Rocket artillery is artillery that uses rockets as the projectile. The use of rocket artillery dates back to medieval China where devices such as fire arrows were used (albeit mostly as a psychological weapon). Fire arrows were also used in multiple launch systems and transported via carts. The first true rocket artillery was developed in South Asia by Tipu Sultan, the ruler of the Kingdom of Mysore. In the late nineteenth century, due to improvements in the power and range of conventional artillery, the use of early military rockets declined; they were finally used on a small scale by both sides during the American Civil War. Modern rocket artillery was first employed during World War II, in the form of the German Nebelwerfer family of rocket ordnance designs, Soviet Katyusha-series and numerous other systems employed on a smaller scale by the Western allies and Japan. In modern use, the rockets are often guided by an internal guiding system or GPS in order to maintain accuracy.
The use of rockets as some form of artillery dates back to medieval China where devices such as fire arrows were used (albeit mostly as a psychological weapon). Fire arrows were also used in multiple launch systems and transported via carts. Devices such as the Korean hwacha were able to fire hundreds of fire arrows simultaneously. The use of medieval rocket artillery was picked up by the invading Mongols and spread to the Ottoman Turks who in turn used them on the European battlefield.
The use of war-rockets is well documented in Medieval Europe. In 1408 Duke John the Fearless of Burgundy used 300 incendiary rockets in the Battle of Othée. The city dwellers coped with this tactic by covering their roofs with dirt. [1]
In the Mughal Empire under Akbar's reign during the 16th century, Mughal artillery rockets began to use metal casing, which made them more weatherproof and allowed a larger amount of gunpowder, increasing their destructive power. [2] : 48 Mughal ban iron rockets were described by European visitors, including François Bernier who witnessed the 1658 Battle of Samugarh fought between brothers Aurangzeb and Dara Shikoh. [3] : 133
The earliest successful utilization of metal-cylinder rocket artillery is associated with the Kingdom of Mysore, South India. Tipu Sultan successfully established the powerful Sultanate of Mysore and introduced the first iron-cased metal-cylinder rocket. The Mysorean rockets of this period were innovative, chiefly because of the use of iron tubes that tightly packed the gunpowder propellant; this enabled higher thrust and longer range for the missile (up to 2 km range).
Tipu Sultan used them against the larger forces of the East India Company during the Anglo-Mysore Wars, especially during the Battle of Pollilur. Another battle where these missiles were deployed was the Battle of Sultanpet Tope, where Colonel Arthur Wellesley, later famous as the First Duke of Wellington, was almost defeated by Tipu's Diwan Purnaiah.
The rockets had a demoralizing effect on the enemy due to the noise and bursting light. The rockets could be of various sizes but usually consisted of a tube of soft hammered iron about 8 inches (20 cm) long and 1.5 to 3 inches (3.8 to 7.6 cm) in diameter, closed at one end and strapped to a shaft of bamboo about 4 ft (1 m) long. [4] The iron tube acted as a combustion chamber and contained well-packed black powder propellant. A rocket carrying about one pound (~500 gm) of powder could travel almost 1,000 yards (~900 m).
