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Firearms in D&D
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<blockquote data-quote="Relic" data-source="post: 1863290" data-attributes="member: 8159"><p><strong>Types of firing mechanisms</strong></p><p></p><p>Earliest Firearms:</p><p></p><p>One of the greatest scientists of the Middle Ages was Roger Bacon, born in 1241 in Somerset, England. Between 1257 and 1265, Bacon wrote a book of chemistry called Opus Majus which contained a recipe for gunpowder. The earliest picture of a gun is in a manuscript dated 1326 showing a pear-shaped cannon firing an arrow. Crude cannons were used by King Edward III against the Scots in the following year. In general, the design of the firearm components has remained almost unchanged since the first hand-held weapons were built - except for the ignition system. The earliest guns had a simple hole in the barrel, called a touch-hole, where the powder inside the barrel was exposed. The gun was fired by touching either a burning wick or a red-hot iron to the exposed gun powder. Over the centuries, the development of more sophisticated and reliable ignition systems distinguished later period guns from earlier ones.</p><p></p><p>Early cannons were prone to bursting, and in some cases convicts were released from prison for the purpose of loading and firing cannons. The first rifled gun barrels were made in the 1400s. This early date may be surprising, but makes perfect sense when one considers that arrow makers had learned to angle the fletchings on an arrow's shaft to make it spin as it flew through the air, giving it greater stability. This technique carried over to firearms. Rifled barrels were rare until improvements in manufacturing techniques in the 1800s made them easier to fabricate.</p><p></p><p>The Matchlock:</p><p></p><p>The Matchlock was a welcome improvement in the mid-fifteenth century and remained in use even into the early 1700s, when it was much cheaper to mass produce than the better classes of firearms with more sophisticated ignition systems. The Matchlock secured a lighted wick in a moveable arm which, when the trigger was depressed, was brought down against the flash pan to ignite the powder. This allowed the musketeer to keep both hands on the gun, improving his aim drastically. The gun had its weaknesses, though. It took time to ignite the end of the wick, which left the musketeer useless in case of a surprise attack. Also, it was difficult to keep the wick burning in damp weather. For the most part, longbowmen were more effective in battle than the musketeers. The one real advantage the musketeers possessed was the intimidation factor which their weapons provided. The first important use of musketeers was in 1530 when Francis I organized units of arquebusiers or matchlock musketeers in the French army. </p><p></p><p>By 1540 the matchlock design was improved to include a cover plate over the flash pan which automatically retracted as the trigger was pressed.</p><p></p><p>The matchlock was the primary firearm used in the conquering of the New World. In time, the Native Americans (Indians) discovered the weaknesses of this form of ignition and learned to take advantage of them. Even Henry Hudson was defeated by an Indian surprise attack in 1609 due to unlit matches. The matchlock was introduced by Portuguese traders to Eastern countries around 1498, particularly India and Japan, and was used by them well into the 19th century.</p><p></p><p>The Wheel Lock:</p><p></p><p>It is said to have been invented by Johann Kiefuss of Nuremberg in 1517, and the idea probably came from the spring driven tinder lighter in use at the time. The idea of this mechanism is simple. Have you ever used a modern lighter which has a flint pressed up against a roughened metal wheel? When you spin the wheel with your finger, the flint pressed against its surface throws off sparks. The same system was used in these firearms to create sparks as needed to ignite the gunpowder to fire the gun. No more waiting to get a wick lit, and no more stressing about it going out when the fog rolls in.</p><p></p><p>In 1530, Charles V, the Holy Roman Emperor who ruled over Spain and Austria, imported the brothers Marquarte to transfer their workshops from Augsburg to Madrid. They brought to Spain unsurpassed knowledge of firearms production.</p><p></p><p>The wheel lock design was eventually improved with more durable springs, their main weak point, and a cover over the wheel mechanism to protect it and keep it dry. The wheel lock was an expensive gun to make and a matchlock cost less than half as much, so it was impossible to equip a complete army with the more costly mechanism. Only a person of substantial wealth could afford one for himself.</p><p></p><p>By around 1560 German gunsmiths were using wooden stocks and adorning them with inlays of ivory and horn. At about this time the metal parts were fire-blued to add extra beauty and to protect against corrosion. Also, metallurgy had improved to the point that gun barrels were no longer bursting very often. The strongest barrels were of damascene manufacture. In this process, strips of metal about the thickness of a man's finger are wound together. Then, another strip is wound around them for the full length of the piece, then the whole thing is heated and welded. It is hammered and forged into the final shape, then bored out. The damascene barrel was the only one that could survive being packed for its full length with gunpowder then fired. Other gun barrels were at risk with only a quarter of their length packed. </p><p></p><p>The Flintlock:</p><p></p><p>The Flintlock was developed in France around 1612. A key contributor to this development was Marin le Bourgeoys who was assigned to the Louvre gun shops by King Henri IV of France. The Flintlock's manufacture slowly spread throughout Europe, and by the second half of the century it became more popular than the Wheel Lock and Snaphaunce. The main difference between the Flintlock and Snaphaunce is that in the Flintlock the striking surface and flashpan cover are all one piece, where in the Snaphaunce they are separate mechanisms. This made the mechanism even simpler, less expensive, and more reliable than its predecessor. This simplicity allowed for more creative gun designs, such as guns with multiple barrels and miniature pistols which could be concealed easily inside a garment. By 1664 experiments with rotating-block repeated fire guns were under way (like a revolver which holds a number of shots in a rotating cylinder) but such weapons were dangerous to operate and would have to wait for another century and a half to be made a standard weapon.