Arrow

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Traditional target arrow (top) and replica medieval arrow (bottom) Two arrows.jpg
Traditional target arrow (top) and replica medieval arrow (bottom)
Modern arrow with plastic fletchings and nock DFRArrow.jpg
Modern arrow with plastic fletchings and nock

An arrow is a fin-stabilized projectile launched by a bow. A typical arrow usually consists of a long, stiff, straight shaft with a weighty (and usually sharp and pointed) arrowhead attached to the front end, multiple fin-like stabilizers called fletchings mounted near the rear, and a slot at the rear end called a nock for engaging the bowstring. A container or bag carrying additional arrows for convenient reloading is called a quiver. [1]

Contents

The use of bows and arrows by humans predates recorded history and is common to most cultures. A craftsman who makes arrows is a fletcher, and one that makes arrowheads is an arrowsmith. [2]

History

Warring States bronze arrowheads Warring States Bronze Arrowheads.jpg
Warring States bronze arrowheads
African bow and arrows in a quiver Bow and Arrow.jpg
African bow and arrows in a quiver

The oldest evidence of likely arrowheads, dating to c. 64,000 years ago, were found in Sibudu Cave, current South Africa. [3] [4] [5] [6] [7] Likely arrowheads made from animal bones have been discovered in the Fa Hien Cave in Sri Lanka which are also the oldest evidence for the use of arrows outside of Africa dating to c. 48,000 years ago. [8] [9] The oldest evidence of the use of bows to shoot arrows dates to about 10,000 years ago; it is based on pinewood arrows found in the Ahrensburg valley north of Hamburg. They had shallow grooves on the base, indicating that they were shot from a bow. [10] The oldest bow so far recovered is about 8,000 years old, found in the Holmegård swamp in Denmark. Archery seems to have arrived in the Americas with the Arctic small tool tradition, about 4,500 years ago.

Size

Schematic of an arrow with many parts. Arrow.svg
Schematic of an arrow with many parts.

Arrow sizes vary greatly across cultures, ranging from eighteen inches to six feet (45 cm to 150 cm). [11] However, most modern arrows are 75 cm (30 in) to 96 cm (38 in) in length. Arrows recovered from the Mary Rose , an English warship that sank in 1545 whose remains were raised in 1982, were mostly 76 cm (30 in) long. [12] Very short arrows have been used, shot through a guide attached either to the bow (an "overdraw") or to the archer's wrist (the Turkish "siper"). [13] These may fly farther than heavier arrows, and an enemy without suitable equipment may find himself unable to return them.

Components

Shaft

A side profile of an Easton Carbon One arrow with a spine of 900, taken with a scanning electron microscope (SEM). The arrow is a bond of two carbon tubes, an inner and an outer tube (black wires). In between both carbon layers, another fiber is used (white fiber). This second fiber is an Mg-Al-Si-fiber. The "white" fiber is twisted around the inner carbon tube. The fibers of the carbon tubes are not twisted, to ensure a maximum of possible mechanical tension of the arrow. The Mg-Al-Si-fiber enhances the flexibility of the arrow. The diameter of a single carbon fiber is approx. 7 um. Easton Carbon One 900.png
A side profile of an Easton Carbon One arrow with a spine of 900, taken with a scanning electron microscope (SEM). The arrow is a bond of two carbon tubes, an inner and an outer tube (black wires). In between both carbon layers, another fiber is used (white fiber). This second fiber is an Mg-Al-Si-fiber. The "white" fiber is twisted around the inner carbon tube. The fibers of the carbon tubes are not twisted, to ensure a maximum of possible mechanical tension of the arrow. The Mg-Al-Si-fiber enhances the flexibility of the arrow. The diameter of a single carbon fiber is approx. 7 µm.