According to Stephen Oliver Fought and John F. Guilmartin, Jr. in Encyclopædia Britannica (2008):
Hyder Ali, prince of Mysore, developed war rockets with an important change: the use of metal cylinders to contain the combustion powder. Although the hammered soft iron he used was crude, the bursting strength of the container of black powder was much higher than the earlier paper construction. Thus a greater internal pressure was possible, with a resultant greater thrust of the propulsive jet. The rocket body was lashed with leather thongs to a long bamboo stick. The range was perhaps up to three-quarters of a mile (more than a kilometre). Although individually these rockets were not accurate, dispersion error became less important when large numbers were fired rapidly in mass attacks. They were particularly effective against cavalry and were hurled into the air, after lighting, or skimmed along the hard dry ground. Hyder Ali's son, Tipu Sultan, continued to develop and expand the use of rocket weapons, reportedly increasing the number of rocket troops from 1,200 to a corps of 5,000. In battles at Seringapatam in 1792 and 1799 these rockets were used with minimal effect against the British. [5]
The Indian Tipu Sultan's rocket experiences, including Munro's book of 1789, [7] eventually led to the Royal Arsenal beginning a military rocket R&D program in 1801. Several rocket cases were collected from Mysore and sent to Britain for analysis. The development was chiefly the work of Col. (later Sir) William Congreve, son of the Comptroller of the Royal Arsenal, Woolwich, London, who set on a vigorous research and development programme at the Arsenal's laboratory; after development work was complete, the rockets were manufactured in quantity further north, near Waltham Abbey, Essex. He was told that "the British at Seringapatam had suffered more from the rockets than from the shells or any other weapon used by the enemy". [8] "In at least one instance", an eyewitness told Congreve, "a single rocket had killed three men and badly wounded others". [9]
It has been suggested that Congreve may have adapted iron-cased gunpowder rockets for use by the British military from prototypes created by the Irish nationalist Robert Emmet during Emmet's Rebellion in 1803. [10] But this seems far less likely given the fact that the British had been exposed to Indian rockets since 1780 at the latest, and that a vast quantity of unused rockets and their construction equipment fell into British hands at the end of the Anglo-Mysore Wars in 1799, at least 4 years before Emmet's rockets.[ citation needed ]
Congreve introduced a standardised formula for the making of gunpowder at Woolwich and introduced mechanical grinding mills to produce powder of uniform size and consistency. Machines were also employed to ensure the packing of the powder was perfectly uniform. His rockets were more elongated, had a much larger payload, and were mounted on sticks; this allowed them to be launched from the sea at a greater range. He also introduced shot into the payload, which added shrapnel damage to the incendiary capability of the rocket. [11] By 1805 he was able to introduce a comprehensive weapons system to the British Army. [12]
The rocket had a "cylindro-conoidal" warhead and was launched in pairs from half troughs on simple metal A-frames. The original rocket design had the guide pole side-mounted on the warhead, this was improved in 1815 with a base plate with a threaded hole. They could be fired up to two miles, the range being set by the degree of elevation of the launching frame, although at any range they were fairly inaccurate and had a tendency for premature explosion. They were as much a psychological weapon as a physical one, and they were rarely or never used except alongside other types of artillery. Congreve designed several different warhead sizes from 3 to 24 pounds (1.4 to 10.9 kg). The 24 pounds (11 kg) type with a 15 foot (4.6 m) guide pole was the most widely used variant. Different warheads were used, including explosive, shrapnel and incendiary. [13] They were manufactured at a special facility near the Waltham Abbey Royal Gunpowder Mills beside the River Lea in Essex. [14]
These rockets were used during the Napoleonic Wars against the city of Boulogne, and during the naval bombardment of Copenhagen, where over 25,000 rockets were launched, causing severe incendiary damage to the city. The rockets were also adapted for the purpose of flares for signalling and battlefield illumination. Henry Trengrouse utilized the rocket in his life-saving apparatus, in which the rocket was launched at a shipwreck with an attached line to help rescue the victims.
The Congreve rockets are also famous for inspiring the lawyer Francis Scott Key to pen the words the "rockets' red glare" in what became the US National Anthem during the War of 1812.
After the rockets were successfully used during Napoleon's defeat at the Battle of Waterloo, various countries were quick to adopt the weapon and establish special rocket brigades. The British created the British Army Rocket Brigade in 1818, followed by the Austrian Army and the Russian Army.
One persistent problem with the rockets was their lack of aerodynamic stability. The British engineer William Hale designed a rocket with a combination of tail fins and directed nozzles for the exhaust. This imparted a spin to the rocket during flight, which stabilized its trajectory and greatly improved its accuracy, although it did sacrifice somewhat of the maximum range. Hale rockets were enthusiastically adopted by the United States, and during the Mexican War in 1846 a volunteer brigade of rocketeers was pivotal in the surrender of Mexican forces at the Siege of Veracruz.
By the late nineteenth century, due to improvements in the power and range of conventional artillery, the use of military rockets declined; they were finally used on a small scale by both sides during the American Civil War.
