Early modern warfare
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Early modern warfare is associated with the start of the widespread use of gunpowder and the development of suitable weapons to use the explosive, including artillery and firearms; for this reason the era is also referred to as the age of gunpowder warfare (a concept introduced by Michael Roberts in the 1950s). This entire period is contained within the Age of Sail, which characteristic dominated the era's naval tactics, including the use of gunpowder in naval artillery.
- The European wars of religion between the 1520s and the 1640s (including the Thirty Years' War, the Eighty Years' War and the Wars of the Three Kingdoms) and, the Franco-Spanish War (1635–1659), the Northern Wars, Polish–Swedish wars and Russo-Swedish Wars;
- The Russo-Turkish Wars, Ottoman–Habsburg wars, and other Ottoman wars in Europe.
- In the Horn of Africa, the Adal's conquest of Ethiopia and the involving of the Ottomans, Mamluks and the Portuguese.
- In Asia, the Persia–Portugal war, Nader's Campaigns, the Mughal conquests, the Chinese Ten Great Campaigns, and the Anglo-Mysore Wars;
- Throughout the 18th century the "Second Hundred Years' War", an umbrella term which includes the Nine Years' War, Seven Years' War, War of the Spanish Succession, War of the Austrian Succession, American War of Independence (American Revolutionary War), French Revolutionary Wars, and the Napoleonic Wars of the late 18th to early 19th centuries which mark the end of this era.
Use of gunpowder before the 16th centuryEdit
Origins of gunpowderEdit
The earliest forms of gunpowder appears to have been discovered by Chinese alchemists investigating longevity and the transmutation of metals. Many concoctions were tested and hypothesized during the centuries leading up to the first official published record in 1044 by Wujing Jongyao. China continued to lead in gunpowder innovation for the next two centuries. Various proportions and purity of charcoal, nitrate and sulfur yielding different rates of burning or explosiveness were found effective in different uses. A wide variety of bombs, fire arrows (rocket arrows) and incendiaries were developed, with the fire lance, the first effective firearm, used by Song Chinese forces against the Jin during the Siege of De'an in 1132.
Spread of gunpowder weaponsEdit
Although the earliest surviving bronze hand cannon dates to 1288, during the Mongolled Yuan Dynasty of China. Gunpowder warfare was used in the Mongol invasions of Japan in 1274 and 1281, specifically in the form of explosive bombs fired from catapults against enemy soldiers. Japanese scrolls contain illustrations of bombs used by the Mongol-Yuan forces against mounted samurai. Archaeological evidence of the use of gunpowder include the discovery of multiple shells of the explosive bombs in an underwater shipwreck off the shore of Japan, with X-rays providing proof that they contained gunpowder.
In 1326, the earliest known European picture of a gun appeared in a manuscript by Walter de Milemete. In 1350, Petrarch wrote that the presence of cannons on the battlefield was 'as common and familiar as other kinds of arms'.
Early artillery played a limited role in the Hundred Years' War, and it became indispensable in the Italian Wars of 1494–1559. Charles VIII, during his invasion of Italy, brought with him the first truly mobile siege train: culverins and bombards mounted on wheeled carriages, which could be deployed against an enemy stronghold immediately after arrival.
The advances in gunpowder technology experienced by Western Europe around the 1500s sparks scholarly debate on whether this was a major military revolution or just an element in wider military evolutions. The debates usually focus on Western Europe but scholars such as Tonio Andrade assert that this involves other civilizations as well, noting that along with European civilizations, the 14th century Ottoman civilization constructed different gunpowder weaponry from those initial produced by the Chinese. Scholars such Andrade explain that the knowledge of guns and gunpowder alone was not what gave Western Europe an advantage in warfare; it was due to many elements, involving warfare culture, difference in fortification, and frequency of warfare.
One significant element according to scholars such as Tonio Andrade for the divergence of gunpowder weaponry between Western Europe and civilizations such as China was the different kinds of warfare that took place in their respective regions. The western European civilizations were able to construct several innovations to gun powdered technology due to the siege tactics which made the goal to destroy the specific architecture of European civilizations. European warfare during the 14th century and towards the 16th century involved assaulting heavily fortified structures using artillery which aimed to either completely destroy the walls of the forts or cause fire to the walls which could spread along the defenses of the fortification. European sieges lasted for months at time making it a significant part of warfare in the 14th to 16th century. Western European fortifications were susceptible to artillery fire either containing weakness in a position of the walls or being able to catch fire. The warfare in China was different in that it consisted less on siege warfare but various warfare depending on what areas of China conflicts took place. In South China their strength consisted of infantry and naval forces which made it difficult to involve themselves in Cavalry warfare as traditionally associated of warfare in China. In Central China siege warfare was common involving walled cities next riverbanks which made difficult for cavalry to be used in the region. Fortifications in China in the other hand contained walls made of tamped earth which is fireproof and able to resist more damage than European walls. The way the walls were constructed played a role in the effectiveness of their defense, China's walls were constructed at a slope angle which essentially deflected projectiles and made it difficult to absorb significant damage. European civilizations while improving their defenses against artillery fire were appearing closely to Chinese wall construction. The suburb fortification of China made it difficult to maintain a significant siege but more importantly made it difficult for occurring enemies which consisted of mounted nomadic civilizations to sustain attacks to walled cities. In North China however cavalry warfare was prevalent in conflicts due to attacks from mounted nomadic civilizations. The various types and consistencies of warfare in the region developed the gun powdered technology differently. The warfare in China which consisted with dealing with mounted enemies focused conflict on weaponry that dealt with fast acting enemies who were able to deploy rapidly making the slow reloading of guns all but inefficient. However, it did not mean that China did not use guns and gunpowder. The Ming dynasty used guns to deal with much of the nomadic enemies making several improvements to their guns to make them more efficient but the development of the weaponry slowly stopped around the 15th century. The decline in innovation consisted with the decline of major conflicts in the regions of China by the 16th century, much of the guns were used for domestic order and suppressing minor enemies since the Ming dynasty had significant control of the regions of China. Western Europe however between the 14th and 15th century consisted of constant warfare between several civilizations making gunpowder innovations to aid in their conflicts that lead to inventions such as artillery to breach fortified structures. Scholars such as Tonio Andrade debate that differences in frequency, culture, and fortification of warfare explain the divergence of gunpowder technology while other scholars debate the integration of gunpowder in military units explains the advantage that Western Europe had in further developing gunpowder technology.
