The Kingdom of Mysore in India used Mysorean rockets as a weapon against the British in the wars that they fought against the British East India Company. Lieutenant General Thomas Desaguliers, Colonel Commandant of the Royal Artillery in Woolwich, was influenced by the reports about their effectiveness, and he undertook several unsuccessful experiments. Several Mysore rockets were sent to Woolwich for studying and reverse-engineering following the Second, Third, and Fourth Mysore wars. (Congreve's father was now the comptroller of the Royal Arsenal.) Even so, Congreve had to start his project in 1804 with his own funds. The first demonstration of his solid fuel rockets was in September 1805. The rockets were used effectively during the Napoleonic Wars, the War of 1812, and the First Anglo-Burmese War of 1824–1826.
Early Indian rockets
Tipu Sultan and his father Hyder Ali developed the military tactic of using mass attacks with rocket artillery brigades on infantry formations. In 1792, Tipu Sultan wrote a military manual called Fathul Mujahidin in which 200 rocket men were prescribed to each Mysorean rocket artillery brigade known as "cushoons". Mysore had 16 to 24 cushoons of infantry. The areas of town where rockets and fireworks were manufactured were known as "taramandal pet" ("galaxy market").
The rocket men were trained to launch their rockets at an angle calculated from the diameter of the cylinder and the distance of the target. In addition, wheeled rocket launchers were used in war that were capable of launching five to ten rockets almost simultaneously. Rockets could be of various sizes, but usually consisted of a tube of soft hammered iron about 8 inches (200 mm) long and 1.5 to 3 inches (38 to 76 mm) diameter, closed at one end and strapped to a shaft of bamboo about 4 ft long. The iron tube acted as a combustion chamber and contained well-packed black powder propellant. A rocket carrying about one pound of powder could travel almost 1,000 yards (910 m). In contrast, rockets in Europe were not iron cased and could not take large chamber pressures, and as a consequence they were not capable of reaching distances anywhere near as great.
Hyder Ali's father was the naik or chief constable at Budikote, and he commanded 50 rocketmen for the Nawab of Arcot. There was a regular rocket corps in the Mysore Army, beginning with about 1,200 men in Hyder Ali's time. Hyder Ali introduced the first iron cased rockets in warfare.
Second Anglo-Mysore War
At the Battle of Pollilur (1780) during the Second Anglo-Mysore War, Colonel William Baillie's ammunition stores are thought to have been detonated by a hit from one of Tipu Sultan's Mysorean rockets, which contributed to a British defeat.
Third Anglo-Mysore War
In the Third Anglo-Mysore War in 1792, there is mention of two rocket units fielded by Tipu Sultan, 120 men and 131 men respectively. Lieutenant Colonel Knox was attacked by rockets near Srirangapatna on the night of 6 February 1792, while advancing towards the Kaveri River from the north. The rocket corps ultimately reached a strength of about 5,000 in Tipu Sultan's army. Mysore rockets were also used for ceremonial purposes. The Jacobin Club of Mysore sent a delegation to Tipu Sultan, and 500 rockets were launched as part of the gun salute.
Fourth Anglo-Mysore War
During the Fourth Anglo-Mysore War, rockets were again used on several occasions. One of these involved Colonel Arthur Wellesley, later famous as the First Duke of Wellington and the hero of the Battle of Waterloo. Quoting Forrest:
"At this point (near the village of Sultanpet, Figure 5) there was a large tope, or grove, which gave shelter to Tipu's rocketmen and had obviously to be cleaned out before the siege could be pressed closer to Srirangapattanam Island. The commander chosen for this operation was Col. Wellesley, but advancing towards the tope after dark on 5 April 1799, he was set upon with rockets and musket-fires, lost his way and, as Beatson politely puts it, had to "postpone the attack" until a more favourable opportunity should offer. Wellesley's failure was glossed over by Beatson and other chroniclers, but the next morning he failed to report when a force was being paraded to renew the attack.
