, the Soviet battleships served as convoy escorts during the evacuation of Tallinn, and as floating batteries during the siege of Leningrad. The dense German and Finnish minefields and the submarine nets effectively restricted Soviet traffic in the Gulf of Finland, forcing the larger vessels to remain at port. The German Stuka pilot Hans-Ulrich Rudel eventually sank Marat at her moorings on 23 September 1941. Still, the vessel was able to serve as a battery for the remainder of the siege. The Soviets later refloated Marat and both it and Oktyabrskaya Revolutsiya served until the 1950s.

Fire support
With the German capital-ship raiders sunk or forced to remain in port, shore bombardment became the focus of Allied battleships in the Atlantic. It was while covering the Allied invasion of Morocco that the USS Massachusetts (BB-59) fought and disabled Vichy French battleship FRENCH BATTLESHIP Jean Bart on 27 October 1942. Six battleships came together as part of Operation Neptune, in support of the D-Day landings in June 1944. D-Day also saw the deliberate sacrifice of two old dreadnoughts (FRENCH BATTLESHIP Courbet and HMS Centurion (1911)), which were scuttled as part of the breakwater around the Allied Mulberry harbours.

Aerial defense


The sinking of Prince of Wales and Repulse off the coast of Malaya in 1941 demonstrated that even the most modern battleships could not hold off aerial attacks without decent aerial defenses. The British HACS fire control system had been rendered inoperable by the extreme heat and humidity of the Malaya tropical climate, and the anti-aircraft artillery had managed to shoot down only a handful of attackers.

An aircraft carrier's combat air patrol proved to be the most effective form of defense against enemy bombers. Nonetheless, a modern fast battleship could provide point defense against attackers that broke through the fighter screen. The North Carolina and South Dakota demonstrated just that in the battles of the Eastern Solomons and Santa Cruz Islands, respectively, with North Carolina downing between 7 and 14 planes, while South Dakota shot down between 26 and 32. The battleships' presence was crucial during these engagements in 1942, as the U.S. were still months from being able to realize their material advantage, with too few planes and ships to interdict enough of the skilled Japanese pilots. No American battleships were lost or seriously damaged by aerial attacks in open seas in World War II. By 1944, Admiral Raymond A. Spruance had arrayed his forces in a complex defense formation. The first line of protection was a radar-vectored combat air patrol, and any attackers who managed to get through would face anti-aircraft fire from a line of screening battleships and cruisers. This exacted such a heavy toll on the Japanese during the Battle of the Philippine Sea that they failed to cause any significant damage to their main targets, the aircraft carriers. The most damage that the Japanese caused was a bomb hit on South Dakota which caused many casualties but did little damage to the battleship.

AA guns
At the outbreak of World War II, most battleships had large anti-aircraft batteries. The battleships used the same light AA guns (the Allies used autocannons such as the Bofors 40 mm gun and Oerlikon 20 mm cannon) as those on smaller ships, but in greater number. The later development of proximity fuses and radar vastly increased the effectiveness of these batteries.

Post–World War I battleships, particularly British and American, had discarded single purpose secondary batteries mounted in casemates used to engage surface targets in favour of turret-mounted dual purpose secondary batteries (5-inch or 6-inch caliber). Secondaries were initially designed to deal with rushing destroyers and torpedo boats, but there arose a need for heavy anti-aircraft armament as the potency of aircraft grew, particularly dive bombers and torpedo bombers. The rationale was that it is unlikely that a battleship would be simultaneously facing both destroyers and aircraft, but it would take up too much space to have separate types of guns to deal with both threats. Both weapons had similar calibers and so they could be merged into a single battery type, and the turret mountings were less susceptible to flooding and had a better firing arc than casemates. The space saved from combining the two types of guns added to simplification of supply, increased deck armor coverage, stowage of other equipment, more light anti-aircraft batteries, and other needs.

The Nelson-class battleship, incorporating many concepts from the G3 battlecruiser, was the first design to include a dual-purpose secondary battery, useful against both surface and airborne attacks. Compared to light AA they had a slower rate of fire, but they had a greater range and sufficient punch to knock enemy planes out of the sky. This proved a crucial defense against Japanese kamikazes in the latter years of World War II. They could also fire into the sea to create waterspouts that slapped low-flying torpedo bombers with tonnes of water. Battleships could mount many more of these DP batteries than cruisers or carriers.

German vessels such as the Bismarck class possessed dedicated secondary anti-ship batteries as well as dedicated heavy anti-aircraft batteries, rather than adopting the dual-purpose secondaries like the British or Americans. Bismarck for instance had a battery of twelve 5.9 in cannon and another sixteen 4.1 in battery was mounted to deal with air threats. The cannon could be used against ships only, as they could not be elevated to fire on high-level targets. This tended to complicate ammunition supplies, take up more space, and reduce the numbers of both guns (reducing the anti-ship or anti-aircraft broadside). The Imperial Japanese Navy suffered similar problems to the Germans', as their secondaries were too slow to track aircraft.