</p><p></p><p>The northern Arabs acquired the Snaphaunce and Flintlock in the late 1600s and often designed their long guns with a sharply curving butt so that they could be tucked under an arm and fired single-handed from the back of a camel or horse.</p><p></p><p>In the early 1700s the Brown Bess Flintlock made its appearance. It probably got its name from the acid-brown treatment of its barrel. I mention this so that any flintlock owners with those brown-treated guns (like mine!) will understand just how late in the game they appeared. By this time, the flintlock was accurate up to about 80 yards but nobody could aim at a man and kill him at 200 yards. A shooter of average experience could load and fire two to three rounds per minute.</p><p></p><p>The Percussion Cap </p><p></p><p>The Percussion Cap ignition system was developed in 1805 by the Reverend John Forsyth of Aberdeenshire. This firing mechanism is a great step in advancement from its predecessors because it does not use an exposed flashpan to begin the ignition process. Instead, it has a simple tube which leads straight into the gun barrel.</p><p></p><p>The key to this system is the explosive cap which is placed on top of the tube. The cap contains fulminate of mercury, a chemical compound which explodes when it is struck. This is the same stuff as is used in the paper or plastic caps in a child's cap gun. As illustrated above, when the cap is struck by the hammer, the flames from the exploding fulminate of mercury go down the tube, into the gun barrel, and ignite the powder inside the barrel to propel the bullet.</p><p></p><p>This firing mechanism provided a major advance in reliability, since the cap was almost certain to explode when struck. This mechanism is almost immune to dampness, though in a rainfall one must still be cautious to avoid getting water in the gun barrel or into the ignition system while loading the weapon. The percussion cap was the key to making reliable rotating-block guns (revolvers) which would fire reliably, and in the early 1800s several manufacturers began producing these multiple-shot sidearms in mass quantities. The percussion cap firing mechanism gave an individual soldier a weapon of precision and reliability which was used to devastating effect in the U.S. Civil War.</p></blockquote><p></p>
[QUOTE="Relic, post: 1863290, member: 8159"] [b]Types of firing mechanisms[/b] Earliest Firearms: One of the greatest scientists of the Middle Ages was Roger Bacon, born in 1241 in Somerset, England. Between 1257 and 1265, Bacon wrote a book of chemistry called Opus Majus which contained a recipe for gunpowder. The earliest picture of a gun is in a manuscript dated 1326 showing a pear-shaped cannon firing an arrow. Crude cannons were used by King Edward III against the Scots in the following year. In general, the design of the firearm components has remained almost unchanged since the first hand-held weapons were built - except for the ignition system. The earliest guns had a simple hole in the barrel, called a touch-hole, where the powder inside the barrel was exposed. The gun was fired by touching either a burning wick or a red-hot iron to the exposed gun powder. Over the centuries, the development of more sophisticated and reliable ignition systems distinguished later period guns from earlier ones. Early cannons were prone to bursting, and in some cases convicts were released from prison for the purpose of loading and firing cannons. The first rifled gun barrels were made in the 1400s. This early date may be surprising, but makes perfect sense when one considers that arrow makers had learned to angle the fletchings on an arrow's shaft to make it spin as it flew through the air, giving it greater stability. This technique carried over to firearms. Rifled barrels were rare until improvements in manufacturing techniques in the 1800s made them easier to fabricate. The Matchlock: The Matchlock was a welcome improvement in the mid-fifteenth century and remained in use even into the early 1700s, when it was much cheaper to mass produce than the better classes of firearms with more sophisticated ignition systems. The Matchlock secured a lighted wick in a moveable arm which, when the trigger was depressed, was brought down against the flash pan to ignite the powder. This allowed the musketeer to keep both hands on the gun, improving his aim drastically. The gun had its weaknesses, though. It took time to ignite the end of the wick, which left the musketeer useless in case of a surprise attack. Also, it was difficult to keep the wick burning in damp weather. For the most part, longbowmen were more effective in battle than the musketeers. The one real advantage the musketeers possessed was the intimidation factor which their weapons provided. The first important use of musketeers was in 1530 when Francis I organized units of arquebusiers or matchlock musketeers in the French army. By 1540 the matchlock design was improved to include a cover plate over the flash pan which automatically retracted as the trigger