The shaft is the primary structural element of the arrow, to which the other components are attached. Traditional arrow shafts are made from strong, lightweight wood, bamboo, or reeds, while modern shafts may be made from aluminium, carbon fibre reinforced plastic, or a combination of materials. Such shafts are typically made from an aluminium core wrapped with a carbon fibre outer. A traditional premium material is Port Orford Cedar. [14]

Spine

The stiffness of the shaft is known as its spine, referring to how little the shaft bends when compressed, hence an arrow which bends less is said to have more spine. In order to strike consistently, a group of arrows must be similarly spined. "Center-shot" bows, in which the arrow passes through the central vertical axis of the bow riser, may obtain consistent results from arrows with a wide range of spines. However, most traditional bows are not center-shot and the arrow has to deflect around the handle in the archer's paradox; such bows tend to give most consistent results with a narrower range of arrow spine that allows the arrow to deflect correctly around the bow. Bows with higher draw weight will generally require stiffer arrows, with more spine (less flexibility) to give the correct amount of flex when shot.

GPI rating

The weight of an arrow shaft can be expressed in GPI (grains per inch). [15] The length of a shaft in inches multiplied by its GPI rating gives the weight of the shaft in grains. For example, a shaft that is 30 inches (760 mm) long and has a GPI of 9.5 weighs 285 grains (18 grams ). This does not include the other elements of a finished arrow, so a complete arrow will be heavier than the shaft alone.

Footed arrows

Sometimes a shaft will be made of two different types of wood fastened together, resulting in what is known as a footed arrow. Known by some as the finest of wood arrows, [16] footed arrows were used both by early Europeans and Native Americans. Footed arrows will typically consist of a short length of hardwood near the head of the arrow, with the remainder of the shaft consisting of softwood. By reinforcing the area most likely to break, the arrow is more likely to survive impact, while maintaining overall flexibility and lighter weight.

Barreled arrow shafts

A barreled arrow shaft is one that tapers in diameter bi-directionally. This allows for an arrow that has an optimum weight yet retains enough strength to resist flex.

Barreled arrow shafts are considered the zenith of pre-industrial archery technology, reaching their peak design among the Ottomans. [17] [18]

Arrowhead

African Arrowhead Arrow Head 01.jpg
African Arrowhead
Obsidian broadhead Arrowhead.jpg
Obsidian broadhead
Ancient Greek bronze arrowhead, 4th century BC, from Olynthus, Chalcidice Arrow-head Olynthus BM GR1912.4-19.4.jpg
Ancient Greek bronze arrowhead, 4th century BC, from Olynthus, Chalcidice
Various Japanese arrowheads Fleches-japonaises-p1000615.jpg
Various Japanese arrowheads
Native American arrowheads Native American arrowheads.JPG
Native American arrowheads
20th-century field points Field points.jpg
20th-century field points
Modern replicas of various medieval European arrowheads Crecy-en-Ponthieu 24-09-2008 12-11-33.JPG
Modern replicas of various medieval European arrowheads

The arrowhead or projectile point is the primary functional part of the arrow, and plays the largest role in determining its purpose. Some arrows may simply use a sharpened tip of the solid shaft, but it is far more common for separate arrowheads to be made, usually from metal, horn, or some other hard material. Arrowheads are usually separated by function:

There are two main types of broadheads used by hunters: the fixed-blade and the mechanical types. While the fixed-blade broadhead keeps its blades rigid and unmovable on the broadhead at all times, the mechanical broadhead deploys its blades upon contact with the target, its blades swinging out to wound the target. The mechanical head flies better because it is more streamlined, but has less penetration as it uses some of the kinetic energy in the arrow to deploy its blades. [22] Preferences for fixed or mechanical broadheads vary widely in the hunting community, typically varying by species. In general, both types are widely used on game up to the size of white-tailed deer; as game size increases, fixed blades become more common. Broadheads used for hunting dangerous game such as African buffalo are almost always fixed-blade.