The Japanese even used the "San Shiki" (the Beehive) Model 13 anti-aircraft shell for the main gun armament of the Yamato-class battleships, which would have in theory functioned as a super-sized "shotgun", though this was not considered a success.

HMS Prince of Wales had one of the most advanced naval anti-aircraft systems of the time, the High Angle Control System, which demonstrated accurate long range radar directed AA fire during Operation Halberd in August and September 1941. However the extreme heat and humidity in Malayan waters in December of that year rendered her AA FC radars unserviceable and her 2-pounder ammunition had deteriorated as well. Royal Air Force technicians were called in to examine the Prince's radars but did not have sufficient time to make the repairs, rendering her HACS ineffective.

Armor
In the aftermath of the Battle of Jutland and post–World War I era, designers began drawing up armor schemes that protected against ordnance dropped by aircraft or submarines. World War I ships fired at direct 90 degree trajectories. The introduction of high-angle battleship fire and plane bombings forced shipbuilders to consider adding significant armor to the top of battleships. The five ships of the American Tennessee-class battleship and Colorado-class battleshipes had considerably improved underwater hull protection over previous battleships, as the result of extensive experimentation and testing. The new class of Battleship was to include 40 in of armored plating. The proposed G3 battlecruiser was planned to incorporate a thoroughly tested torpedo defense scheme, which was later used in the Nelson class. Not surprisingly, as many World War I battleships lacked such a protection system, they fared poorly against torpedoes, which in World War II were increasingly being delivered by submarines and aircraft.

Battleships had an armored belt along the waterline. It was intended to stop shells that hit their sides and to prevent flooding by underwater explosions due to near misses. World War I battleship, German and Italian World War II battleships had lighter upper armored belts to protect sides up to the main or weather deck. Main belt thickness along the waterline ranged from 10 to 15 in, upper belt thickness ranged from 4 to 10 in. Most ships of the World War II period had a sloped main belt (internal in some classes), to increase resistance to incoming shells; and no upper belt, to save weight. Thicknesses of belt armor ranged from 10 in for Strasbourg class - large battlecruisers rather than pure battleships - or from 12 in for the South Dakota and Iowa classes to 16 in for the Yamato-class battleship.

World War I ships had a light upper armored deck to protect the secondary guns and a main armored deck whose sides sloped down to meet the lower edge of the belt, but their thickness was usually no more than 1.5 or for the slopes. As soon as long-range engagements became common and aerial threats increased, crash programs to improve deck and turret roof protection started. US Navy "all-or-nothing" armor layout introduced a flat heavy armor deck, which abutted the upper edges of the armored belt, and light armored weather and lower decks: this design was used by all World War II ships except Reichsmarine units, that kept a heavier lower deck and a lighter upper deck. Main deck armor thickness ranged from 4 to 6 in or even 9 in for Yamato-class battleship, usually increased over magazines: lighter decks were 1.5 to 2.0 in thick.

From the lessons of Jutland, the protection scheme incorporated a sophisticated torpedo defense system (TDS). By adopting a turbo-electric drive, this allowed a wholesale rearrangement and close subdivision of the machinery spaces, while simultaneously narrowing them and permitting more space outboard for a layered system of voids, liquid-filled tanks and thin armored bulkheads. By contrast, "thin-skinned" cruisers and carriers relied only on numerous compartments to prevent flooding from spreading. Some were upgraded with anti-torpedo blisters, though these were much inferior to the battleship's armored belt. During the Pearl Harbor attack, TDS and damage control counterflooding saved West Virginia from nine torpedo hits, while USS Oklahoma (BB-37), which lacked it, capsized after just three.

For the Attack on Pearl Harbor the JNAF adapted 16 in shells from Nagato-class battleships into an aerial bomb specifically designed to penetrate the deck armor of the American battleships. It was one of these weapons, dropped from a Nakajima B5N level bomber, which resulted in the destruction of the USS Arizona (BB-39).

During the attack on JAPANESE BATTLESHIP Yamato, according to a PBS documentary, U.S. torpedo bombers were taught to aim for either the bow or the stern, where the protective belt did not extend. For torpedo bombers to make their runs successfully, fighters strafed the battleship to suppress AA guns, and dive bombers wreaked havoc on the upper decks, destroying AA weapons and fire control systems. Pilots were also instructed to focus on one side of the ship, causing massive flooding which was difficult to counteract, leading to the ship capsizing. A bow hit was deadly, since the onrushing water from the battleship's high speed could wrench the hole open wider and collapse compartment bulkheads, which was why Yamato's sister, JAPANESE BATTLESHIP Musashi, foundered at Sibuyan Sea. The stern attacks are best demonstrated by the cases of Bismarck and Prince of Wales; the rudders and screws were similarly vulnerable.

