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Parachuting, also known as skydiving, is the action of exiting an aircraft and returning to earth with the aid of gravity while using a parachute to slow down during the final part of the descent. It may or may not involve a certain amount of free-fall, a time during which the parachute has not been deployed and the body gradually accelerates to terminal velocity.

The history of skydiving starts with Andre-Jacques Garnerin who made successful parachute jumps from a hot-air balloon in 1797. The military developed parachuting technology as a way to save aircrews from emergencies aboard balloons and aircraft in flight, later as a way of delivering soldiers to the battlefield. Early competitions date back to the 1930s, and it became an international sport in 1952.

Parachuting is performed as a recreational activity and a competitive sport, as well as for the deployment of military personnel Airborne forces and occasionally forest firefighters.

A skydiving center can be a commercial operation or a club, usually operates at an airport, and provides one or more aircraft that takes groups of skydivers up for a fee. An individual jumper can go up in a light aircraft such as a Cessna C-172 or C-182. In busier drop zones (DZ) larger aircraft may be used such as the Cessna Caravan 208, de Havilland Canada DHC-6 Twin Otter or Short Skyvan.

A typical jump involves individuals exiting an aircraft (usually an airplane, but sometimes a helicopter or even the gondola of a balloon), at anywhere from 1,000 to 4,000 meters (3,000 to 13,000 feet) altitude. If jumping from a low altitude, the parachute is deployed immediately; however, at higher altitudes, the skydiver may free-fall for a short period of time (about a minute)^[1] before activating a parachute to slow the landing down to safe speeds (about 5 to 7 minutes).

When the parachute opens (usually the parachute will be fully inflated by 800 meters or 2,600 feet) the jumper can control the direction and speed with toggles on the end of steering lines attached to the trailing edge of the parachute, and can aim for the landing site and come to a relatively gentle stop. All modern sport parachutes are self-inflating "ram-air" wings that provide control of speed and direction similar to the related paragliders. Purists in either sport would note that paragliders have much greater lift and range, but that parachutes are designed to absorb the stresses of deployment at terminal velocity.

By manipulating the shape of the body in freefall, a skydiver can generate turns, forward motion, backwards motion, and even lift.

When leaving an aircraft, for a few seconds a skydiver continues to travel forward as well as down, due to the momentum created by the plane's speed (known as "forward throw"). The perception of a change from horizontal to vertical flight is known as the "relative wind", or informally as "being on the hill". In freefall, skydivers generally do not experience a "falling" sensation because the resistance of the air to their body at speeds above about 50 mph (80 km/h) provides some feeling of weight and direction. At normal exit speeds for aircraft (approx 90 mph (140 km/h)) there is little feeling of falling just after exit, but jumping from a balloon or helicopter can create this sensation. Skydivers reach terminal velocity (around 120 mph (190 km/h) for belly to Earth orientations, 150–200 mph (240–320 km/h) for head down orientations) and are no longer accelerating towards the ground. At this point the sensation is as of a forceful wind.

12-way formation with videographer seen in upper-right corner

Jump with Russian flag

Many people make their first jump with an experienced and trained instructor – this type of skydive may be in the form of a tandem skydive. During the tandem jump the instructor is responsible for emergency procedures in the unlikely event that they will be needed, therefore freeing the student to concentrate on learning to skydive. Other training methods include static line, IAD (Instructor Assisted Deployment), and AFF (Accelerated Free fall) also known as Progressive Free-Fall (PFF) in Canada.

Safety[link]

Despite the perception of danger, fatalities are rare. However, each year a number of people are hurt or killed parachuting worldwide.^[2][3] About 21 skydivers are killed each year in the US, roughly one death for every 150,000 jumps (about 0.0007%).^[4][5]

In the US and in most of the western world skydivers are required to carry two parachutes. The reserve parachute must be periodically inspected and re-packed (whether used or not) by a certificated parachute rigger (in the US, an FAA certificated parachute rigger). Many skydivers use an automatic activation device (AAD) that opens the reserve parachute at a safe altitude in the event of failing to activate the main canopy themselves. Most skydivers wear a visual altimeter, and an increasing number also use audible altimeters fitted to their helmet.

