Bow and arrow: Difference between revisions

"Bows and arrows" redirects here. For the album by The Walkmen, see Bows + Arrows.

A modern reconstruction of a historical composite bow

A bow is a weapon that projects arrows powered by the elasticity of the bow. As the bow is drawn, energy is stored in the limbs of the bow and transformed into rapid motion when the string is released, with the string transferring this force to the arrow. Bows are used for hunting and sport (target shooting), and as a weapon of war.

The technique of using a bow is called archery. Someone who makes bows is known as a bowyer, and one who makes arrows a fletcher. Together with the atlatl and the sling , the bow was one of the first ranged weapons or hunting tools which used mechanical principles, instead of relying solely on the strength of its user.

The development of gunpowder, muskets, and the growing size of armies (and their consequent demand for less-trained levies) slowly led to the replacement of bows as weapons of war, supplanted by firearms, which were simpler for conscripts to learn and use, causing bows to be relegated to sport and hobby use.

Construction

Regardless of its other construction, the basic elements of a bow are a pair of curved elastic limbs, typically of wood, connected by a string. McCall is sex-y By pulling the string backwards the archer exerts compressive force on the inner section, or belly, of the limbs as well as placing the outer section, or back, under tension. While the string is held, this stores the energy later released in putting the arrow to flight. The force required to hold the string stationary when pulled is often used to express the power of a bow, and is known as its draw weight. A higher draw weight is associated with a more powerful bow, which is able to project arrows heavier, faster, or a greater distance.

In bows drawn and held by hand, the maximum draw weight is determined by the strength of the archer. The maximum distance the string could be displaced and thus the longest arrow that could be loosed from it, a bow’s draw length, is determined by the size of the archer. For bows drawn and held mechanically, the maximum draw weight was a matter of engineering. The mechanical force required to draw the string was mainly limited by the time required to do so.

Limbs

Polychrome small-scale model of the archer XI of the west pediment of the Temple of Aphaia, ca. 505–500 BC.

The elastic qualities of the limbs of a bow provide a wide variety of performance characteristics. Longer limbs typically provide longer draw lengths,but the archer may have other constraints that limit the possible size of the bow; a mounted archer requires something smaller than the head-high weapon typically employed by his infantry counterpart.

The limbs of the bow must endure repeated bending into a deep curve. The tips of the limbs may consist of a single curve for the longbow, or be bent back upon themselves in the recurve bow. The recurve allows for greater draw weight with shorter limbs, but this places greater strain on the limb materials and may increase string noise when shot. Decurve bows, where the tips bend towards the archer, provide proportionally lower draw weights but may be made with relatively poor materials.

The considerable strain placed upon the limbs of the bow when drawn requires a durable material with high tensile strength. Wood is readily located and easily shaped, and self bows consisting of a single material are usually of wooden construction. Considerable compromise must be made in selecting a single material, and sophisticated techniques were employed to overcome this problem. The flatbow's cross section is shaped to spread stress more evenly, and the yew for use in English longbows was shaped to take advantage of the ability of the heartwood to store energy in compression, and the outer sapwood's strength in tension.

A composite bow uses a combination of materials to create the limbs, allowing a more liberal selection of materials. Historical construction involved lamination from common types of wood including bamboo, and animal products such as horn and sinew. While composite limbs allow greater draw weight with shorter limbs, they are typically less robust than a wooden limb. Composite bows are made with water-soluble glue and could be damaged by exposure to moisture.

Modern construction materials for bows include laminated wood, fibreglass, metals, and carbon fibre components.

String

The string that connects the tips of the limbs is under considerable stress when drawn. The string should break only at four to five times the draw weight of its bow. An ideal string material is strong for its mass, resists stretching, and remains strong after exposure to moisture.

Historically bow strings were frequently made from animal by-products such as sinew, intestine, or hair. Plant fibres such as linen or hemp were also common and usually had a superior ratio of strength to mass. When treated with beeswax they are very resistant to moisture.

Modern synthetic polymers are totally resistant to moisture, with excellent mechanical properties and very cheap to produce. Modern compound bows have a mechanical system over which the string (in the form of a steel cable) passes as it is pulled.

Crossbows

In a crossbow, the limbs of the bow are attached to a crosspiece or stock in order to allow for mechanical pulling and holding of the string. This allows for a much larger draw weight than could be drawn and held by hand. A crossbow can be much smaller than a manually-held bow of the same power, or may be constructed on a much larger scale like the arbalest and ballista for use as a siege engine

The drawing of the bow could be accomplished through use of a lever, the archer's legs, or complex windlass designs. The principal disadvantage to a crossbow is the speed at which is could be fired. While designs for repeating or multi-firing crossbows existed, for the most part an archer could deliver many times more arrows per minute than a crossbowman could. The weapon's additional weight and the greater potential for mechanical failure could also be a problem for armed forces on the move.

History

Main article: History of archery

Around the timeNeanderthals were becoming extinct in Europe, more than 20,000 BP, stone points which may be arrowheads were being used in Africa.^{[citation needed]} By 18,000 BP flint points were being bound by sinews to split shafts. Fletching was being practiced, with feathers glued and bound to shafts.

Around 3,300 BC Similaun man was shot through the lung near the present-day border between Austria and Italy and was mummified. Among his preserved possessions were bone and flint tipped arrows and an unfinished yew longbow 1.82 m (72 in) tall.

See also

• Atlatl
• Bow draw
• Cable-backed bow
• Self bow
• Flatbow
• Longbow
• English longbow
• Composite bow
• Laminated bow
• Compound bow
• Fletching
• Hoal (Korean bow)
• Horseback archery
• Quiver
• Woomera
• Yumi (Japanese bow)

Notes

Further reading

• The Traditional Bowyers Bible Volume 1. 1992 The Lyons Press. ISBN 1-58574-085-3
• The Traditional Bowyers Bible Volume 2. 1992 The Lyons Press. ISBN 1-58574-086-1
• The Traditional Bowyers Bible Volume 3. 1994 The Lyons Press. ISBN 1-58574-087-X
• The Traditional Bowyers Bible Volume 4. 2008 The Lyons Press. ISBN 978-0-9645741-6-8
• U. Stodiek/H. Paulsen, "Mit dem Pfeil, dem Bogen..." Techniken der steinzeitlichen Jagd. (Oldenburg 1996).
• Gray, David, "Bows of the World". The Lyons Press, 2002. ISBN 1-58574-478-6.
• Comstock, Paul. "The Bent Stick"

External links

• The Asian Traditional Archery Research Network
• Simon Archery Collection From The Manchester Museum, The University of Manchester
• An Approach to the Study of Ancient Archery using Mathematical Modeling