Arrowheads may be attached to the shaft with a cap, a socketed tang, or inserted into a split in the shaft and held by a process called hafting. [11] Points attached with caps are simply slid snugly over the end of the shaft, or may be held on with hot glue. Split-shaft construction involves splitting the arrow shaft lengthwise, inserting the arrowhead, and securing it using a ferrule, sinew, or wire. [24]

Fletchings

Straight parabolic fletchings on an arrow. DFRArrow (1).jpg
Straight parabolic fletchings on an arrow.

Fletchings are found at the back of the arrow and act as airfoils to provide a small amount of force used to stabilize the flight of the arrow. They are designed to keep the arrow pointed in the direction of travel by strongly damping down any tendency to pitch or yaw. Some cultures, for example most in New Guinea, did not use fletching on their arrows. [25] Also, arrows without fletching (called bare shaft) are used for training purposes, because they make certain errors by the archer more visible. [26]

Fletchings are traditionally made from feathers (often from a goose or turkey) bound to the arrow's shaft, but are now often made of plastic (known as "vanes"). Historically, some arrows used for the proofing of armour used copper vanes. [27] Flight archers may use razor blades for fletching, in order to reduce air resistance. With conventional three-feather fletching, one feather, called the "cock" feather, is at a right angle to the nock, and is normally nocked so that it will not contact the bow when the arrow is shot. Four-feather fletching is usually symmetrical and there is no preferred orientation for the nock; this makes nocking the arrow slightly easier.

Natural feathers are usually prepared by splitting and sanding the quill before gluing. Further, the feather may be trimmed to shape, die-cut or burned by a hot electrically heated wire. It is crucial that all the feathers of an arrow have the same drag, so manual trimming is rarely used by modern fletchers. The burning-wire method is popular because different shapes are possible by bending the wire, and the fletching can be symmetrically trimmed after gluing by rotating the arrow on a fixture.

Some fletchings are dyed. Two-toned fletchings usually make each fletching from two feathers knit together. The front fletching is often camouflaged, and the rear fletching bright so that the archer can easily track the arrow.

Artisans who make arrows by hand are known as "fletchers," a word related to the French word for arrow, flèche. This is the same derivation as the verb "fletch," meaning to provide an arrow with its feathers. Glue and thread are the traditional methods of attaching fletchings. A "fletching jig" is often used in modern times, to hold the fletchings in exactly the right orientation on the shaft while the glue hardens.

Whenever natural fletching is used, the feathers on any one arrow must come from the same wing of the bird, the most common being the right-wing flight feathers of turkeys. The slight cupping of natural feathers requires them to be fletched with a right-twist for right wing, a left-twist for left wing. This rotation, through a combination of gyroscopic stabilization and increased drag on the rear of the arrow, helps the arrow to fly straight away. [28] Artificial helical fletchings have the same effect. Most arrows will have three fletches, but some have four or even more. Fletchings generally range from two to six inches (50 to 150 mm) in length; flight arrows intended to travel the maximum possible distance typically have very low fletching, while hunting arrows with broadheads require long and high fletching to stabilize them against the aerodynamic effect of the head. Fletchings may also be cut in different ways, the two most common being parabolic (i.e. a smooth curved shape) and shield (i.e. shaped as one-half of a very narrow shield) cut.

In modern archery with screw-in points, right-hand rotation is generally preferred as it makes the points self-tighten. In traditional archery, some archers prefer a left rotation because it gets the hard (and sharp) quill of the feather farther away from the arrow-shelf and the shooter's hand. [29]

A flu-flu is a type of fletching normally made by using long sections of full length feathers taken from a turkey; in most cases, six or more sections are used rather than the traditional three. Alternatively two long feathers can be spiraled around the end of the arrow shaft. The extra fletching generates more drag and slows the arrow down rapidly after a short distance of about 30 m (98 ft) or so. Flu-flu arrows are often used for hunting birds, or for children's archery, and can also be used to play flu-flu golf.