Injuries and fatalities occurring under a fully functional parachute usually happen because the skydiver performed unsafe maneuvers or made an error in judgment while flying their canopy, typically resulting in a high speed impact with the ground or other hazards on the ground.^[6] One of the most common sources of injury is a low turn under a high-performance canopy and while swooping. Swooping is the advanced discipline of gliding parallel to the ground during landing.

A military parachutist about to jump above Dakar, Senegal

Changing wind conditions are another risk factor. In conditions of strong winds, and turbulence during hot days the parachutist can be caught in downdrafts close to the ground. Shifting winds can cause a crosswind or downwind landing which have a higher high potential for injury due to the wind speed adding to the landing speed.

Another risk factor is that of "canopy collisions", or collisions between two or more skydivers under fully inflated parachutes. Canopy collisions can cause the jumpers' inflated parachutes to entangle with each other, often resulting in a sudden collapse (deflation) of one or more of the involved parachutes. When this occurs, the jumpers often must quickly perform emergency procedures (if there is sufficient altitude to do so) to "cut-away" (jettison) from their main canopies and deploy their reserve canopies. Canopy collisions are particularly dangerous when occurring at altitudes too low to allow the jumpers adequate time to safely jettison their main parachutes and fully deploy their reserve parachutes.

Equipment failure rarely causes fatalities and injuries. Approximately one in 750 deployments of a main parachute results in a malfunction.^[7] Ram-air parachutes typically spin uncontrollably when malfunctioned, and must be jettisoned before deploying the reserve parachute. Reserve parachutes are packed and deployed differently; they are also designed more conservatively and built and tested to more exacting standards so they are more reliable than main parachutes, but the real safety advantage comes from the probability of an unlikely main malfunction multiplied by the even less likely probability of a reserve malfunction. This yields an even smaller probability of a double malfunction although the possibility of a main malfunction that cannot be cutaway causing a reserve malfunction is a very real risk.

Parachuting disciplines such as BASE jumping or those that involve equipment such as wing suit flying and sky surfing have a higher risk factor due to the lower mobility of the jumper and the greater risk of entanglement. For this reason these disciplines are generally practised by experienced jumpers.

Depictions in commercial films – notably Hollywood action movies – usually overstate the dangers of the sport. Often, the characters in such films are shown performing feats that are physically impossible without special effects assistance. In other cases, their practices would cause them to be grounded or shunned at any safety-conscious drop zone or club. USPA member drop zones in the US and Canada are required to have an experienced jumper act as a "safety officer" (in Canada DSO – Drop Zone Safety Officer; in the U.S. S&TA – Safety and Training Advisor) who is responsible for dealing with the jumpers who violate rules, regulations, or otherwise act in a fashion deemed unsafe by the appointed individual.

In many countries, either the local regulations or the liability-conscious prudence of the dropzone owners require that parachutists must have attained the age of majority before engaging in the sport.

Parachuting and weather[link]

Parachuting in poor weather, especially with thunderstorms, high winds, and dust devils can be a dangerous activity. Reputable drop zones will suspend normal operations during inclement weather.

Canopy Collisions[link]

A collision with another canopy is a statistical hazard, and may be avoided by observing simple principles.

Training[link]

Instructor explaining the operation of a parachute to student pilots

Skydiving can be practised without jumping. Vertical wind tunnels are used to practise for free fall ("indoor skydiving" or "bodyflight"), while virtual reality parachute simulators are used to practise parachute control.

Beginning skydivers seeking training have the following options:

• Static line
• Instructor-assisted deployment
• Accelerated freefall
• Tandem skydiving

Parachute deployment[link]

At a skydiver's deployment altitude, the individual manually deploys a small pilot-chute which acts as a drogue, catching air and pulling out the main parachute or the main canopy. There are two principal systems in use : the "throw-out", where the skydiver pulls a toggle attached to the top of the pilot-chute stowed in a small pocket outside the main container : and the "pull-out", where the skydiver pulls a small pad attached to the pilot-chute which is stowed inside the container.