At about 668 AD engineer Kallinikos presented a variant of the older incendiary substances which consisted of nitric acid, carbon, tar, petroleum, lime, sulfur and resin, and used as a means of launching the cannon and sifon of Ctesibios (286-222 BC) to which he applied an air pump. The use of the air pump (which was also Ctesibios invention) obviously belonged to an older period, as it eliminated the need to use chemicals and especially ammonia which was so scarce to find in mineral form. It is certain that Kallinikos had the writings of Ctesibios with the general title "Υπομνήματα" ("Memos") from which he utilized various pumping mechanisms and the cannon, as well as works of Heron and Philo.
Although the exact composition of the incendiary substance remains unknown as the later Byzantine engineers and military successfully kept its secret sealed, emperor Leon III (717-741 AD) delivered another variation which consisted of carbon, nitro and sulfur, which in reality was nothing else than the later black powder. Kallinikos incendiary substance was the well known "υγρόν πυρ" ("liquid fire") also known as "Ελληνικό πυρ" ("Ellinik fire" or "Greek fire") and was used mainly by the fleet of the Byzantines, but the other incendiary substance that was described by emperor Leon III differs that it was not a sea weapon (because it deactivated in the water) and was probably linked to a later report by pope Leon VI (929 AD) that described methods of destroying ships from the land with incendiary weapons which were launched with smoke and loud noise. The use of two different incendiary substances in composition shows that the cannon and sifon of Ctesibios was utilized to launch the early type of gun powder as a simple fire tube with a sealed rear end, while to launch the liquid fire as a sifon it was combined with an air pump.
There are countless reports on the use of the fearsome effective liquid fire which was a basic weapon of the marines who were specially trained in the use of portable hand fire tubes (also known as portable handcannons) and portable "χειροσίφωνων" ("handsifons", also known as portable flamethrowers).
Roberto Valturio at about 1450 AD in his work with the title "De re militari" supports that at the reign of pope Leon VI (886-911 AD) the Byzantines used fire tubes that were opened at both ends to launch rockets. Marcus Graecus in his treatise with the title "Liber ignium ad comburendos hostes" that is dated between the years 1225-1250 AD notes however that the methodology and the technical knowledge of rocketry was very old and already known since emperor Leon III.
Beginning of polygonal fortificationsEdit
The period from 1500–1801 saw a rapid advance in techniques of fortification in Europe. Whereas medieval castles had relied on high walls to keep out attackers, early modern fortifications had to withstand artillery bombardments. To do this, engineers developed a style of fortress known as the "Italian style" or trace Italienne. These had low, thick, sloping walls, that would either absorb or deflect cannon fire.
In addition, they were shaped like stars, with bastions protruding at sharp angles. This was to ensure that every bastion could be supported with fire from an adjacent bastion, leaving no "dead ground" for an attacker to take cover in. These new fortifications quickly negated the advantages cannon had offered to besiegers.
The complex and sophisticated designs of star forts that preceded them were highly effective against cannon assault, but proved much less effective against the more accurate fire of rifled guns and the destructive power of explosive shells. The polygonal style of fortification is also described as a "flankless fort". Many such forts were built in the United Kingdom and the British Empire during the government of Lord Palmerston, and so they are also often referred to as Palmerston forts. Their low profile makes them easy to overlook.
In response to the vulnerabilities of star forts, military engineers evolved a much simpler but more robust style of fortification.
The power of aristocracies vis à vis states diminished throughout Western Europe during this period. Aristocrats' 200- to 400-year-old ancestral castles no longer provided useful defences against artillery. The nobility's importance in warfare also eroded as medieval heavy cavalry lost its central role in battle. The heavy cavalry - made up of armoured knights - had begun to fade in importance in the Late Middle Ages. The English longbow and the Swiss pike had both proven their ability to devastate larger armed forces of mounted knights. However, the proper use of the longbow required the user to be extremely strong, making it impossible to amass very large forces of archers.
The proper use of the pike required complex operations in formation and a great deal of fortitude and cohesion by the pikemen, again making amassing large forces difficult. Starting in the early 14th-century, armourers added plate-armour pieces to the traditional protective linked mail armour of knights and men-at-arms to guard against the arrows of the longbow and crossbow. By 1415, some infantrymen began deploying the first "hand cannons", and the earliest small bore arquebuses, with burning "match locks", appeared on the battlefield in the later 15th century.
Decline of plate armourEdit
In virtually all major European battles during a period of 250 years (1400 to 1650), many soldiers wore extensive plate armour; this includes infantrymen (usually pikemen) and almost all mounted troops. Plate armour was expected to deflect edged weapons and to stop an arquebus or pistol ball fired from a distance, and it usually did. The use of plate armour as a remedy to firearms tended to work as long as the velocity and weight of the ball remained quite low, but over time the increasing power and effectiveness of firearms overtook the development of defenses to counteract them, such that flintlock muskets (entering use after 1650) could kill an armoured man at a distance of even 100 yards (though with limited accuracy), and the armour necessary to protect against this threat would have been too heavy and unwieldy to be practical.
The flintlock musket, carried by most infantrymen other than pikemen after 1650, fired a heavier charge and ball than the matchlock arquebus. A recruit could be trained to use a musket in a matter of weeks. Since the early muskets lacked accuracy, training in marksmanship was of little benefit. Operating a musket did not require the great physical strength of a pikeman or a longbowman or the fairly rare skills of a horseman. Unlike their arquebus predecessors, flintlock muskets could neutralize even the most heavily armoured cavalry forces.
Since a firearm requires little training to operate, a peasant with a gun could now undermine the order and respect maintained by mounted cavalry in Europe and their Eastern equivalents. Although well-smithed plate-armour could still prevent the penetration of gunpowder-weapons, by 1690 it had become no match for massed firearms in a frontal attack and its use ended, even among the cavalry. By the end of the 17th century, soldiers in the infantry and most cavalry units alike preferred the higher mobility of being completely unarmoured to the slight protection, but greatly lessened mobility, offered by wearing plate armour.
Transition to flintlock musketsEdit
The arquebus, in use from 1410 was one of the first hand held firearms that were relatively light (it still required a stand to balance on) and a single person could operate one. One of these weapons was first recorded as being used in the Battle of Agincourt in 1415, although this was still very much a medieval battle. The term musket originally applied to a heavier form of the arquebus, which fired a shot that could pierce plate armour, though only at close range. In the 16th century it still had to be mounted on a support stick to keep it steady. The caliver was the lighter form of the arquebus. By 1600, armies phased out these firearms in favour of a new lighter matchlock musket. Throughout the 16th century and up until 1690, muskets used the matchlock design.
However, the matchlock design was superseded in the 1690s by the flintlock musket, which was less prone to misfires and had a faster reloading rate. By this time, only light-cavalry scouting units, "the eyes of the army", continued to wear front and back armour plates to protect themselves from distant or undisciplined musket-equipped troops.