"On 22 April , twelve days before the main battle, rocketeers worked their way around to the rear of the British encampment, then 'threw a great number of rockets at the same instant' to signal the beginning of an assault by 6,000 Indian infantry and a corps of Frenchmen, all directed by Mir Golam Hussain and Mohomed Hulleen Mir Mirans. The rockets had a range of about 1,000 yards. Some burst in the air like shells. Others, called ground rockets, on striking the ground, would rise again and bound along in a serpentine motion until their force was spent.
According to one British observer, a young English officer named Bayly:
"So pestered were we with the rocket boys that there was no moving without danger from the destructive missiles ...". He continued: "the rockets and musketry from 20,000 of the enemy were incessant. No hail could be thicker. Every illumination of blue lights was accompanied by a shower of rockets, some of which entered the head of the column, passing through to the rear, causing death, wounds, and dreadful lacerations from the long bamboos of twenty or thirty feet, which are invariably attached to them'."
During the conclusive British attack on Srirangapattanam on 2 May 1799, a British shot struck a magazine of rockets within Tipu Sultan's fort, causing it to explode and send a towering cloud of black smoke up from the battlements, with cascades of exploding white light. Baird led the final attack on the fort on the afternoon of 4 May, and he was again met by "furious musket and rocket fire" - but it did not help much. The fort was taken in about an hour's time; in another hour or so, Tipu had been shot (the precise time of his death is not known) and the war was effectively over.
After the fall of Srirangapatna, 600 launchers, 700 serviceable rockets, and 9,000 empty rockets were found. Some of the rockets had pierced cylinders to allow them to act like incendiaries, while some had iron points or steel blades bound to the bamboo. These blades caused the rockets to become very unstable towards the end of their flight, causing the blades to spin around like flying scythes, cutting down all in their path.
Congreve began in 1804 by buying the best rockets on the London market, but found that their greatest range was only 600 yards. He knew that Indian kings and emperors had equipped their armies with rockets which would travel much farther than this. After spending ‘several hundred pounds’ of his own money on experiments, he was able to make a rocket that would travel 1,500 yards. He now ‘applied to Lord Chatham (the responsible minister in charge of the Ordnance Department) for permission to have some large rockets made at Woolwich’. Permission was granted and ‘several six-pounder rockets’ made ‘on principles I had previously ascertained’ achieved a range of ‘full two thousand yards’. By the spring of 1806, he was producing 32-pounder rockets ranging 3,000 yards. Congreve enjoyed the friendship of the Prince Regent, who supported his rocket projects and in whose household he served as an equerry from 1811. The Prince Regent was also the Elector of Hanover, and he was awarded the honorary rank of Lieutenant Colonel in the Hanoverian army's artillery in 1811. In 1813, he declined the offer to command the Rocket Corps with rank in the Regiment of Artillery.
Congreve registered two patents and published three books on rocketry.
The initial rocket cases were constructed of cardboard, but by 1806 they were made from sheet iron. The propulsion was of the same ingredients as gunpowder, the mixture of which varied with the different sizes of rocket. The warheads had side-mounted brackets which were used to attach wooden sticks of differing lengths, according to the sizes of rocket.
Rocket sizes were designated by the caliber of their tube, using the then-standard British method of using weight in pounds as a measure of cannon bore. Larger diameter rockets also had correspondingly longer tubes.
By 1813, the rockets were made available in three classes:
- Heavy – being carcass/explosive rockets, 100- and 300-pounders; between five and six feet in length, with a stick length of 25–27 feet. These were considered too cumbersome to use effectively in the field.
- Medium – being from 42- to 24-pounders; two to four feet in length, with a stick length of 15–20 feet
- Light – being from 18- to 6-pounders; 16-25 inches in length, with a stick length of 8–14 feet
The medium and light rockets could be case shot, shell, or explosive.
The 32-pounder was generally used for longer range bombardment, while a 12–pounder case shot was generally used for support of infantry and cavalry, with an extreme range of some 2,000 yards. The rockets could be fired from a wheeled bombarding frame, from a portable tripod, or even from a shallow trench or sloping bank. One in three horse artillerymen carried a launching trough for ground firing.