Throw-out pilot-chute pouches are usually positioned at the bottom of the container – the B.O.C. deployment system – but older harnesses often have leg-mounted pouches. The latter are safe for flat-flying, but often unsuitable for freestyle or head-down flying.

In a typical non-military parachute system, such as the throw-out, the pilot-chute is connected to a line known as the "bridle", which is in turn attached to a small deployment bag that contains the folded parachute, with the suspension lines stowed in rubber bands. At the bottom of the container that holds the deployment bag is a closing loop which, during packing, is fed through the grommets of the four flaps that are used to close the container. At that point, a curved pin that is attached to the bridle is inserted through the closing loop. The next step involves folding the pilot-chute and placing it in a pouch (e.g. B.O.C pouch).

Activation begins when the pilot chute is thrown out. It inflates and creates drag, pulling the pin out of the closing loop and allowing the pilot-chute to pull the deployment bag from the container. The parachute lines are pulled loose from the rubber bands and extend as the canopy starts to open. A rectangular piece of fabric called the "slider" (which separates the parachute lines into four main groups fed through grommets in the four respective corners of the slider) slows the opening of the parachute and works its way down until the canopy is fully open and the slider is just above the head of the skydiver. The slider slows and controls the deployment of the parachute. Without a slider, the parachute would inflate fast, potentially damaging the parachute fabric and/or suspension lines. During a normal deployment, a skydiver will generally experience a few seconds of intense deceleration, in the realm of 3 to 4 G, while the parachute slows the descent from 120 mph (190 km/h) to approximately 18 mph.

If a skydiver experiences a malfunction of their main parachute which they cannot correct, they pull a "cut-away" handle on the front right-hand side of their harness (on the chest) which will release the main canopy from the harness/container. Once free from the malfunctioning main canopy, the reserve canopy can be activated manually by pulling a second handle on the front left harness. Some containers are fitted with a connecting line from the main to reserve parachutes – known as a reserve static line (RSL) – which pulls opens the reserve container faster than a manual release could. Whichever method is used, a spring-loaded pilotchute then extracts the reserve parachute from the upper half of the container.

Variations[link]

In addition to disciplines for which people train, purchase equipment and get coaching/lessons, the recreational skydiver finds ways to just have fun.

Hit and Rock[link]

One example of this is "Hit and Rock", which is a variant of Accuracy landing devised to let people of varying skill levels compete for fun. "Hit and Rock" is originally from POPS (Parachutists Over Phorty Society). See the POPS main site. The object is to land as close as possible to the chair, remove the parachute harness, sprint to the chair, sit fully in the chair and rock back and forth at least one time. The contestant is timed from the moment that feet touch the ground until that first rock is completed. This event is considered a race.

Freeflying[link]

Tracking[link]

Tracking is where skydivers take a body position to achieve a high forward speed, flying their body to achieve separation from other jumpers and cover distance over the ground.

Formation skydiving[link]

Pond swooping[link]

Pond swooping is a form of competitive parachuting wherein canopy pilots attempt to touch down at a glide across a small body of water, and onto the shore. Events provide lighthearted competition, rating accuracy, speed, distance and style. Points and peer approval are reduced when a participant "chows", or fails to reach shore and sinks into the water. Some danger involved with pond swooping is when pilots "chow" they land in the water and then the parachute slowly begins to sink. Some divers get tangled in the cord and are dragged to the bottom and drown. To avoid being dragged down, some divers will cut the cord if they sense that they cannot make it across to the shore.

Cross-country[link]

A cross-country jump is a skydive where the participants open their parachutes immediately after jumping, with the intention of covering as much ground under canopy as possible. Usual distance from Jump Run to the dropzone can be as much as several miles.

A Technoavia SM92 Finist of Target Skysports lifts skydivers to the jump altitude at Hibaldstow, England

Camera flying[link]

In camera flying, a camera person jumps with other skydivers and films them. The camera flier often wears specialized equipment, such as a winged jumpsuit to provide a greater range of fall rates, helmet-mounted video and still cameras, mouth operated camera switches, and optical sights. Some skydivers specialize in camera flying and a few earn fees for filming students on coached jumps or tandem-jumpers, or producing professional footage and photographs for the media.