While soldiers armed with firearms could inflict great damage on cavalry at a moderate distance, at close quarters the cavalry could slaughter the musket-armed infantry if they could break their formation and close to engage in melee combat. For many years infantry formations included a mix of troops armed with both firearms to provide striking power and pikes to allow for the defence of the arquebusiers or musketeers from a cavalry charge. The invention of the bayonet allowed the combining of these two weapons into one in the 1690s, which transformed the infantry into the most important branch of the early modern military—one that uniformly made use of flintlock muskets tipped with bayonets.
Nature of warEdit
This period saw the size and scale of warfare greatly increase. The number of combatants involved escalated steadily from the mid 16th century and dramatically expanded after the 1660s. For example, the King of France could field around 20,000 men in total for his wars against Spain in the 1550s, but could mobilize up to 500,000 men into the field by 1700 in the War of the Spanish Succession. Moreover, wars became increasingly deadly in this period. This may in part be attributed to improvements in weapons technology and in the techniques of using it (for example infantry volley fire).
However, the main reason was that armies were now much bigger, but logistical support for them was inadequate. This meant that armies tended to devastate civilian areas in an effort to feed themselves, causing famines and population displacement. This was exacerbated by the increasing length of conflicts, such as the Thirty Years' War and Eighty Years' War, which fought over areas subjected to repeated devastation. For this reason, the wars of this era were among the most lethal before the modern period.
For example, the Thirty Years' War and the contemporary Wars of the Three Kingdoms, were the bloodiest conflicts in the history of Britain and Germany respectively before World War I. Another factor adding to bloodshed in war was the lack of a clear set of rules concerning the treatment of prisoners and non-combatants. While prisoners were usually ransomed for money or other prisoners, they were sometimes slaughtered out of hand - as at the battle of Dungans Hill in 1647.
One of the reasons for warfare's increased impact was its indecisiveness. Armies were slow moving in an era before good roads and canals. Battles were relatively rare as armies could manoeuvre for months, with no direct conflict. In addition, battles were often made irrelevant by the proliferation of advanced, bastioned fortifications. To control an area, armies had to take fortified towns, regardless of whether they defeated their enemies' field armies. As a result, by far the most common battles of the era were sieges, hugely time-consuming and expensive affairs. Storming a fortified city could result in massive casualties and cities which did not surrender before an assault were usually brutally sacked -for example Magdeburg in 1631 or Drogheda in 1649. In addition, both garrisons and besiegers often suffered heavily from disease.
The indecisive nature of conflict meant wars were long and endemic. Conflicts stretched on for decades and many states spent more years at war than they did at peace. The Spanish attempt to reconquer the Netherlands after the Dutch Revolt became bogged down in endless siege warfare. The expense caused the Spanish monarchy to declare bankruptcy several times, beginning in 1577.
The changes in warfare eventually made the mercenary forces of the Renaissance and Middle Ages obsolete. However this was a gradual change. As late as the Thirty Years' War (1618–1648), most troops were mercenaries. However, after this conflict, most states invested in better disciplined and more ideologically inspired troops. For a time mercenaries became important as trainers and administrators, but soon these tasks were also taken by the state. The massive size of these armies required a large supporting force of administrators. The newly centralized states were forced to set up vast organized bureaucracies to manage these armies, which some historians argue is the basis of the modern bureaucratic state.
The combination of increased taxes and increased centralisation of government functions caused a series of revolts across Europe such as the English Civil War and the Fronde in France. In many countries, the resolution of this conflict was the rise of monarchical absolutism. Only in England and the Netherlands did representative government evolve as an alternative. From the late 17th century, states started financing wars through long term low interest loans from national banking institutions like the Bank of England. The first state to take full advantage of this process was the Dutch Republic.
This transformation in the armies of Europe had great social impact. J. F. C. Fuller famously stated that "the musket made the infantryman and the infantryman made the democrat". This argument states that the defence of the state now rested on the common man, not on the aristocrats. Revolts by the underclass, that had routinely been defeated in the Middle Ages, could now conceivably threaten the power of the state. However, aristocrats continued to monopolise the officer corps of almost all early modern armies, including their high command.
Moreover, popular revolts almost always failed unless they had the support and patronage of the noble or gentry classes. The new armies, because of their vast expense, were also dependent on taxation and the commercial classes who also began to demand a greater role in society. The great commercial powers of the Dutch and English matched much larger states in military might. As any man could be quickly trained in the use of a musket, it became far easier to form massive armies. The inaccuracy of the weapons necessitated large groups of massed soldiers. This led to a rapid swelling of the size of armies.
For the first time huge masses of the population could enter combat, rather than just the highly skilled professionals. It has been argued that the drawing of men from across the nation into an organized corps helped breed national unity and patriotism, and during this period the modern notion of the nation state was born. However, this would only become apparent after the French Revolutionary Wars. At this time, the levée en masse and conscription would become the defining paradigm of modern warfare.
Before then, however, most national armies were in fact composed of many nationalities. For example, although the Swedish Army under Gustavus Adolphus was originally recruited by a kind of national conscription, the losses of the Thirty Years' War meant that by 1648 over 80% of its troops were foreign mercenaries. In Spain, armies were recruited from all the Spanish European territories including Spain, Italy, Wallonia and Germany. The French recruited soldiers from Germany, Switzerland and elsewhere as well as from France. Britain recruited Hessian troops until the late 18th century. Irish Catholics made careers for themselves in the armies of many European states (See the Flight of the Wild Geese).
Column - This formation was typically used while marching, although with sufficient will and mass it was effective at breaking through line formations, albeit with heavy casualties.
Line - A simple two- or three-rank deep line formation allowed most muskets to be brought to bear and was the most commonly used battle formation. Often the first rank would kneel after firing to allow the second rank to fire.
Skirmishers - Skirmishers were not a common infantry unit until late in the 18th Century. Light infantry would advance and be the first to fire to draw the enemy to attack, while also probing the flanks. In later eras, sharpshooters would not only target common soldiers, but also officers so that the men were without leadership.
Square - This formation was used against cavalry. Bayonets would be fixed, the first line would kneel with their muskets angled upward (much like a pike.) The second and third lines would fire at the cavalry when it came close. This formation was very ineffective when faced with combined cavalry and infantry, or artillery fire in the case of plain squares.
The rise of gunpowder reduced the importance of the once dominant heavy cavalry, but it remained effective in a new role into the 19th century. The cavalry, along with the infantry, became more professional in this period but it retained its greater social and military prestige than the infantry. Light cavalry was introduced for skirmishing and scouting because of its advantage in speed and mobility. The new types of cavalry units introduced in this period were the dragoons or mounted infantry.