In December 1815, Congreve demonstrated a new design of rocket that had the rocket stick screwing centrally into the base of the case. This remained in service from 1817 until 1867, when it was replaced by the Hale rocket which required no stick and used clockwise rotation to impart stability in flight.
Contrary to popular belief, rockets could not out-range the equivalent smooth bore guns of the period. In real terms, the maximum effective range for the 12-pounder rockets and for the six-pounder gun was some 1,400 yards or about 1,280 meters. However, the rate of fire with rockets could be higher than the equivalent muzzle loading ordnance. The absence of weighty ordnance meant that fewer horses were required. Captain Richard Bogue needed just 105 horses for his troop, compared with the 220 of Captain Cavalié Mercer's troop.
Rockets could be easily carried and readily deployed, particularly over difficult terrain or in small boats. This was amply demonstrated by the Royal Marine Artillery, as well as in the crossing of the Adour River and the Battle of Toulouse.
Their lack of specific accuracy with the larger rockets at long range was not a problem if the purpose was to set fire to a town or a number of moored ships; this was shown with the attack on the French Fleet in Aix and Basque roads and at the bombardment of Copenhagen. As Congreve himself had warned, however, they were of little use against fortified places, such as against Fort Henry, because of the lack of combustible structures.
The 12-pounder deployed at very close range was a fearsome weapon, as was seen at the battles of Göhrde and Leipzig in 1813, as well as the crossing of the Adour River and the Battle of Toulouse in 1814.
The rocketeers had placed a little iron triangle in the road with a rocket lying on it. The order to fire is given - port-fire applied - the fidgety missile begins to sputter out sparks and wriggle its tail for a second or so, and then darts forth straight up the chaussée. A gun stands right in its way, between the wheels of which the shell in the head of the rocket bursts, the gunners fall right and left… our rocketeers kept shooting off rockets, none of which ever followed the course of the first; most of them, on arriving about the middle of the ascent, took a vertical direction, whilst some actually turned back upon ourselves - and one of these, following me like a squib until its shell exploded, actually put me in more danger than all the fire of the enemy throughout the day.
Use of Congreve rockets
The main user of Congreve rockets during the Napoleonic Wars was the Royal Navy, and men from the Royal Marine Artillery became experts in their use. The navy converted HMS Galgo and Erebus into rocket ships. The army became involved with reluctance and was represented by various rocket detachments that changed into the two Rocket Troops, Royal Horse Artillery, on 1 January 1814.
In the autumn of 1805, the government decided upon an attack on Boulogne for the first test. William Sidney Smith was chosen to lead the expedition, accompanied by Congreve. Strong winds and rough seas hampered the operations on both the 20th and 21st, and the attack was not successful.
In April 1806, Rear Admiral Sidney Smith took rockets on a little-known mission to the Mediterranean to aid Sicily and the Kingdom of Naples in their struggle against the French. It was perhaps at Gaeta, near Naples, that Congreve's rockets had their first successful debut in battle. The second Boulogne rocket expedition, however, is more famous and is usually considered the first successful attempt.
On 8–9 October 1806, Commodore Edward Owen attacked the French flotilla at Boulogne. Captain William Jackson of Musquito directed the boats firing 32 pounds (15 kg) Congreve rockets. As night drew in on the channel, 24 cutters fitted with rocket frames formed a line and fired some 2,000 rockets at Boulogne. The barrage took only 30 minutes. Apparently the attack set a number of fires, but otherwise had limited effect. Still, it was enough to lead the British to employ rockets on a number of further occasions.
In 1807, Copenhagen was burnt by a British attack with more than 14,000 various missiles in the form of metal balls, explosive and incendiary bombs from cannons and mortars, and about 300 Congreve rockets.
The lighter, six-pounder battlefield rockets had been sent on the second Egyptian campaign in 1807, a further field trial which proved to be unsuccessful.
Congreve accompanied Lord Cochrane in the fire-ship, rocket, and shell attack on the French Fleet in Aix and Basque roads on 11 April 1809.