There is always a demand for good camera fliers in the skydiving community, as many of the competitive skydiving disciplines are judged from a video record.

Night jumps[link]

Parachuting is not always restricted to daytime hours; experienced skydivers sometimes perform night jumps. For safety reasons, this requires more equipment than a usual daytime jump and in most jurisdictions requires both an advanced skydiving license (at least a B-License in the U.S.) and a meeting with the local safety official covering who will be doing what on the load. A lighted altimeter (preferably accompanied with an audible altimeter) is a must. Skydivers performing night jumps often take flashlights up with them so that they can check their canopies have properly deployed.

Visibility to other skydivers and other aircraft is also a consideration; FAA regulations require skydivers jumping at night to be wearing a light visible for three miles (5 km) in every direction, and to turn it on once they are under canopy. A chemlight(glowstick) is a good idea on a night jump.

Night jumpers should be made aware of the Dark Zone, when landing at night. Above 100 feet jumpers flying their canopy have a good view of the landing zone normally because of reflected ambient light/moon light. Once they get close to the ground, this ambient light source is lost, because of the low angle of reflection. The lower they get, the darker the ground looks. At about 100 feet and below it may seem that they are landing in a black hole. Suddenly it becomes very dark, and the jumper hits the ground soon after. This ground rush should be explained and anticipated for the first time night jumper.

Stuff jumps[link]

With the availability of a rear door aircraft and a large, unpopulated space to jump over, 'stuff' jumps become possible. In these jumps the skydivers jump out with some object. Rubber raft jumps are popular, where the jumpers sit in a rubber raft. Cars, bicycles, motorcycles, vacuum cleaners, water tanks and inflatable companions have also been thrown out the back of an aircraft. At a certain height the jumpers break off from the object and deploy their parachutes, leaving it to smash into the ground at terminal velocity.

Skysurfing[link]

BASE jumping[link]

Wingsuit flying[link]

Parachuting organizations[link]

National parachuting associations exist in many countries, many affiliated with the Fédération Aéronautique Internationale (FAI), to promote their sport. In most cases, national representative bodies, as well as local dropzone operators, require that participants carry certification, attesting to their training, their level of experience in the sport, and their proven competence. Anyone who cannot produce such bona-fides is treated as a student, requiring close supervision.

The primary organization in the United States is the United States Parachute Association (USPA)[1]. This organization awards licenses and ratings for all American skydiving activities based on safety qualifications. The USPA governs safety in the sport of skydiving as this is the organizations sole responsibility and also publishes the Skydivers Information Manual (SIM) and many other resources. In Canada, the Canadian Sport Parachuting Association is the lead organization. In South Africa the sport is managed by the Parachute Association of South Africa, and in the United Kingdom by the British Parachute Association.

Within the sport, associations promote safety, technical advances, training-and-certification, competition and other interests of their members. Outside their respective communities, they promote their sport to the public, and often intercede with government regulators.

Competitions are organized at regional, national and international levels in most these disciplines. Some of them offer amateur competition.

Many of the more photogenic/videogenic variants also enjoy sponsored events with prize money for the winners.

The majority of jumpers tend to be non-competitive, enjoying the opportunity to "get some air" with their friends on weekends and holidays. The atmosphere of their gatherings is relaxed, sociable and welcoming to newcomers. Party events, called "boogies" are arranged at local, national and international scale, each year, attracting both young jumpers and their elders – Parachutists Over Phorty (POPs), Skydivers Over Sixty (SOS) and even older groups.

Notable people associated with the sport include Valery Rozov, a gold medalist from the 1998 X Games, who has had more than 1,500 jumps. Georgia Thompson ("Tiny") Broadwick is one of the first American skydivers, and she made the first freefall.