Dragoons were intended to travel on horseback but fight on foot and were armed with carbines and pistols. Even orthodox cavalry carried firearms, especially the pistol, which they used in a tactic known as the caracole. Cavalry charges using swords on undisciplined infantry could still be quite decisive, but a frontal charge against well-ordered musketeers and pikemen was all but futile. Cavalry units, from the 16th century on, were more likely to charge other cavalry on the flanks of an infantry formation and try to work their way behind the enemy infantry. When they achieved this and pursued a fleeing enemy, heavy cavalry could still destroy an enemy army. Only a specialised cavalry units like winged hussars armed with long lances could break pikemen lines, but this was rather an exception. After wars with Polish-Lithuanian Commonwealth, when he fought often against superior mounted troops, King Gustavus II Adolphus started using successfully cavalry melee charge more often instead of caracole like during Battle of Breitenfeld. The cavalry charge remained an important part of battle tactics for the rest of 17th century and until the modern area, and its shock value could be decisive when implemented properly.
However, the power formerly wielded by a heavy cavalry-focused army was at an end. For the first time in millennia, the settled people of the agricultural regions could defeat the horse peoples of the steppe in open combat. The power of the Mongols was broken in Russia and, no longer threatened from the east, Russia began to assert itself as a major force in European affairs. Never again would nomads from the east threaten to overrun Europe or the Middle East. In the Siege of Kazan (1552), Russia had employed artillery, sappers, cavalry and infantry armed with arquebus (Streltsy), while the Khanate of Kazan had only employed cavalry. The use of sappers proved decisive.
The one exception to this was the Ottoman Empire, which had been founded by Turkish horsemen. The Ottomans were some of the first to embrace gunpowder artillery and firearms and integrated them into their already formidable fighting abilities. As European infantry became better armed and disciplined, by about 1700, the Ottoman forces began to be regularly defeated by the troops of the Austria and Russia.
The spread of European power around the world was closely tied to naval developments in this period. The caravel for the first time made unruly seas like the Atlantic Ocean open to exploration, trade, and military conquest. While in all previous eras, European navies had been largely confined to operations in coastal waters, and were generally used only in a support role for land-based forces, this changed with the introduction of the new vessels like the caravel, carack and galleon and the increasing importance of international waterborne trade in the sixteenth and seventeenth centuries. The new caravels were large enough and powerful enough to be armed with cannons with which they could bombard both shoreline defenses and other vessels.
The Ottoman Empire had been one of the first Middle Eastern states to effectively use gunpowder weapons and used them to great effect conquering much of the Middle East, North Africa, and the Balkans. In the 17th century the state began to stagnate as more modern technologies and strategies were not adopted. Specifically, the Ottoman Empire was slow to adopt innovations like boring cannon (rather than casting them in a mold), making the conversion from matchlock firearms to flintlocks, and the lightening of field guns and carriages.
In part this was because the military elite had become a powerful force in the empire and change threatened their positions. David Nicolle theorizes that one contributing factor to the Ottoman reluctance to adopt the flintlock musket, despite its superiority over the matchlock ignition system, was the dusty climate of much of the Middle East which could cause problems with reliability.
Overall, the Ottoman Empire between the 15th and 18th centuries has been assessed as a military producer which copies existing technologies, but does not capture the underlying process of innovation or adaption. Other research, though, complicates that view. A Chinese military manual published in 1644 compared Ottoman and European firearms in the following manner:
Firearms have been in use since the beginning of the dynasty, and field armies in battle formation have found them convenient and useful to carry along... Since muskets have been transmitted to China, these weapons have lost their effectiveness... In battle formation, aside from various cannon such as the "three generals", the breech-loading swivel gun, and the "hundred-league thunder", nothing has more range or power than the Ottoman musket. The next best is the European one.
The fact that Ottoman firearms were considered by 17th century Chinese writers to be superior to European firearms demonstrates that the Ottoman Empire was at least a second tier producer of muskets during this period. However, some claim that the 'European' firearms the Chinese researcher tested were actually Japanese arquebuses based on fifty-year-old Portuguese models. The design of the Ottoman matchlock is substantially different from that of the European variety and it in turn influenced the matchlocks produced in both Safavid Persia and Mughal India.
The Ottoman Empire by the middle of the fifteenth century had developed strategic infantry groups along with the ascension of weaponry. Early modern warfare has many important factors alongside weapons and artillery, and strategy is one of them. Developing a strong core for the sultan was key to understanding the way the Ottoman Empire could expand and take over vast territories to maintain them under their rule. One of the most important creations for their early modern warfare was a group called the Janissaries. They were considered to be an elite group of infantryman that were highly skilled and sociable. With their placement in use for the sultan, they were an unmatched military power that no European power could compete with during the fifteenth century.
The Ottoman Empire was brought up in a different way from most militaristic powers, and that was from the bottom up. They were developed in peaceful upbringings. When they conquered Constantinople in 1453, they had created a transcontinental government that would see them to continue to expand militarily and politically. They used the Janissary units to advance their stronghold on the will of the people they conquered. One of their techniques was to capture boys from the territories they had defeated and forced them to become Muslim in order to control their easily molded minds. It was a similar tactic to many growing empires, because it is understood that children are easily manipulated, and in order to maintain new territories guarded by the Janissary, they needed to have an easier population to mold. The Janissaries also had other roles outside of military conflict. They were one of the main protectors of the sultan in order to prevent coups from happening, or paramilitary units from gaining control of the empire. The problem with this is that the Ottoman Empire made the Janissaries too powerful and because of their socialization, career advancement options, and recruitment procedures, the men in the units were very cohesive and respected each other more than the sultan. This would prove to be an issue later on, but during the fifteenth century it was not an issue yet because their numbers were still growing and would continue to grow in order to boost their elite power.
A man by the name of Konstantin Mihalovic was captured by the Turks in 1455 and would eventually write a memoir about his time with the Ottoman Empire Janissary units. His account would be considered flawed because of the translations from Serbian to Czech and Polish. There is no original text from his memoir and only translations are left to work from, and those have far fetched ideas of what the Janissaries were doing during the time. He was recaptured in 1463 by Hungarian troops and eventually wrote the memoir after he became a Christian again. His memoir is an important piece of history, but scholars and historians have widely debated the authentic nature of his stories and doubt the consistency of his tales.