Modern rocket artillery was first employed during World War II, in the form of the German Nebelwerfer family of rocket ordnance designs, and Soviet Katyusha-series. The Soviet Katyushas, nicknamed by German troops Stalin's Organ because of their visual resemblance to a church musical organ and alluding to the sound of the weapon's rockets, were mounted on trucks or light tanks, while the early German Nebelwerfer ordnance pieces were mounted on a small wheeled carriage which was light enough to be moved by several men and could easily be deployed nearly anywhere, while also being towed by most vehicles. The Germans also had self-propelled rocket artillery in the form of the Panzerwerfer and Wurfrahmen 40 which equipped half-track armoured fighting vehicles. An oddity in the subject of rocket artillery during this time was the German "Sturmtiger", a vehicle based on the Tiger I heavy tank chassis that was armed with a 380 mm rocket mortar.
The Western Allies of World War II employed little rocket artillery. During later periods of the war, British and Canadian troops used the Land Mattress, a towed rocket launcher. The United States Army built and deployed a small number of turret-mounted T34 Calliope and T40 Whizbang rocket artillery tanks (converted from M4 Sherman medium tanks) in France and Italy. In 1945, the British Army also fitted some M4 Shermans with two 60 lb RP3 rockets, the same as used on ground attack aircraft and known as "Tulip".
In the Pacific, however, the US Navy made heavy use of rocket artillery on their LSM(R) transports, adding to the already intense bombardment by the guns of heavy warships to soften up Japanese-held islands before the US Marines would land. On Iwo Jima, the Marines made use of rocket artillery trucks in a similar fashion as the Soviet Katyusha, but on a smaller scale.[ citation needed ]
The Japanese Imperial Army deployed the naval Type 4 20 cm (8 in) Rocket Launcher and army Type 4 40 cm (16 in) Rocket Launcher against the United States Marines and Army troops at Iwo Jima and Okinawa, and United States Army troops during the Battle of Luzon, as well Soviet Red Army troops during Manchuria Campaign, South Sakhalin and Kuril Island Campaign. Their deployment was limited relative to other mortar types and the projectiles on the 40 cm launcher were so large and heavy that they had to be loaded using small hand-operated cranes, but they were extremely accurate and had a pronounced psychological effect on opposing troops, who called them "Screaming Mimis", a nickname originally applied to the German Nebelwerfer tube-launched rocket mortar series in the European Theater of Operations. They were often used at night to conceal their launching sites and increase their disruptiveness and psychological effectiveness. The Japanese 20 cm rockets were launched from tubes or launching troughs, while the larger rockets were launched from steel ramps reinforced with wooden monopods.
The Japanese also deployed a limited number of 447mm rocket launchers, termed 45 cm Rocket Mortars by United States personnel who test-fired them at the close of the war. Their projectiles consisted of a 1,500 lb cylinder filled with propellant and ballistite sticks detonated by black powder, which produced a blast crater approximately the size of an American 1,000 lb bomb. In effect, this made the 447mm projectile a type of surface-to-surface barrel bomb. While these latter weapons were captured at Luzon and proved effective in subsequent testing, it is not clear that they were ever used against American troops, in contrast to the more common 20 and 40 cm types, which clearly contributed to the 37,870 American casualties sustained at Luzon. [15]
Israel fitted some of their Sherman tanks with different rocket artillery. An unconventional Sherman conversion was the turretless Kilshon ("Trident") that launched an AGM-45 Shrike anti-radiation missile.
The Soviet Union continued its development of the Katyusha during the Cold War, and also exported them widely.
Modern rocket artillery such as the US M270 Multiple Launch Rocket System is highly mobile and are used in similar fashion to other self-propelled artillery. Global Positioning and Inertial Navigation terminal guidance systems have been introduced.