Fleet Air Arm planned to release their armor-piercing bombs from above a certain height so they would penetrate Tirpitz's thick armor during Operation Tungsten. As the British pilots did not release their ordnance from the optimal altitude, Tirpitz suffered extensive damage to her upperworks but her deck armor remained intact. While the suicide air attacks—the so-called kamikaze—struck many U.S. battleships, none were seriously damaged due to their thick armor. Kamikaze were much more successful against lesser-armored ships.

There were limits to the battleship's protection scheme, since it could not keep pace with the faster pace of developments in ordnance. For instance, the TDS in the South Dakota and Iowa-class battleships were designed to absorb the energy from an underwater explosion equivalent to 700 pounds (317 kg) of TNT — the Navy's best guess in the 1930s about Japanese weapons. But unbeknownst to U.S. Naval Intelligence, the Japanese 24-inch (61 cm) Type 93 torpedo, carried a charge equivalent to 891 pounds (405 kg) of TNT. And no amount of armor that could be practically incorporated would have saved the GERMAN BATTLESHIP Tirpitz from the massive 12,000 lb (5.4t) Tallboys dropped by RAF Lancaster bombers during Operation Catechism.

Coordination and waves
In a well-planned attack, fighter planes strafed the battleship to suppress the AA guns, while dive bombers used their armor-piercing bombs to cause topside damage and havoc. The fighters and dive bombers, however, were diversions to allow the delivery of aerial torpedoes.

Battleships were able to sustain more punishment and had fewer vulnerable spots than cruisers and carriers, so it was difficult to rely upon scoring a critical hit (the cases of the Bismarck and Prince of Wales are considered exceptional). Instead, battleships were defeated by attrition, when attackers overwhelmed them with repeated attacks inflicting accumulating damage. This notably occurred in the Battle of Leyte Gulf, when the super-dreadnought JAPANESE BATTLESHIP Musashi eventually succumbed to damage caused by waves of U.S. carrier aircraft in the Sibuyan Sea. The U.S. planes would have accomplished less if they spread out to attack the rest of the ships in Kurita's powerful force. By contrast, the 24 October air attack on Nishimura's southern pincer did little damage, even though both of his Fusō-class battleships were slow World War I-era dreadnoughts and his force had far fewer screening ships, as he only faced a single wave from U.S. carriers USS Franklin (CV-13) and USS Enterprise (CV-6).

Innovative attacks
The Axis powers implemented some unconventional methods. The Italians used with success their tested method of having frogmen delivering explosive charges to the ships, managing to severely damage HMS Queen Elizabeth (1913) and to a lesser extent HMS Valiant (1914) in the shallow waters of the harbor of Alexandria, putting Valiant out of action until mid-1942 and Queen Elizabeth until mid-1943. Other more or less successful Italian methods included manned torpedoes and small motor assault boats, which were filled with explosives, aimed at the target, sped up to full speed, while the pilot catapulted himself out from the dashing craft.

The Germans developed a series of stand-off weapons, e.g., the guided bomb Fritz X, which scored some early successes. On 9 September 1943, the Germans managed to sink the Italian battleship ITALIAN BATTLESHIP Roma and severely damage her sister ship, the Italia, while they were underway to surrender. The first one hit Roma amidship between 90 mm AA gun mounts, piercing deck and side, then exploded, halving her speed; the other one hit above deck between turret #2 and the conning tower. It caused an explosion that threw the turret overboard and affected the boilers, starting a major fire that detonated the main magazines. 1,353 people died; only 596 survivors, most badly burned, were rescued. Among those killed was the Italian Commander in Chief of Naval Battle Forces, Admiral Carlo Bergamini. One week later, the Germans scored another hit on the British battleship HMS Warspite (03). The bomb penetrated six decks before exploding against the bottom of the ship, blowing a large hole in her. The ship took in a total of 5,000 tonnes of water, lost steam (and thus all power, both to the ship herself and to all her systems), and had to be taken in tow. She reached Malta but was out of action for the next 12 months.

The British further developed their ability to sink battleships in harbour with minisubs and very heavy bombs dropped by strategic bombers. The last active German battleship, GERMAN BATTLESHIP Tirpitz, lurked until late into the war in Norwegian fjords protected by anti-submarine weapons and shore based anti-aircraft guns. She was severely damaged in September 1943 during Operation Source, a daring covert attack by British mini-subs. After several air strikes, including Operation Tungsten, which was made with carrier aircraft, Tirpitz was finally sunk in harbour by RAF heavy bombers carrying massive Tallboy bombs. During that action, codenamed Operation Catechism, two of the bombs penetrated her armor, one holing her portside and the other starting a fire that eventually detonated her magazines and blew off her Caesar turret, causing her to capsize and killing 1,000 of the 1,700 men aboard.