The Ottoman Empire was one of the first states to put gunpowder weapons into widespread use.[dubious ] The famous Janissary corps of the Ottoman army began using matchlock muskets as early as the 1440s. The army of Mehmed the Conqueror, which conquered Constantinople in 1453, included both artillery and foot soldiers armed with gunpowder weapons. The Ottomans brought to the siege sixty-nine guns in fifteen separate batteries and trained them at the walls of the city. The barrage of Ottoman cannon fire lasted forty days, and they are estimated to have fired 19,320 times.
The 16th century saw the first widespread use of the matchlock musket as a decisive weapon on the battlefield with the Turks becoming leaders in this regard. The first of these campaigns was the campaign against the Persians in 1514 under Yavuz Sultan Selim, or Selim the Grim. Armed with gunpowder weapons, his army defeated the Persians at the Battle of Chaldiran. After his victory over the Safavids, Selim turned his attention towards the Mamluk dynasty in Egypt. The decisive battle of his campaign against the Mamluks, and the battle which highlighted the importance of the musket in the Ottoman military, was the Battle of Raydaniyah, fought in 1517. There, Selim outflanked the entrenched Mamluk artillery, and attacked the Mamluk forces with his Janissaries. The Janissaries, armed with firearms, destroyed the Mamluk army, armed mostly with traditional swords and javelins.
Reference was made by João de Barros to a sea battle outside Jiddah, in 1517, between Portuguese and Ottoman vessels. The Muslim force under Salman Reis had "three or four basilisks firing balls of thirty palms in circumference". This was estimated to be a cannon of about 90 inch bore "firing cut stone balls of approximately 1,000 pounds (453 kg)".
After the death of Selim, he was succeeded by his son Suleiman the Magnificent. During his reign, gunpowder weapons continued to be used effectively. One important example is the Battle of Mohács in 1526. During this battle, Ottoman artillery, and Janissaries armed with muskets, were able to cut down charging Hungarian cavalry.
Although the cannon and musket were employed by the Ottomans long beforehand, by the 17th century they witnessed how ineffective the traditional cavalry charges were in the face of concentrated musket-fire volleys. In a report given by an Ottoman general in 1602, he confessed that the army was in a distressed position due to the emphasis in European forces for musket-wielding infantry, while the Ottomans relied heavily on cavalry. Thereafter it was suggested that the janissaries, who were already trained and equipped with muskets, become more heavily involved in the imperial army while led by their agha.
By the middle of the 17th century, the continued reliance of the Ottomans on over-heavy ordnance had been made out by European officers as a liability. Raimondo Montecuccoli, the Habsburg commander who defeated the Ottomans at Battle of Saint Gotthard commented on Ottoman cannon:
This enormous artillery produces great damage when it hits, but it is awkward to move and it requires too much time to reload and site. Furthermore, it consumes a great amount of powder, besides cracking and breaking the wheels and the carriages and even the ramparts on which it is placed ... our artillery is more handy and more efficient and here resides our advantage over the cannon of the Turks.
Soon after the Ottoman Empire, two other Muslim gunpowder empires appeared: the Safavid Empire in Iran and the Mughal Empire in India. They both began in the early 16th century but later collapsed in the 18th century.
Despite this initial reluctance, the Persians very rapidly acquired the art of making and using handguns. A Venetian envoy, Vincenzo di Alessandri, in a report presented to the Council of Ten on 24 September 1572, observes:
They used for arms, swords, lances, arquebuses, which all the soldiers carry and use; their arms are also superior and better tempered than those of any other nation. The barrels of the arquebuses are generally six spans long, and carry a ball little less than three ounces in weight. They use them with such facility that it does not hinder them drawing their bows nor handling their swords, keeping the latter hung at their saddle bows till occasion requires them. The arquebus is then put away behind the back so that one weapon does not impede the use of the other.
Historian Jean De Juanville confirms Al Hasan Al Ramma describing a strange rocket powered projectile that was used by the Arabs against the units of Louis IX during the seventh crusade. Jean De Juanville notes that the French faced these projectiles for the first time when they attempted a maneuver on the banks to one of the eastern arms of the Nile river in their attempt to capture Damietta. But the reaction of the Arabs on the other side of the bank was immediate and launched projectiles that ended up flaming on the French cavalry.
The weird weapon was a flattened missile in the shape of a biconvex disk with a charge of black powder and a tail to stabilize the orbit. During movement flames came out of small openings which Al Hasan Al Ramma identified with the term "ikrich", while the propulsion was achieved with three rockets by which the two were combined so that they could be used as guide rods for the middle third and far more powerful rocket.
The Ethiopian–Adal war was a military conflict between the Ethiopian Empire and the Adal Sultanate from 1529 until 1543. The Imam Ahmad ibn Ibrihim al-Ghazi (nicknamed Gurey in Somali and Gragn in Amharic (ግራኝ Graññ), both meaning "the left-handed") came close to extinguishing the ancient realm of Ethiopia, and converting all of its subjects to Islam; the intervention of the European Cristóvão da Gama, son of the famous navigator Vasco da Gama, helped to prevent this outcome. Many historians trace the origins of hostility between Somalia and Ethiopia to this war. Some historians also argue that this conflict proved, through their use on both sides, the value of firearms such as the matchlock musket, cannons, and the arquebus over traditional weapons. Imam Ahmed was the first African commander to use cannon warfare on the continent during the Adal's conquest of the Ethiopian Empire under Dawit II.
Kingdom of MysoreEdit
The first iron rockets were developed by Tipu Sultan, a Muslim ruler of the South Indian Kingdom of Mysore. He successfully used these iron rockets against the larger forces of the British East India Company during the Anglo-Mysore Wars. The Mysore rockets of this period were much more advanced than what the British had seen, chiefly because of the use of iron tubes for holding the propellant; this enabled higher thrust and longer range for the missile (up to 2 km range). After Tipu's eventual defeat in the Fourth Anglo-Mysore War and the capture of the Mysore iron rockets, they were influential in British rocket development and were soon put into use in the Napoleonic Wars.
Babur, the founder of the Mughal Empire on the Indian subcontinent, employed firearms, gun carts and movable artillery in battle. In particular, he used them at the first Battle of Panipat (1526) to defeat the much larger forces of Ibrahim Lodhi, the last ruler of the Delhi Sultanate. Other battles he fought using gunpowder weapons include the Battle of Khanwa in 1527 against Rana Sanga, and the Battle of Ghaghra in 1529.
His descendants also employed gunpowder weapons in their expansion of the Mughal Empire, such as Akbar the Great at the second Battle of Panipat (1556) against Adil Shah Suri and Hemu of the Sur Dynasty. In 1582, Fathullah Shirazi, a Persian-Indian developed a seventeen-barrelled cannon, fired with a matchlock.