Wraps

Wraps are thin pre-cut sheets of material, often vinyl or plastic, used to wrap the nock end of an arrow, primarily as an aid in bonding vanes and feather fletchings to the shaft. Wraps can also make the eventual removal of vanes and vane-glue easier. Additionally, they add a decorative aspect to arrow building, which can provide archers an opportunity to personalize their arrows. Brightly colored wraps can also make arrows much easier to find in the brush, and to see in downrange targets.

Nocks

In English it is common to say "nock an arrow" when one readies a shot. A nock is a notch in the rearmost end of an arrow. It helps keep the arrow correctly rotated, keeps the arrow from slipping sideways during the draw or after the release, and helps maximize the arrow's energy (i.e. its range and lethality) by helping an archer place the arrow at the fastest-moving place on the bowstring. Some archers mark the nock position with beads, knots or wrappings of thread. Most compound bow shooters use a D-loop, a length of string material (or sometimes a metal bracket) attached to the string above and below the nocking point. A release aid is typically attached to the D-loop in preparation for a shot.

The main purpose of a nock is to control the rotation of the arrow. Arrows bend when released. If the bend hits the bowstave, the arrow's aim will be thrown off. Wooden arrows have a preferred bending-plane. Synthetic arrows have a designed bending plane. Usually this plane is determined by the grain of the wood of the arrow, or the structure of a synthetic arrow. The nock's slot should be rotated at an angle chosen so that when the arrow bends, it avoids or slides on the bowstave. Almost always this means that the slot of the nock must be perpendicular to the wood's grain, viewed from behind. [30]

Self nocks are slots cut in the back of the arrow. These are simple, but can break at the base of the slot. Self nocks are often reinforced with glued servings of fiber near the base of the slot. The sturdiest nocks are separate pieces made from wood, plastic, or horn that are then attached to the end of the arrow. [31] Modern nocks, and traditional Turkish nocks, are often constructed so as to curve around the string or even pinch it slightly, so that the arrow is unlikely to slip off. [32]

Ancient Arab archery sometimes used "nockless arrows". In shooting at enemies, Arabs saw them pick up Arab arrows and shoot them back. So Arabs developed bowstrings with a small ring tied where the nock would normally be placed. The rear end of the arrow would be sharpened to a point, rather than slit for a nock. The rear end of the arrow would slip into the ring. The arrow could be drawn and released as usual. Then the enemy could collect the arrows, yet not shoot them back with a conventional bow. Also, since there was no nock, the nock could not break, and the arrow was less expensive. A piece of battle advice was to have several rings tied to the bowstring in case one broke. [33] A practical disadvantage compared to a nock would be preserving the optimal rotation of the arrow, so that when it flexes, it does not hit the bowstave. The bend direction of the arrow might have been indicated by its fletching.

"Some arrow materials like hollow cane/bamboo/reed shafting lend themselves to nock inserts. Softer woods like pine or cedar also required some sort of reinforcement of hardwood, bone or horn which kept the string from splitting their shaft upon release. Hardwood such as oak and ash did not need additional reinforcement. To reinforce a nock, most often a slit was cut into the end of the shaft, and a sliver of harder material, the same width as the shaft, was glued into the slot. The arrow was then rotated 90 degrees, and a shallower slot was cut for the string. When made in this manner, the string actually pushed the wood or bone insert rather than the soft wood itself, preventing the shaft from splitting. Another method of preventing nocks from splitting was to bind the arrow between the nock and the back of the fletch with sinew and hide glue or a rough cord such as silk attached with adhesive, whether it be fish glue or birch tar." [34]

Finishes and cresting

Arrows are usually finished so that they are not softened by rain, fog or condensation. Traditional finishes are varnishes or lacquers. Arrows sometimes need to be repaired, so it's important that the paints be compatible with glues used to attach arrowheads, fletchings, and nocks. For this reason, arrows are rarely protected by waxing.