The Walcheren Campaign in 1809 saw the deployment of HMS Galgo, a merchant sloop converted to a warship and then converted to fire Congreve rockets from 21 "rocket scuttles"' installed in her broadside. This rocket ship was deployed at the naval bombardment of Flushing, where they wrought such havoc that ‘General Monnet, the French commandant, made a formal protest to Lord Chatham’ against their use. Congreve was also present at this engagement and commanded five land frames.
In 1810, Wellington agreed to a field trial of Congreve's new 12-pounder rocket carrying case shot. It was not successful and was withdrawn.
In May 1813, a detachment which had been training with rockets at Woolwich under Second Captain Richard Bogue RHA was inspected by a committee of Royal Artillery officers who recommended that it be tried in combat. On 7 June 1813, Bogue's unit was designated the "Rocket Brigade". At the same time as being granted its new title, The Rocket Brigade was ordered to be augmented and to proceed on active service, with orders to join the Army of the North commanded by Bernadotte, the Crown Prince of Sweden. Using the modified 12-pounder at low trajectory from ground firing-troughs, the brigade was successful at the Battle of Gohrde and spectacularly so at the Battle of Leipzig on 18 October 1813. In the continuing campaign, the Rocket Brigade was also employed in the sieges of Frederiksfort and Glückstadt, which surrendered on 13 December 1813 and 5 January 1814, respectively. On 1 January 1814, the unit assumed the title of the "2nd Rocket Troop RHA" and on 18 January it received orders to join the force under the orders of Sir Thomas Graham in Holland.
In September 1813, Wellington agreed, with much reservation, that rockets could be sent out to join the army in Spain. On 3 October 1813, another Royal Artillery detachment embarked from Woolwich, trained in firing rockets. This group was called the "Rocket Company" and consisted of almost sixty men under Captain Lane. On 1 January 1814, together with another detachment under Captain Eliot, it assumed the title of the "1st Rocket Troop RHA". Captain Lane's rockets were very successfully deployed at the crossing of the Adour on 23 February 1814 and in the final battle in the Peninsular War at the Battle of Toulouse on 10 April 1814. Later that year, they were sent to be part of the disastrous expedition against the American Army at New Orleans, in Louisiana.
By the time of the Waterloo campaign on 30 April 1815, the command of the 2nd Rocket Troop was formally taken over by Captain Whinyates. Wellington remained averse to rockets, so Whinyates took just 800 rockets into the field, as well as five 6-pounder guns; it would appear that the rockets replaced the usual howitzer in the structure of the troop.
War of 1812
The Royal Marine Artillery used Congreve rockets in several engagements during this conflict. Two battalions of Royal Marines were sent to North America in 1813. Attached to each battalion was a rocket detachment, each with an establishment of 25 men, commanded by lieutenants Balchild and John Harvey Stevens. Both rocket detachments were embarked aboard the transport vessel Mariner Rockets were used in the engagements at Fort Oswego and Lundy's Lane.
A third battalion of Royal Marines arrived in North America in 1814, with an attached rocket detachment commanded by Lieutenant John Lawrence, which subsequently participated in the Chesapeake campaign. During this campaign, the British used rockets at the Battle of Bladensburg to rout the militia (which led to the burning and surrender of Washington, D.C.), and at the Battle of North Point.
It was the use of ship-launched Congreve rockets by the British in the bombardment of Fort McHenry in the US in 1814 that inspired the fifth line of the first verse of the United States' National Anthem, "The Star-Spangled Banner": "and the rockets’ red glare, the bombs bursting in air". HMS Erebus fired the rockets from a 32-pound rocket battery installed below the main deck, which fired through portholes or scuttles pierced in the ship's side.
In Canada, rockets were used by the British at the Second Battle of Lacolle Mills, March 30, 1814. Rockets fired by a detachment of the Royal Marine Artillery, though inaccurate, unnerved the attacking American forces, and contributed to the defense of the blockhouse and mill. Rockets were used again at the Battle of Cook's Mills, October 19, 1814. An American force, sent to destroy General Gordon Drummond's source of flour, was challenged by a contingent of infantry which was supported by a light field cannon and a frame of Congreve rockets. The rockets succeeded in discouraging the Americans from forming lines on the battlefield.