The Mongols also made use of the fire arrow (rocket arrow) during their campaigns in Japan. Probably as a result of the Mongolian military campaigns the fire arrows (rocket arrows) later spread into the Middle East, where they were mentioned by Al Hasan Al Ramma in the late 13th century.
In 1374 the kingdom of Joseon also started producing gunpowder and by 1377 was producing cannons and fire arrows (rocket arrows), which they used against wokou pirates. Korean fire arrows (rocket arrows) were used against the Japanese during the invasion of Korea in 1592.
The Japanese were introduced to early firearms by Portuguese traders arriving with European style arquebuses onto the island of Tanegashima, near the island of Kyushu in September 1543. The impact of this event would revolutionize Japanese strategy throughout the Sengoku-jidai, revolving around tactics that centered on usage of firearms.
While memoirs by Fernão Mendes Pinto attribute himself and Diogo Zeimoto as the traders to initially introduce firearms to Japan, studies of said memoirs call this claim highly embellished, and therefore the validity of this claim falls into question. Daimyō of the period, searching for any sort of new tactical edge over their regional rivals, were quick to acquire and have blacksmiths under their retinue, reverse-engineer and reproduce the early European firearms. Portuguese traders visiting Japan several years later found that the Japanese had successfully reproduced hundreds of arquebuses, and by 1546, a rough estimate of over 300,000 of the early firearms were in circulation throughout Japan. Early production of said firearms were limited to the general region of Kyushu, though gunsmiths would eventually migrate throughout Japan. Different schools started to emerge from this migration. with notable examples from Sakai, Yokkaichi, and Kunitomo being the most prevalent. Moreover, production of small arms ranged from the early Tanegashima arquebus, to later production teppo, which also subdivided into arquebuses of varying caliber and length, to "hand cannons" favored by those of the Shimazu clan.
Japanese military strategy upon receiving the new weapon, began to gradually shift towards infantry based tactics, rather than those that favored horseback cavalry. This is most famously portrayed at the Battle of Nagashino in 1575, where Oda Nobunaga's 3,000 riflemen had handily dispatched the much larger Takeda clan cavalry force using the first recorded utilization of volley fire. However, certain studies have disputed the claim that Nobunaga was the first to utilize this tactic, though Japanese forces were utilizing it far earlier than other world contemporaries. Japanese battle planning soon centered around manipulating one's enemies into allied fortified positions to rapidly dispatch enemy manpower, only engaging in hand-to-hand combat when necessary.
Similarly, Japanese daimyō were introduced to artillery in 1551, when a trader claiming to be the king of Rome presented elements of the Ōtomo clan with two examples of field artillery. As with their small arms counterparts, many warlords wished to quickly adopt the weapon in order to gain an advantage over their contemporaries, but difficulties in producing suitable reproductions led to limited early usage in comparison. As with personal firearms, Oda Nobunaga was early to adopt the new weapon, and later, after his death, one of his retainers Toyotomi Hideyoshi would use cannons to destructive effect to lay siege to Kanki Castle in 1582. Moreover, Nobunaga had attempted to incorporate cannons onto warships in 1578, but their inefficacy against rival naval daimyō forces under the Mori had led to the discontinuation of any further implementations to other naval forces.
These changes and adoptions into Sengoku era Japanese warfare made themselves present during the Japanese invasions of Korea of 1592-1598 after Toyotomi Hideyoshi had unified Japan. Early success in the first incursion during May 1592 into Korea was attributed to the varied small arms and tactics of the Japanese forces, allowing them to make and defend early footholds into the Korean peninsula. However, after the Koreans had allied themselves with Ming China, they gained access to better artillery with greater range and destructive power than their Japanese equivalents. Finally, the Korean navy under the command of Yi Sun-sin had utilized the superior, cannon-armed navy of the Korean-Ming alliance against the Japanese maritime supply lines, eventually leading to a shortage of supplies and Japanese losses on the mainland. Japan was driven off their last stronghold in Seoul in May 1594, and subsequent ventures 1597 would not come close to the success of the first, as the Korean-Ming alliance had developed countermeasures and equivalent small arms to Japanese equivalents.
The Japanese version of the fire arrow (rocket arrow) was known as the bo hiya. The Japanese pirates (wokou, also known as wako or kaizoku) in the 16th century were reported to have used the bo hiya which had the appearance of a large arrow. A burning element made from incendiary waterproof rope was wrapped around the shaft and when lit the bo hiya was launched from a mortar like weapon hiya taihou or a wide bore Tanegashima matchlock arquebus. During one sea battle it was said the bo hiya were "falling like rain".
It is believed that Vietnam's Lý dynasty had begun using fire arrows (rocket arrows) hỏa tiễn in the Lý–Song War (1075–1077) during the siege of the fortified city of Yongzhou. Around 1260s, the Vietnamese introduced the new thủ pháo ("proto cannon musket") which was a small bamboo tube with one side closed and a small hole for the fuse that ignited the gunpowder on it and launched out a sharped iron piece.
In 1390, the King of Champa Po Binasuor and his army was ambushed and killed by the cannons of Vietnamese prince Trần Khát Chân while Champa was attacking Đại Việt.:107–109Hồ Nguyên Trừng (1377–1446) was a Vietnamese gunpowder engineer that was captured to the Ming Empire in 1407. He later helped the Chinese produce many effective cannons.
Western matchlock arquebuses were imported into Vietnam during the early 16th century. The raging and lengthy wars between Le and Mac dynasties, and later Trinh and Nguyen clans invoked an arm race between the opposing factions. Gunnery and marksmanship rapidly spread across the country and soon Vietnamese musketeers became famous within Asia as masters of firearms.
The discovery of gunpowder was a result of Chinese Alchemy as they were seeking immortality. The earliest record of gunpowder was during the 11th century. As their knowledge of gunpowder spread through the early modern world, the development of warfare weapons emerged.
The introduction of gunpowder allowed for the creation of the first guns that were invented in China. Other Chinese inventions such as the compass did not spread as rapidly as guns. Gunpowder and the development of guns influenced other empires as it changed early modern warfare.
From the 15th through 18th century, there were widespread advances in gunpowder technology. While the Europeans were pressed on technological advancements and military developments with gunpowder, the Chinese fell back in regards to further developing military technology. This was due to the matter, that the Chinese were not as heavily engaged in wars or conquests as the Europeans. Notably, when the Chinese were at war with the Portuguese, for example, they swiftly adapted to military technology, and adopted Western style guns.