During the Kargil war of 1999, the Indian army pressed into service the Pinaka MBRL against Pakistani forces. Despite the system still being under development, it was still able to perform successfully, after which the Indian Army showed interest in inducting the system into service. [16]
Artillery are ranged weapons that launch munitions far beyond the range and power of infantry firearms. Early artillery development focused on the ability to breach defensive walls and fortifications during sieges, and led to heavy, fairly immobile siege engines. As technology improved, lighter, more mobile field artillery cannons developed for battlefield use. This development continues today; modern self-propelled artillery vehicles are highly mobile weapons of great versatility generally providing the largest share of an army's total firepower.
The Katyusha is a type of rocket artillery first built and fielded by the Soviet Union in World War II. Multiple rocket launchers such as these deliver explosives to a target area more intensively than conventional artillery, but with lower accuracy and requiring a longer time to reload. They are fragile compared to artillery guns, but are cheap, easy to produce, and usable on almost any chassis. The Katyushas of World War II, the first self-propelled artillery mass-produced by the Soviet Union, were usually mounted on ordinary trucks. This mobility gave the Katyusha, and other self-propelled artillery, another advantage: being able to deliver a large blow all at once, and then move before being located and attacked with counter-battery fire.
Self-propelled artillery is artillery equipped with its own propulsion system to move toward its firing position. Within the terminology are the self-propelled gun, self-propelled howitzer, self-propelled mortar, and self-propelled rocket artillery. They are high-mobility vehicles, usually based on continuous tracks carrying either a large field gun, howitzer, mortar, or some form of rocket/missile launcher. They are usually used for long-range indirect bombardment support on the battlefield.
The Congreve rocket was a type of rocket artillery designed by British inventor Sir William Congreve in 1808. The design was based upon the rockets deployed by the Kingdom of Mysore against the East India Company during the Second, Third, and Fourth Anglo-Mysore Wars. Lieutenant general Thomas Desaguliers, colonel commandant of the Royal Artillery at Woolwich, was impressed by reports of their effectiveness, and undertook several unsuccessful experiments to produce his own rocket weapons. Several captured Mysorean rockets were sent to Great Britain following the annexation of the Mysorean kingdom into British India following the death of Tipu Sultan in the siege of Seringapatam.
A recoilless rifle (rifled), recoilless launcher (smoothbore), or simply recoilless gun, sometimes abbreviated to "RR" or "RCL" is a type of lightweight artillery system or man-portable launcher that is designed to eject some form of countermass such as propellant gas from the rear of the weapon at the moment of firing, creating forward thrust that counteracts most of the weapon's recoil. This allows for the elimination of much of the heavy and bulky recoil-counteracting equipment of a conventional cannon as well as a thinner-walled barrel, and thus the launch of a relatively large projectile from a platform that would not be capable of handling the weight or recoil of a conventional gun of the same size. Technically, only devices that use spin-stabilized projectiles fired from a rifled barrel are recoilless rifles, while smoothbore variants are recoilless guns. This distinction is often lost, and both are often called recoilless rifles.
A mortar today is usually a simple, lightweight, man-portable, muzzle-loaded cannon, consisting of a smooth-bore metal tube fixed to a base plate with a lightweight bipod mount and a sight. Mortars are typically used as indirect fire weapons for close fire support with a variety of ammunition. Historically mortars were heavy siege artillery. Mortars launch explosive shells in high-arching ballistic trajectories.
A rocket launcher is a weapon that launches an unguided, rocket-propelled projectile.
Shoulder-fired missile, shoulder-launched missile or man-portable missile, among other variants, are common slang terms to describe high-caliber shoulder-mounted weapons systems; that is, weapons firing large, heavy projectiles ("missiles"), typically using the backblast principle, which are small enough to be carried by a single person and fired while held on one's shoulder. The word "missile" in this context is used in its original broad sense of a heavy projectile, and encompasses all shells and rockets, guided or unguided. A more formal variant is simply shoulder-fired weapons system and the like.
A multiple rocket launcher (MRL) or multiple launch rocket system (MLRS) is a type of rocket artillery system that contains multiple launchers which are fixed to a single platform, and shoots its rocket ordnance in a fashion similar to a volley gun. Rockets are self-propelled in flight and have different capabilities than conventional artillery shells, such as longer effective range, lower recoil, typically considerably higher payload than a similarly sized gun artillery platform, or even carrying multiple warheads.