Captain Henry Lane's 1st Rocket Troop of the Royal Horse Artillery embarked at the end of 1814 in the transport vessel Mary with 40 artillerymen and 500 rockets and disembarked near New Orleans. Lieutenant Lawrence's rocket detachment took part in the final land engagement of the War of 1812 at Fort Bowyer in February 1815.
Bombardment of Algiers 27 August 1816
Algiers had been the centre for pirates for some years, and her fleet had reached considerable proportions. Things reached a head after a particular atrocity; Britain decided to stamp out their activities, and the Netherlands agreed to assist. The combined fleet was composed of six British ships of the line and four frigates, plus five Dutch frigates; there were also 37 gun boats, 10 mortar boats, and eight rocket boats. Lieutenant JT Fuller and 19 other ranks from the Rocket Troop accompanied the expedition, together with 2,500 rockets, and were engaged alongside the Royal Marine Artillery.
In the bombardment of Algiers the rocket boats, gun boats, and mortar boats engaged the enemy's fleet moored inside the harbour. “It was by their fire that all the ships in the port, with the exception of the outer frigate, were in flames which extended rapidly over the whole arsenal, storehouses and gun boats, exhibiting a spectacle of awful grandeur”.
The following day, the Dey capitulated and accepted all the surrender terms.
First Anglo-Burmese War
A new shipment of Congreve rockets — which the Burmese had never seen — were used in the closing phase of the Battle of Yangon (May–December 1824) and in the subsequent battle of Danubyu (March–April 1825) where fighting elephants were stopped by rocket fire.
Congress Poland and November Uprising
Having witnessed the effects of incendiary rockets on grain warehouses of Danzig in 1813, artillery captain Józef Bem of the Kingdom of Poland started his own experiments with what was then called in Polish raca kongrewska. These culminated in his 1819 report Notes sur les fusees incendiares (German edition: Erfahrungen über die Congrevischen Brand-Raketen bis zum Jahre 1819 in der Königlichen Polnischen Artillerie gesammelt, Weimar 1820). The research took place in the Warsaw Arsenal, where captain Józef Kosiński also developed the multiple-rocket launchers adapted from horse artillery gun carriage.
The 1st Rocketeer Corps was formed in 1822 under the command of brigade general Piotr Bontemps and received its launchers in 1823. The unit received its baptism of fire during the Polish–Russian War 1830–31. The rocket salvos fired by captain Karol Skalski's rocketeers during the twilight hours of the Battle of Olszynka Grochowska (25 February 1831) disrupted the Russian cavalry charges and forced them to retreat, which changed the tide of battle. The rockets were also used several times (over a thousand stockpiled) by Polish freedom fighters during the final Battle of Warsaw (September 1831) in defense of the city.
New Zealand Wars
During the period of the New Zealand Wars, the British Army used Congreve rockets to attack Māori fortifications—along with cannon fire—but found that simple trench-warfare practices were sufficient to blunt their effectiveness so much that, like cannon, they were virtually useless.
The weapon remained in use until the 1850s, when it was superseded by the improved spinning design of William Hale. In the 1870s, the rockets were used to carry rescue lines to vessels in distress, superseding the mortar of Captain Manby and rockets that had been in use since the 1830s.
Triple Alliance War
During the war between Brazil, Argentina, and Uruguay against Paraguay (1865–1870), the Paraguayans deployed Congreve rockets in several battles including: Battle of the Riachuelo (June 11, 1865) when land-based rockets were used against Brazilian naval forces without success; Battle of Paso de las Cuevas (August 12, 1865) when the Paraguayans utilized artillery and rockets; combat of Corrales (January 31, 1866) when Paraguayan rockets were used against the Allied infantry and cavalry; Battle of Tuyutí (May 24, 1866) when Paraguayan forces used them to attack the advancing allied cavalry; battle of Yatayti Corá (July 10, 1866) where Paraguay used two launchers of 68-pound rockets; again in "Yatayti Cora" (January 20, 1867) when Paraguayan rockets caused a fire in the Argentinian camp. The Brazilian Navy employed them during the Battle of Curupayti (September 22, 1866), trying to destroy the reinforced Paraguayan trench field, but the rockets went short.