Crests are rings or bands of paint, often brightly colored, applied to arrows on a lathe-like tool called a cresting machine, usually for the purpose of personalization. Like wraps, cresting may also be done to make arrows easier to see. [35]

See also

Notes

  1. The Handbook Of The SAS And Elite Forces. How The Professionals Fight And Win. Edited by Jon E. Lewis. p.495-Tactics And Techniques, Survival. Robinson Publishing Ltd 1997. ISBN   1-85487-675-9.
  2. Paterson Encyclopaedia of Archery p. 56
  3. Backwell L, d'Errico F, Wadley L.(2008). Middle Stone Age bone tools from the Howiesons Poort layers, Sibudu Cave, South Africa. Journal of Archaeological Science, 35:1566–1580. doi : 10.1016/j.jas.2007.11.006
  4. Wadley, Lyn (2008). "The Howieson's Poort industry of Sibudu Cave". South African Archaeological Society Goodwin Series. 10.
  5. Lombard M, Phillips L (2010). "Indications of bow and stone-tipped arrow use 64,000 years ago in KwaZulu-Natal, South Africa". Antiquity. 84 (325): 635–648. doi:10.1017/S0003598X00100134. S2CID   162438490.
  6. Lombard M (2011). "Quartz-tipped arrows older than 60 ka: further use-trace evidence from Sibudu, Kwa-Zulu-Natal, South Africa". Journal of Archaeological Science. 38 (8): 1918–1930. doi:10.1016/j.jas.2011.04.001.
  7. Backwell L, Bradfield J, Carlson KJ, Jashashvili T, Wadley L, d'Errico F.(2018). The antiquity of bow-and-arrow technology: evidence from Middle Stone Age layers at Sibudu Cave. Journal of Archaeological Science, 92:289–303. doi : 10.15184/aqy.2018.11
  8. Lyn Wadley from the University of the Witwatersrand (2010); BBC: Oldest evidence of arrows found
  9. "Ancient tools show how humans adapted to rainforests". National Geographic . 12 June 2020. Archived from the original on June 13, 2020.
  10. McEwen E, Bergman R, Miller C. Early bow design and construction. Scientific American 1991 vol. 264 pp76-82.
  11. 1 2 Stone, George Cameron (1934). A Glossary of the Construction, Decoration, and Use of Arms and Armor in All Countries and in All Times , Mineola: Dover Publications. ISBN   0-486-40726-8
  12. "Anon: The Mary Rose; Armament p.7". Archived from the original on February 25, 2008.
  13. Turkish Archery and the Composite Bow. Paul E. Klopsteg ISBN   1-56416-093-9 ISBN   978-1564160935
  14. "Stickbow". Stickbow.com. Retrieved 10 February 2018.
  15. GPI explained by an arrow vendor (referred to from their listing of carbon arrows)
  16. Langston, Gene (1994). "Custom Shafts". The Traditional Bowyer's Bible - Volume Three. Guilford: The Lyons Press. ISBN   1-58574-087-X.
  17. "Arrow Shaft Design and Performance". December 4, 2018.
  18. "Turkish Flight Arrows". www.turkishculture.org.
  19. 1 2 "Royal Armouries: 6. Armour-piercing arrowheads". Archived from the original on 2016-03-24. Retrieved 2008-09-28.
  20. Saxton Pope. Hunting with the Bow & Arrow . Retrieved on 18 February 2020 at Project Gutenberg  "To test a steel bodkin pointed arrow such as was used at the battle of Cressy, I borrowed a shirt of chain armor from the Museum, a beautiful specimen made in Damascus in the 15th Century. It weighed twenty-five pounds [11 kg] and was in perfect condition. One of the attendants in the Museum offered to put it on and allow me to shoot at him. Fortunately, I declined his proffered services and put it on a wooden box, padded with burlap to represent clothing.
    Indoors at a distance of seven yards [6 m], I discharged an arrow at it with such force that sparks flew from the links of steel as from a forge. The bodkin point and shaft went through the thickest portion of the back, penetrated an inch of wood and bulged out the opposite side of the armor shirt. The attendant turned a pale green. An arrow of this type can be shot about two hundred yards [180 m], and would be deadly up to the full limit of its flight."