The Chinese pioneered the use of gunpowder weapons, crossbows, advanced forms of arms and armor, naval and nomadic cavalry. Thus, the Chinese even adopted Western military technology. Interestingly, the Chinese had many descriptions of how they utilized their technology. For Ming China, they had experiences on the battlefield: against Chinese rebels, Shan elephants, and Mongol horsemen. Nonetheless, under the Ming Dynasty, intensively practiced tactical strategies based on their firearm use. Qi Jiguang and his troops used innovative battle techniques such as counter marching, dividing the troops, as a flexible way of adapting to the battlefield. These tactics were proved effective during the Sino-Dutch War beginning in 1661. While the Chinese were undermined as the inferior empire due to lack of weaponry, their strict adherence discipline and tactical strategy led to them defeating the Dutch. This draws a parallel to the Sino-Portuguese conflict. During the first war, in 1521, the Portuguese firepower was far more effective than the Chinese. As they witnessed the power of Portuguese artillery, the Chinese better prepared for the war in 1522. They modified, adapted, innovated and improved. The Chinese were a display of rapid militarization, as they instilled Western style learnings to their knowledge of artillery and war tactical strategy.
- Hodgson 1974, p. III:16. sfn error: no target: CITEREFHodgson1974 (help)
- Needham, Joseph (1986), Science & Civilisation in China, V:7: The Gunpowder Epic, Cambridge University Press, p. 118-124, ISBN 0-521-30358-3.
- Ebrey, Patricia (1999), Cambridge Illustrated History of China, Cambridge: Cambridge University Press, p. 138, ISBN 0-521-43519-6.
- ANDRADE, TONIO (2016). "The gunpowder age". The gunpowder age: China, military innovation, and the rise of the West in world history. Princeton University Press. ISBN 9780691135977. JSTOR j.ctvc77j74.
- Needham, Joseph (1986), Science & Civilisation in China, V:7: The Gunpowder Epic, Cambridge University Press, p. 222, ISBN 0-521-30358-3.
- Chase, Kenneth Warren (2003). Firearms: A Global History to 1700. Cambridge University Press, p. 31, ISBN 978-0-521-82274-9.
- Peter Allan Lorge (2008), The Asian Military Revolution: from Gunpowder to the Bomb, Cambridge University Press, pp 33–34, ISBN 978-0-521-60954-8.
- Chase, Kenneth Warren (2003). Firearms: A Global History to 1700. Cambridge University Press, p. 32, ISBN 978-0-521-82274-9.
- Needham, Joseph (1986), Science & Civilisation in China, V:7: The Gunpowder Epic, Cambridge University Press, p. 293, ISBN 0-521-30358-3.
- Stephen Turnbull (2013). The Mongol invasions of Japan 1274 and 1281. Osprey Publishing. pp. 41–42. ISBN 978-1-4728-0045-9.
- Delgado, James (February 2003). "Relics of the Kamikaze". Archaeology. Archaeological institute of America. 56 (1).
- Kelly 2004:29
- Norris 2003:19 harvcolnb error: no target: CITEREFNorris2003 (help)
- Roy, Kaushik (1 June 2012). "Horses, guns and governments: A comparative study of the military transition in the Manchu, Mughal, Ottoman and Safavid empires, circa 1400 to circa 1750". International Area Studies Review. 15 (2): 99–121. doi:10.1177/2233865912447087. ISSN 2233-8659. S2CID 144123730.
- Andrade, Tonio, author (29 August 2017). The gunpowder age: China, military innovation, and the rise of the West in world history. ISBN 9780691178141. OCLC 1012935274.CS1 maint: multiple names: authors list (link)
- Iliopoulos, Georgios (November 2002). "Η χαμένη πυραυλική τεχνολογία των αρχαίων Ελλήνων" [The lost missile technology of the ancient Greeks]. Ιχώρ (in Greek). Greece (27).
- Jonathan Grant, "Rethinking the Ottoman Decline: Military Technology Diffusion in the Ottoman Empire, Fifteenth to Eighteenth Centuries", Journal of World History, Vol. 10, No. 1 (1999) 179-201 (182)
- Nicolle, David (1995). The Janissaries. Osprey. p. 22. ISBN 1-85532-413-X.
- Jonathan Grant, "Rethinking the Ottoman Decline: Military Technology Diffusion in the Ottoman Empire, Fifteenth to Eighteenth Centuries", Journal of World History, Vol. 10, No. 1 (1999) 179-201 (181)
- Chase, Kenneth (2003). Firearms: A global history to 1700. Cambridge University Press. p. 2. ISBN 0-521-82274-2.
- Kadercan, Burak (January 2014). "Strong armies, slow adaptation: Civil-military relations and the diffusion of military power" (PDF). International Security. 38 (3): 117–152. doi:10.1162/isec_a_00146. ISSN 0162-2889.
- Dittrich, Z.R. (1976). "Review of memoirs of a Janissary". Canadian Slavonic Papers. 18 (4): 486–487. ISSN 0008-5006. JSTOR 40867530.
- Isom-Verhaaren (2014). "Constructing Ottoman identity in the reigns of Mehmed II and Bayezid II". Journal of the Turkish and Ottoman Studies Association. 1 (1–2): 111–128. doi:10.2979/jottturstuass.1.1-2.111. JSTOR 10.2979/jottturstuass.1.1-2.111.
- Ménage, V.L. (1977). "Review of Memoirs of a Janissary, Memoiren eines Janitscharen oder Türkische Chronik". Bulletin of the School of Oriental and African Studies, University of London. 40 (1): 155–160. doi:10.1017/S0041977X00040660. ISSN 0041-977X. JSTOR 615846.
- ŚWIĘTOCHOWSKI, TADEUSZ (1977). "Review of Memoirs of a Janissary". The Polish Review. 22 (1): 118–119. ISSN 0032-2970. JSTOR 25777469.
- Nicolle, David (2000). Constantinople 1453: The end of Byzantium. London: Osprey. pp. 29–30. ISBN 1-84176-091-9.
- Nicolle, David (1983). Armies of the Ottoman Turks 1300-1774. Osprey. pp. 29–30. ISBN 0-85045-511-1.
- Kinross, Lord (1977). The Ottoman centuries: The rise and fall of the Turkish empire. HarperCollins. pp. 166–167. ISBN 0-688-08093-6.
- Nicolle, David (1983). Armies of the Ottoman Turks 1300-1774. Osprey Publishing. p. 31. ISBN 0-85045-511-1.
- Guilmartin 1974, Introduction: Jiddah, 1517
- Kinross, Lord (1977). The Ottoman centuries: The rise and fall of the Turkish empire. HarperCollins. pp. 186–187. ISBN 0-688-08093-6.