A wide variety of Congreve rockets were displayed at Firepower - The Royal Artillery Museum in South-East London, ranging in size from 3 to 300 pounds (1.4 to 136.1 kg).
The Science Museum has two eighteenth-century Indian war rockets in its collection. The Musée national de la Marine in Paris also features one rocket. The Stonington Historical Society in Stonington, Connecticut has one rocket in their collection that was fired at the town by the British in August 1814 during the Battle of Stonington.
Other examples in the United States can be seen at The Smithsonian National Museum and the Fort McHenry Museum. The Wittenburg Museum in Germany has a later-era rocket, and there is a reproduction of it in the Leipzig Museum; there is also one in a private collection in Leipzig.
- In the 1790s the Fathul Mujahidin was published. It is a military manual that was written by Tipu Sultan, a ruler of the Kingdom of Mysore, who was considered to be the father of rocket artillery in battle for his use of iron-cased rocket artillery against the British Army in 1792, which is considered a technological evolution in military history. The Siege of Seringapatam was the final battle of the Third Anglo-Mysore War.
- In 1804, Congreve published: A concise account of the origin and progress of the rocket system.
- A Concise Account of the Origin and Progress of the Rocket System, by William Congreve, son of the arsenal's commandant, was published in 1807.
- In 1814, Congreve published: The details of the rocket system.
- Congreve, William, Sir. (1827) A Treatise on the General Principles, Powers, and Facility of Application of the Congreve Rocket System. (London: Longman, Rees, Orme, Brown, and Green).
- The First Golden Age of Rocketry: Congreve and Hale Rockets of the Nineteenth Century, Frank H. Winter, Smithsonian Institution Press, 1990. ISBN 0-87474-987-5.
- CE Franklin British Rockets of the Napoleonic and Colonial Wars 1805-1901. Spellmount Ltd. ISBN 978-1-86227-313-9
- Werrett, Simon. ‘William Congreve’s Rational Rockets.’ Notes & Records of the Royal Society 63 (2009): 35-56
- In Timothy Mo's novel about the foundation of Hong Kong, An Insular Possession, Congreve rockets are used by Captain Elliot from the steamer Nemesis against Chinese forts on the Pearl River.
- In Flashman at the Charge, a novel, Flashman is forced by Yakub Beg to shoot Congreve rockets against Russian munition ships during the period of the Crimean War.
- Death to the French, a novel by C. S. Forester. On pages 111 to 113, a graphic fictional description of the action on 13 November 1810 when they tried unsuccessfully to fire the French dockyard at Santarem with rockets.
- Sharpe’s Enemy, a novel by Bernard Cornwell. Richard Sharpe and the Defence of Portugal, Christmas 1812.
In popular culture
- In Age of Empires III, the British civilization has rockets as a unique unit based on the Congreve rocket.
- In Mount and Blade: Napoleonic Wars, English rocket artillery are a playable class.
- In Empire: Total War, Congreve rockets are a usable artillery unit.
- In Bernard Cornwell's novel Sharpe's Enemy, and its television adaptation, Congreve rockets appear and are instrumental in the victory at the end. Cornwell also describes the (historical) firing of a rocket during the Waterloo Campaign in his later novel Sharpe's Waterloo.
- In George Macdonald Fraser's novel Flashman At The Charge, Harry Flashman uses Congreve rockets captured from the Russians to help repel a Russian assault in Central Asia.
- He was at Woolwich from 1762 until his death in 1788
- Sir William Senior became the deputy comptroller of the Woolwich Royal Laboratory in 1783 and, in 1789, Major Congreve was appointed as comptroller
- Biography, Mysore History Tipu
- Forrest D (1970) Tiger of Mysore, Chatto & Windus, London
- Narasimha Roddam (2 April 1985) National Aeronautical Laboratory and Indian Institute of Science, Bangalore 560017 India, Project Document DU 8503,Rockets in Mysore and Britain, 1750-1850 A.D. Archived 2007-09-27 at the Wayback Machine
- A. Bowdoin Van Riper. Rockets and Missiles: The Life Story of a Technology. JHU Press. p. 16.