Drop zones[link]

A parachute landing

In parachuting, a drop zone or DZ is the area above and around a location where a parachutist freefalls and expects to land. It is usually situated beside a small airport, often sharing the facility with other general aviation activities. There is generally a landing area designated for parachute landings. Drop zone staff include the DZO (drop zone operator or owner), manifestors, pilots, instructors, coaches, cameramen, packers, riggers and other general staff.

The world's largest skydive dropzone, Skydive Arizona, is often referred to as the Skydive Capital of the World.^[8]

Equipment[link]

This unreferenced section requires citations to ensure verifiability.

Costs in the sport are not trivial. As new technological advances or performance enhancements are introduced, they tend to drive equipment prices higher. Similarly, the average skydiver carries more equipment than in earlier years, with safety devices (such as an AAD) contributing a significant portion of the cost.

A full set of brand-new equipment can easily cost as much as a new motorcycle or half a small car. The market is not large enough to permit the steady lowering of prices that is seen with some other equipment like computers.

In many countries, the sport supports a used-equipment market. For beginners that is the preferred way to acquire "gear", and has two advantages because users can:

• Try types of parachutes (there are many) to learn which style they prefer, before paying the price for new equipment.
• Acquire a complete system and all the peripheral items in a short time and at reduced cost.

Novices generally start with parachutes that are large and docile relative to the jumper's body-weight. As they improve in skill and confidence, they can graduate to smaller, faster, more responsive parachutes. An active jumper might change parachute canopies several times in the space of a few years, while retaining his or her first harness/container and peripheral equipment.

Older jumpers, especially those who jump only on weekends in summer, sometimes tend in the other direction, selecting slightly larger, more gentle parachutes that do not demand youthful intensity and reflexes on each jump. They may be adhering to the maxim that: "There are old jumpers and there are bold jumpers, but there are no old, bold jumpers."

Most parachuting equipment is ruggedly designed and is enjoyed by several owners before being retired. Purchasers are always advised to have any potential purchases examined by a qualified parachute rigger. A rigger is trained to spot signs of damage or misuse. Riggers also keep track of industry product and safety bulletins, and can therefore determine if a piece of equipment is up-to-date and serviceable.

Records[link]

• World's largest formation in free-fall: 8 February 2006 in Udon Thani, Thailand (400 linked persons in freefall).
• Largest head down formation (vertical formation): 31 July 2009 at Skydive Chicago in Ottawa, Illinois, USA (108 linked skydivers in head to Earth attitude).
• European record: 13 August 2010, Włocławek, Poland. Polish skydivers broke a record when 102 people created a formation in the air during the Big Way Camp Euro 2010. The skydive was their fifteenth attempt at breaking the record.^[9]
• World's largest canopy formation: 100, set on 21 November 2007 in Lake Wales, Florida, USA.^[10]
• Largest wingsuit formation: 12 November 2008, Lake Elsinore, California, USA (71 wingsuit jumpers).
• In 1929, U.S. Army Sergeant R. W. Bottriell held the world's record for parachute jumps with 500. At that number, Bottriell stopped parachuting and became a ground instructor.^[11]
• Australian stunt parachutist, Captain Vincent Taylor, received the unofficial record for a lowest-level jump in 1929 when he jumped off a bridge over the San Francisco Bay whose center section had been raised to 135 feet.^[12]
• Don Kellner holds the record for the most parachute jumps, with a total of over 40,000 jumps.^[13]
• Cheryl Stearns (USA) holds the record for the most parachute descents by a woman, with a total of 15,560 in August 2003, as well as the most parachute jumps made in a 24 hour period by a woman—352 jumps from 8–9 November 1995.
• Bill Dause holds the record for the most accumulated freefall time with over 420 hours (30,000+ jumps).
• U.S. Air Force Captain Joe W. Kittinger achieved the highest and longest (14 min) parachute jump in history on 16 August 1960 as part of a United States Air Force program testing high-altitude escape systems. Wearing a pressure suit, Capt. Kittinger ascended for an hour and a half in an open gondola attached to a balloon to an altitude of 102,800 feet (31,330 m), where he then jumped. The fall lasted 4 minutes and 36 seconds, during which Capt. Kittinger reached speeds of 988 km/h (614 mph).^[14][15]
• Adrian Nicholas holds the record for the longest freefall. A 4 minutes and 55 seconds wingsuit jump made on 12 March 1999.^[16]
• Jay Stokes holds the record for most parachute descents in a single day at 640.^[17]
• The Oldest Skydiver: Frank Moody, aged 101, made a tandem jump on 6 June 2004 at Skydive Cairns. The Tandem Master was Karl Eitrich.^[18]