- Khan 2004:5–6
- Jonathan Grant, "Rethinking the Ottoman Decline: Military Technology Diffusion in the Ottoman Empire, Fifteenth to Eighteenth Centuries", Journal of World History, Vol. 10, No. 1 (1999) 179-201 (191)
- Khan 2004:6
- Iliopoulos, Georgios (November 2002). "Η χαμένη πυραυλική τεχνολογία των αρχαίων Ελλήνων" [The lost missile technology of the ancient Greeks]. Ιχώρ (in Greek). Greece (27).
- Jeremy Black, Cambridge illustrated atlas, warfare: Renaissance to revolution, 1492-1792, (Cambridge University Press: 1996), p.9.
- Roddam Narasimha (1985). Rockets in Mysore and Britain, 1750-1850 A.D. Archived 27 September 2007 at the Wayback Machine National aeronautical laboratory and Indian institute of science.
- Clarence-Smith, William Gervase, Science and technology in early modern Islam, c.1450-c.1850 (PDF), Global economic history network, London School of Economics, p. 7
- ese%20fire%20arrow&f=true The rocket, New Cavendish books, 1978 ISBN 0-904568-10-5 P.10
- +fire+arrow&hl=en&sa=X&ei=ljQ3T5PAI5C2twfcsqy7Ag&ved=0CDcQ6AEwAQ#v=onepage&q=Sin gijeon%20fire%20arrow&f=true The rocket, New Cavendish books, 1978 ISBN 0-904568-10-5 P.2
- Chase 2003, p. 173. sfn error: multiple targets (2×): CITEREFChase2003 (help)
- ig=AHIEtbRdGS56TF8sFZ4ooExjoVUlZJgJqg Fifty wonders of Korea, Volume 2, Korean Spirit and Culture Series, Authors Korean Spirit & Culture Promotion Project, Diamond Sutra Recitation Group, Publisher Korean Spirit & Culture Promotion Project, 2007, ISBN 978-0-9797263-4-7 P.51-60
- jeon+fire+arrow&hl=en&sa=X&ei=4xyVT4z6BsLqtgfCs8i1Cw&ved=0CDAQ6AEwAA#v=onepage&q =hwajeon%20fire%20arrow&f=false Science and technology in Korean history: Excursions, innovations, and issues, Jain Publishing Company, 2005, ISBN 978-0-89581-838-6 P.82
- e+arrow&hl=en&sa=X&ei=sTU3T77nGsnMtgeHpczBAg&ved=0CE4Q6AEwBQ#v=onepage&q=korean% 20fire%20arrow&f=true Fighting techniques of the Oriental world, AD 1200-1860: equipment, combat skills, and tactics fighting techniques, Authors Michael E. Haskew, Christer Joregensen, Eric Niderost, Chris McNab, Publisher Macmillan, 2008, ISBN 978-0-312-38696-2 P.102
- ame=&searchType=a&keyword=화차 "Articles of 1451, Munjongsillok of Annals of Joseon Dynasty (from book 5 to 9, click 문종 for view)" Check
|url=value (help). National institute of Korean history. 1451. Retrieved 15 November 2015.
- Swope, Kenneth M. (2005). "Crouching tigers, secret weapons: Military technology employed during the Sino-Japanese-Korean war, 1592-1598". The Journal of Military History. 69 (1): 11–41. doi:10.1353/jmh.2005.0059. ISSN 0899-3718. JSTOR 3397041. S2CID 159829515.
- Brown, Delmer M. (1948). "The impact of firearms on Japanese warfare, 1543-1598". The Far Eastern Quarterly. 7 (3): 236–253. doi:10.2307/2048846. ISSN 0363-6917. JSTOR 2048846.
- Andrade, Tonio (2016). The gunpowder age: China, military innovation, and the rise of the West in world history. Princeton University Press. pp. 166–187. ISBN 9780691135977.
- wAA#v=onepage&q&f=false Pirate of the Far East: 811-1639, Stephen Turnbull, Osprey Publishing, Nov 20, 2007 P.34
- "The history of gunpowder military using of Vietnam" (in Vietnamese). Thanh Bình. 10 March 2013.
- Maspero, G., 2002, The Champa Kingdom, Bangkok: White Lotus Co., Ltd., ISBN 9747534991
- Needham, Joseph, 1900-1995 (2004). Science and civilisation in China. Cambridge University Press. ISBN 0511018630. OCLC 1104396943.CS1 maint: multiple names: authors list (link)
- Andrade 2016, p. 31.
- Chase, Kenneth (2003), Firearms: A Global History to 1700, Cambridge University Press.
- Crosby, Alfred W. (2002), Throwing Fire: Projectile Technology Through History, Cambridge University Press.
- Gartz, Jochen. Vom griechischen Feuer zum Dynamit. Eine Kulturgeschichte der Explosivstoffe. E.S.Mittler& Sohn.Hamburg (Germany)2007.ISBN 978-3-8132-0867-2.
- Guilmartin, John Francis (1974), Gunpowder and Galleys: Changing technology and Mediterranean warfare at sea in the sixteenth century, Cambridge University Press
- Keegan, John. The face of battle : a study of Agincourt, Waterloo, and the Somme. London : Barrie & Jenkins, 1988.
- Kelly, Jack (2004), Gunpowder: Alchemy, Bombards, & Pyrotechnics: The History of the Explosive that Changed the World, Basic Books.
- Khan, Iqtidar Alam (2004), Gunpowder and Firearms: Warfare in Medieval India, Oxford University Press.
- Needham, Joseph (1986). Science and Civilization in China: Volume 4, Part 3. Taipei: Caves Books, Ltd.
- Needham, Joseph (1986), Science & Civilisation in China, V:7: The Gunpowder Epic, Cambridge University Press.
- Paret, Peter. Gordon A. Craig. Felix Gilbert. ed. Makers of modern strategy : from Machiavelli to the nuclear age. Princeton, N.J. : Princeton University Press, c1986.
- Parker Geoffrey, The Military Revolution and the rise of the West
- Parker Geoffrey, Empire War and Faith in Early Modern Europe, Penguin Books, London 2003.
- Schürger, André (2015), The Battle of Lützen: an examination of 17th century military material culture, University of Glasgow 
- Sturdy, David, Fractured Europe, 1600-1721, Blackwell, Oxford 2002.
- Tallet, Frank, War and Society in Early Modern Europe 1495–1715, Routledge, London 1992.
- Townsend, Charles. The Oxford History of Modern War Oxford: Oxford University Press, 2000.
- Zhang, Yunming (1986), "Ancient Chinese sulfur manufacturing processes", Isis, 77 (3): 487–497, doi:10.1086/354207, PMID 3533841
- Military Science in Western Europe in the 16th Century. Prologue: The Nature of Armies in the 16th Century (PDF).
- From Gunpowder to World Domination
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