- Mercer, Cavalié, Journal of the Waterloo Campaign kept throughout the campaign of 1815, first published 1870, Da Capo Press 1995, ISBN 0-306-80651-7, p 153
- Rolf Scheen, Flådens ran: tabet af den dansk-norske flåde 1807 (Copenhagen 2007)
- Congreve accompanied the expedition with 16 civil employees of the Ordnance Department
- Richard Glover Peninsular Preparations, page 70
- For a detailed description of their role at the Battle of Leipzig and their impact, refer Europe against Napoleon by Antony Brett-James, 1970, pp185-9. Library of Congress no.: 79-125309
- "The Rocket Brigade at Leipzig 1813 – The Decisive Psychological Weapon?". The Observation Post. Retrieved 6 July 2015.
- Cieślak, Edmund, ed. (1993). Historia Gdańska 1793-1815 (in Polish). III-2. Gdańsk.
- Hobbs, Ray (19 March 2001). "Congreve Rockets". Retrieved 30 March 2013.
Ray Hobbs, quoting from Donald Graves' book, lists the engagements where Congreve rockets were used during the War of 1812
- Heidler, p23
- "Rocket men, by Gary M. Gibson". wcny.org. Archived from the original on 13 February 2013. Retrieved 23 January 2013.
- "George Glasgow to George Prevost, 22 October 1813, NAC, RG8, C.731 pp.54-59, roll C-3244". collectionscanada.gc.ca. Retrieved 25 January 2013.
- Tucker, p30
- Malcolmson, p479
- John R. Elting, Amateurs to Arms, p.176
- NICOLAS, Paul Harris: Historical Record of the Royal Marine Forces, Volume 2, p253
- Heidler, p121
- Tucker, p249
- Official Dispatch of Edward Pellew, Lord Exmouth
- Szczygielska, Małgorzata (2013). "Rakietnicy konni Królestwa Polskiego" (in Polish). Retrieved 25 March 2016.
- Michael Edson (14 August 2015). Publishing, Editing, and Reception: Essays in Honor of Donald H. Reiman. University of Delaware Press. pp. 16–. ISBN 978-1-61149-579-9.
- Belich, James (1996). Making Peoples. Auckland: Penguin Press. p. 178.
- At the Royal Artillery Museum, Woolwich under catalogue numbers 20/6 to 20/16 and 20/47; at the Royal Engineers Museum, Chatham under accession number 5501.4.3
- Beckland; Millard (1992). "Congreve and His Works". Journal of the British Interplanetary Society. British Interplanetary Society. 45: 281–284.
- Catalogue number 77229M
- Exhibit reference FMOC 2150
- Henty, G. A. (George Alfred) (1902). The Tiger of Mysore - A Story of the War with Tippoo Saib.
- Dictionary of National Biography. London: Smith, Elder & Co. 1885–1900. .
- Franklin, Carl E. (2005). British Rockets of the Napoleonic and Colonial Wars 1805-1901. Stroud, Gloucestershire: Spellmount. ISBN 1-86227-313-8
- Graves, Donald E. (1989). Sir William Congreve and the Rockets' Red Glare - Historical Arms Series, No. 23. Bloomfield, Ontario. Museum Restoration service. ISBN 0-919316-23-9
- Heidler, David Stephen & Jeanne T. (2004). Encyclopedia of the War Of 1812. Annapolis, Maryland: Naval Institute Press. ISBN 1-59114-362-4
- Malcolmson, Robert. (2009). The A to Z of the War of 1812. Lanham, Maryland: Scarecrow Press. ISBN 978-0-8108-7004-8
- Nicolas, Paul Harris (1845). Historical Record of the Royal Marine Forces, Volume 2 [1805–1842]. London: Thomas & William Boone. OCLC 758539027
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