See also[link]

• Base jump
• Drop zone
• Parachute
• Parachute landing fall
• Paratrooper
• Free-fall
• Tandem skydiving
• Wingsuit
• Automatic activation device
• Space diving

Notes[link]

• Malone, Jo (June, 2000). Birth of Freefly. Skydive the Mag.

External links[link]

Look up parachuting in Wiktionary, the free dictionary.

Wikimedia Commons has media related to: Parachuting

• Skydiving at the Open Directory Project

Felix Baumgartner (born 20 April 1969 in Salzburg, Austria) is an Austrian skydiver and a BASE jumper. He is renowned for the particularly dangerous nature of the stunts he has performed during his career. Baumgartner spent time in the Austrian military where he practiced parachute jumping, including training to land on small target zones.

Biography[link]

He was born on 20 April 1969 in Salzburg, Austria.^[1]

In 1999 he claimed the world record for the highest parachute jump from a building when he jumped from the Petronas Towers in Kuala Lumpur, Malaysia.^[2]

On 31 July 2003, Baumgartner became the first person to skydive across the English Channel using a specially made fibre wing.^[3]

Baumgartner set the world record for the lowest BASE jump ever, from the hand of the Christ the Redeemer statue in Rio de Janeiro.^[4]

He became the first person to BASE jump from the completed Millau Viaduct in France on 27 June 2004^{[citation needed]} and the first person to sky dive onto, then BASE jump from, the Turning Torso building in Malmö, Sweden on 18 August 2006.^[5]

On 12 December 2007 he became the first person to jump from the 91st floor observation deck, then went to the 90th floor (about 390 m (1,280 ft)) of the then tallest completed building in the world, Taipei 101, Taipei, Taiwan.^[6]

[edit] Red Bull Stratos

In January 2010, it was reported that Baumgartner was working with a team of scientists and sponsor Red Bull to attempt the highest sky-dive on record.^[7] Baumgartner was going to make the 120,000 ft (36,600 m) jump from a capsule suspended from a balloon filled with helium, intending to become the first parachutist to break the sound barrier; the feat was scheduled to take place sometime in 2011.^[8][9][10] Joseph Kittinger, who holds the records Baumgartner is attempting to break, was advising Baumgartner during the "Stratos" mission in the hopes of getting scientific data on next-generation full pressure suits.^[7][11] However, on October 12, 2010, Red Bull announced it was placing the project on hold after Daniel Hogan filed a lawsuit in California Superior Court in Los Angeles, California in April, claiming he had originated the idea of the parachute dive from the edge of space in 2004 and that Red Bull had stolen the idea from him.^[12][13] The lawsuit was resolved out of court in June 2011^[14] and on 5 February 2012, The Daily Telegraph reported that the project would be resumed.^[15]

On 15 March 2012 he completed the first of two test jumps from 71,581 feet (21,818 m). During the jump he spent approximately three minutes and 43 seconds in free fall, reaching speeds of more than 360 miles per hour (580 km/h), before opening his parachute. In total, the jump lasted approximately eight minutes and eight seconds and Baumgartner became only the third person to safely parachute from a height of over 13.5 miles (21.7 km).^[16]

See also[link]

• Michel Fournier, who has been working on a 25 mile jump for several years.^[17]
• Joseph Kittinger, world record holder for skydiving from 102,800 ft
• Yves Rossy, the first man to cross the English Channel using a jet-powered wing

References[link]

External links[link]

• Official website
• Red Bull Stratos Project
• Felix Jumping from the Christ Redemeer - Rio de Janeiro - Brazil

External media
	Felix Baumgartner