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Gunpowder is a substance which burns rapidly, used as a propellant for firearms. There are two types, "black powder" and "smokeless powder." Almost all modern guns use smokeless powder. While black powder is classified as an 'explosive', modern smokeless powder merely burns rapidly as described below.

Gunpowder burns producing a subsonic deflagration wave rather than a supersonic detonation wave as do high explosives. This reduces peak pressures in a gun, but makes it less suitable for shattering rock or fortifications.

Smokeless powder consists of almost pure nitrocellulose, frequently combined with up to 20 percent nitroglycerin corned into small spherical balls or extruded into cylinders or flakes using solvents such as ether. Smokeless powder burns only on the surfaces of the granules. Larger granules burn more slowly, and the burn rate is further controlled by flame-deterrent coatings which retard burning slightly. The intent is to regulate the burn rate so that a more or less constant pressure is exerted on the propelled projectile as long as it is in the barrel so as to obtain the highest velocity. Cannon powder has the largest granules, up to thumb-sized cylinders with seven perforations (one central and the other six in a circle halfway to the outside of the cylinder's end faces). The perforations stabilize the burn rate because as the outside burns inward (thus shrinking the burning surface area) the inside is burning outward (thus increasing the burning surface area, but faster, so as to fill up the increasing volume of barrel presented by the departing projectile). Fast-burning pistol powders are made by extruding shapes with more area such as flakes or by flattening the spherical granules. Drying is usually performed under a vacuum. The solvents are condensed and recycled. The granules are also coated with graphite to prevent static electricity sparks from causing undesired ignitions.

Black powder consists of the granular ingredients sulfur (S), charcoal (provides carbon to the reaction) and saltpeter (saltpetre, potassium nitrate, KNO3). The optimum proportions for gunpowder are : Saltpetre 74.64%, Sulphur 11.85%, Charcoal 13.51%.

The basic ratio is:

2 parts Sulfur : 3 parts Charcoal : 15 parts Saltpetre

Black powder is also corned to change its firing rate. Corning black powder is very dangerous because black powder explodes when ground. Corning must be done with the powder wet.

Although black powder is not a true high explosive, the United States Department of Transportation classifies it as a "Class A High Explosive" for shipment because it is so easily set off.


Gunpowder was first discovered in China in the 9th century. The discovery appears to have been by accident by alchemists seeking the elixir of immortality, and the first references to gunpowder appear as warnings in alchemy texts not to mix certain materials together. By the 10th century, gunpowder began to be used for military purposes in China in the form of rockets and explosive bombs fired from catapults. The first reference to cannon appears in 1126 when oil bamboo tubes were used to launch missiles at the enemy. Eventually bamboo tubes were replaced by metal tubes, and the oldest cannon in China dates from 1290. From China, the military use of gunpower appears to have spread to Japan and Europe. It was used by the Mongols against the Hungarians in 1241 and was mentioned by Roger Bacon in 1248. By the mid 14th century, early cannons are mentioned extensively both in Europe and in China.

In China as in Europe, the use of gunpowder to produce firearms and cannon was delayed by difficulties in creating metal tubes that would contain an explosion. This problem may have led to the false myth that the Chinese used their discovery only for the manufacture of fireworks. In fact, gunpowder powered cannon and rockets were extensively used in the Mongol conquests of the 13th century and were a feature of East Asian warfare afterwards. The short squat and thick city walls of Beijing for example, were specifically designed to withstand an artillery attack, and the Ming dynasty moved the capital from Nanjing to Beijing specifically because the hills around Nanjing were good locations for invaders to place artillery.

The 15th through 17th century saw widespread development in gunpowder technology both in Europe and the Far East. Advancements in metallurgy lead to small weapons and the development of muskets. Cannon technology in Europe gradually outpaced that of China and these technological improvements transferred back to China through Jesuit missionaries who were put in charge of cannon manufacture by the late Ming and early Qing emperors.

Uses of Gunpowder in Korea

It has been a widely ignored fact that, being close to China, the Koreans effectively used gunpowder to construct primitive mortars along the coasts of their country to protect from Japanese naval attacks. These mortars were also used by the Korean General Yi-Shun-Shin in 1530 to create the first armored warship in history. He designed this new ship to look like a turtle: it was clad in iron on the top, and covered in spikes, which made it impossible for Japanese ships to board it. Arrows were useless against this slow but devastating ship which could fire multiple cannons on each side. With these new inventions the Japanese were forced to retreat from Korea, back to their islands.