  21. Strickland M, Hardy R. The Great Warbow. Sutton Publishing 2005. Page 272
  22. "Mechanical vs. Fixed Broadheads". Archived from the original on 2009-09-25. Retrieved 2010-02-17.
  23. "SCA marshall's handbook" (PDF). Archived from the original (PDF) on 2016-06-10. Retrieved 2008-12-16.
  24. Parker, Glenn (1992). "Steel Points". The Traditional Bowyer's Bible - Volume Two. Guilford: The Lyons Press. ISBN   1-58574-086-1.
  25. Gardens of War: Life and Death in the New Guinea Stone Age. Robert Gardner. Deutsch 1969. ISBN   0-233-96140-2, ISBN   978-0-233-96140-8
  26. Stonebraker, Rick (2000). "Tune for Tens". texasarchery.org. Archived from the original on 1 July 2016. Retrieved 23 June 2016. WHY A BARE SHAFT? If shot at short distance through paper into a butt, a bare shaft will reveal improper thrust effects since aerodynamics will not have time to straighten out the flight of the arrow. It will literally fly sideways through the paper creating a tell-tale pattern if the tune is bad. Fletching would straighten out the arrow's flight and make this first stage of tuning more difficult.
  27. Ffoulkes, Charles (1988) [1912]. The Armourer and his Craft (Dover reprint ed.). Dover Publications. ISBN   0-486-25851-3.
  28. "Carbon Arrow University". www.huntersfriend.com. Retrieved 2016-04-22.
  29. "Traditional Bow Selection Guide". www.huntersfriend.com. Retrieved 2016-04-22.
  30. "Self Nocks". Stickbow.com. Retrieved 10 February 2018.
  31. Massey, Jay(1992). "Self Arrows" in The Traditional Bowyer's Bible - Volume One, Guilford: The Lyons Press. ISBN   1-58574-085-3
  32. Stone, G.C. "A Glossary of the Construction, Decoration, and Use of Arms and Armor in All Countries and in All Times"
  33. Faris, Nabih Amin, and Robert Potter Elmer. Chapter XLIV. "On Stunt Shooting". IN: Arab archery. An Arabic manuscript of about A.D. 1500, "A book on the excellence of the bow & arrow" and the description thereof. Princeton, N.J.: Princeton University Press, 1945. Pages 131-132.
  34. Lotz, Mickey. "Arrows of the World." In: Allely, Steve. The Traditional Bowyer's Bible: Volume Four. Guilford, Conn: Lyons Press, 2008. Page 221.
  35. "Stickbow". Stickbow.com. Retrieved 10 February 2018.

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Ya is the Japanese word for arrow, and commonly refers to the arrows used in kyūdō. Ya also refers to the arrows used by samurai during the feudal era of Japan. Unlike Western arrows, the ya is close to a metre long or longer. Traditional ya are made from natural materials, usually bamboo, while modern ones may use aluminium or carbon fiber.

Modern competitive archery involves shooting arrows at a target for accuracy and precision from a set distance or distances. This is the most popular form of competitive archery worldwide and is called target archery. A form particularly popular in Europe, North America, and South America is field archery, shot at targets generally set at various distances in a wooded setting. There are also several other lesser-known and historical forms, as well as archery novelty games.

Traditional Inuit hunters lack the more elastic timbers used to make bows in temperate and tropical parts of the world. Using sinew cords for the back of the bow, and spruce timber or antler for the belly, however, they build very effective weapons. When hunting polar bears, the bows used are powerful enough, if they do not hit bone, to penetrate completely through the body of the bear.