Sir William Congreve, 2nd Baronet KCH FRS was a British Army officer, Tory politician, publisher and inventor. A pioneer in the field of rocket artillery, he was renowned for his development and use of Congreve rockets during the Napoleonic Wars.
The Nebelwerfer was a World War II German series of weapons. They were initially developed by and assigned to the Army's Nebeltruppen. Initially, two different mortars were fielded before they were replaced by a variety of rocket launchers ranging in size from 15 to 32 centimetres. The thin walls of the rockets had the great advantage of allowing much larger quantities of gases, fluids or high explosives to be delivered than artillery or even mortar shells of the same weight. With the exception of the Balkans Campaign, Nebelwerfer were used in every campaign of the German Army during World War II. A version of the 21 cm (8.3 in) calibre system was adapted for air-to-air use against Allied bombers.
RS-82 and RS-132 were unguided rockets used by Soviet military during World War II.
Mattress was the term applied to ground-based British-devised multiple rocket launchers during World War II. Compared with the German and Soviet counterparts, the western Allies deployed these weapons late in the war. Nevertheless, they did see useful service as artillery support during the crossings of the Rhine and the Scheldt rivers.
The German Panzerwerfer refers to either of two different types of half-tracked multiple rocket launchers employed by Nazi Germany during the Second World War. The two self-propelled artillery vehicles are the 15 cm Panzerwerfer 42 auf Selbstfahrlafette Sd.Kfz.4/1 and 15 cm Panzerwerfer 42 auf Schwerer Wehrmachtsschlepper.
Fathul Mujahidin is a military manual that was written in 1783 by Zainul Abedin Shustari at the instruction of Tipu Sultan, the ruler of the Kingdom of Mysore in South India considered a pioneer in the use of rocket artillery. Mysore started to equip their army with rockets in the 1750s and during the Second Anglo–Mysore War (1780–1784) Tipu and his father Haider Ali used this technology against British troops. Tipu Sultan used rockets in battle with the British Army in the 1792 Siege of Srirangapatna, a battle at the end of the Third Anglo-Mysore War.
The first rockets were used as propulsion systems for arrows, and may have appeared as early as the 10th century in Song dynasty China. However, more solid documentary evidence does not appear until the 13th century. The technology probably spread across Eurasia in the wake of the Mongol invasions of the mid-13th century. Usage of rockets as weapons before modern rocketry is attested to in China, Korea, India, and Europe. One of the first recorded rocket launchers is the "wasp nest" fire arrow launcher produced by the Ming dynasty in 1380. In Europe, rockets were also used in the same year at the Battle of Chioggia. The Joseon kingdom of Korea used a type of mobile multiple rocket launcher known as the "Munjong Hwacha" by 1451.
The 15 cm Nebelwerfer 41 was a German multiple rocket launcher used in the Second World War. It served with units of the Nebeltruppen, German Chemical Corps units that had the responsibility for poison gas and smoke weapons that were also used to deliver high-explosives during the war. The name Nebelwerfer is best translated as "smoke thrower".
In military terminology, a rocket is a self-propelled, unguided or guided, weapon-system powered by a rocket engine. Though used primarily as medium- and long-range artillery systems, historically rockets have also seen considerable use as air-to-surface weapons, some use as air-to-air weapons, and even as surface-to-air devices. Examples of modern surface-to-surface rocket systems include the Soviet BM-27 Uragan and the American M270 Multiple Launch Rocket System.
Mysorean rockets were an Indian military weapon. The iron-cased rockets were successfully deployed for military use. They were the first successful iron-cased rockets, developed in the late 18th century in the Kingdom of Mysore under the rule of King Hyder Ali. The Mysorean army, under King Hyder Ali and his son King Tipu Sultan, used the rockets effectively against the British East India Company during the 1780s and 1790s. According to James Forbes Marathas also used iron-encased rockets in their battles. Their conflicts with the company exposed the British to this technology further, which was then used to advance European rocketry with the development of the Congreve rocket in 1805.