was pressed. The matchlock was the primary firearm used in the conquering of the New World. In time, the Native Americans (Indians) discovered the weaknesses of this form of ignition and learned to take advantage of them. Even Henry Hudson was defeated by an Indian surprise attack in 1609 due to unlit matches. The matchlock was introduced by Portuguese traders to Eastern countries around 1498, particularly India and Japan, and was used by them well into the 19th century. The Wheel Lock: It is said to have been invented by Johann Kiefuss of Nuremberg in 1517, and the idea probably came from the spring driven tinder lighter in use at the time. The idea of this mechanism is simple. Have you ever used a modern lighter which has a flint pressed up against a roughened metal wheel? When you spin the wheel with your finger, the flint pressed against its surface throws off sparks. The same system was used in these firearms to create sparks as needed to ignite the gunpowder to fire the gun. No more waiting to get a wick lit, and no more stressing about it going out when the fog rolls in. In 1530, Charles V, the Holy Roman Emperor who ruled over Spain and Austria, imported the brothers Marquarte to transfer their workshops from Augsburg to Madrid. They brought to Spain unsurpassed knowledge of firearms production. The wheel lock design was eventually improved with more durable springs, their main weak point, and a cover over the wheel mechanism to protect it and keep it dry. The wheel lock was an expensive gun to make and a matchlock cost less than half as much, so it was impossible to equip a complete army with the more costly mechanism. Only a person of substantial wealth could afford one for himself. By around 1560 German gunsmiths were using wooden stocks and adorning them with inlays of ivory and horn. At about this time the metal parts were fire-blued to add extra beauty and to protect against corrosion. Also, metallurgy had improved to the point that gun barrels were no longer bursting very often. The strongest barrels were of damascene manufacture. In this process, strips of metal about the thickness of a man's finger are wound together. Then, another strip is wound around them for the full length of the piece, then the whole thing is heated and welded. It is hammered and forged into the final shape, then bored out. The damascene barrel was the only one that could survive being packed for its full length with gunpowder then fired. Other gun barrels were at risk with only a quarter of their length packed. The Flintlock: The Flintlock was developed in France around 1612. A key contributor to this development was Marin le Bourgeoys who was assigned to the Louvre gun shops by King Henri IV of France. The Flintlock's manufacture slowly spread throughout Europe, and by the second half of the century it became more popular than the Wheel Lock and Snaphaunce. The main difference between the Flintlock and Snaphaunce is that in the Flintlock the striking surface and flashpan cover are all one piece, where in the Snaphaunce they are separate mechanisms. This made the mechanism even simpler, less expensive, and more reliable than its predecessor. This simplicity allowed for more creative gun designs, such as guns with multiple barrels and miniature pistols which could be concealed easily inside a garment. By 1664 experiments with rotating-block repeated fire guns were under way (like a revolver which holds a number of shots in a rotating cylinder) but such weapons were dangerous to operate and would have to wait for another century and a half to be made a standard weapon. The northern Arabs acquired the Snaphaunce and Flintlock in the late 1600s and often designed their long guns with a sharply curving butt so that they could be tucked under an arm and fired single-handed from the back of a camel or horse. In the early 1700s the Brown Bess Flintlock made its appearance. It probably got its name from the acid-brown treatment of its barrel. I mention this so that any flintlock owners with those brown-treated guns (like mine!) will understand just how late in the game they appeared. By this time, the flintlock was accurate up to about 80 yards but nobody could aim at a man and kill him at 200 yards. A shooter of average experience could load and fire two to three rounds per minute. The Percussion Cap The Percussion Cap ignition system was developed in 1805 by the Reverend John Forsyth of Aberdeenshire. This firing mechanism is a great step in advancement from its predecessors because it does not use an exposed flashpan to begin the ignition process. Instead, it has a simple tube which leads straight into the gun barrel. The key to this system is the explosive cap which is placed on top of the tube. The cap contains fulminate of mercury, a chemical compound which explodes when it is struck. This is the same stuff as is used in the paper or plastic caps in a child's cap gun. As illustrated above, when the cap is struck by the hammer, the flames from the exploding fulminate of mercury go down the tube, into the gun barrel, and ignite the powder inside the barrel to propel the bullet. This firing mechanism provided a major advance in reliability, since the cap was almost certain to explode when struck. This mechanism is almost immune to dampness, though in a rainfall one must still be cautious to avoid getting water in the gun barrel or into the ignition system while loading the weapon. The percussion cap was the key to making reliable rotating-block guns (revolvers) which would fire reliably, and in the early 1800s several manufacturers began producing these multiple-shot sidearms in mass quantities. The percussion cap firing mechanism gave an individual soldier a weapon of precision and reliability which was used to devastating effect in the U.S. Civil War. [/QUOTE]
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