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{{See also|History of physical training and fitness}} | {{See also|History of physical training and fitness}} | ||
], Greece |
], Greece]] | ||
The first 13 editions of the ] featured only one event—the ], which was a sprinting race from one end of the stadium to the other.<ref name=Instone>Instone, Stephen (15 November 2009). . ]. Retrieved on 23 March 2010.</ref> The ] (Δίαυλος, "double pipe") was a double-stadion race, {{circa|{{convert|400|m|abbr=off}}}}, introduced in the 14th ] of the ] (724{{nbsp}}BC). | The first 13 editions of the ] featured only one event—the ], which was a sprinting race from one end of the stadium to the other.<ref name=Instone>Instone, Stephen (15 November 2009). . ]. Retrieved on 23 March 2010.</ref> The ] (Δίαυλος, "double pipe") was a double-stadion race, {{circa|{{convert|400|m|abbr=off}}}}, introduced in the 14th ] of the ] (724{{nbsp}}BC). | ||
Sprint races were part of the original Olympic Games in the 7th century B.C. as well as the first modern Olympic Games which started in the late 19th century (])<ref>{{Cite web|title=Athens 1896 Olympic Games|url=https://www.britannica.com/event/Athens-1896-Olympic-Games|access-date=2021-07-27|website=Encyclopedia Britannica|language=en}}</ref> and featured the 100 meters and 400 meters. Athletes started both races from a crouched start (4-point stance). In both the original Olympics and the modern Olympics, only men were allowed to participate in track and field until the ] in Amsterdam, Netherlands.<ref>{{cite web |url=https://olympics.com/en/olympic-games/amsterdam-1928 |title=Amsterdam 1928 |website=Olympics.com |date=25 April 2018 |access-date=9 August 2021 |url-status=live}}</ref> The 1928 games were also the first games to use a 400-meter track, which became the standard for track and field. | Sprint races were part of the original Olympic Games in the 7th century B.C. as well as the first modern Olympic Games which started in the late 19th century (])<ref>{{Cite web|title=Athens 1896 Olympic Games|url=https://www.britannica.com/event/Athens-1896-Olympic-Games|access-date=2021-07-27|website=Encyclopedia Britannica|language=en}}</ref> and featured the 100 meters and 400 meters. Athletes started both races from a crouched start (4-point stance). In both the original Olympics and the modern Olympics, only men were allowed to participate in track and field until the ] in Amsterdam, Netherlands.<ref>{{cite web |url=https://olympics.com/en/olympic-games/amsterdam-1928 |title=Amsterdam 1928 |website=Olympics.com |date=25 April 2018 |access-date=9 August 2021 |url-status=live |archive-url=https://web.archive.org/web/20210805135817/https://olympics.com/en/olympic-games/amsterdam-1928 |archive-date=Aug 5, 2021 }}</ref> The 1928 games were also the first games to use a 400-meter track, which became the standard for track and field. | ||
The modern sprinting events have their roots in races of ]s which were later altered to metric: the 100 m evolved from the ],<ref>. ]. Retrieved on 26 March 2010.</ref> the 200 m distance came from the ] (or {{frac|8}} ]),<ref>. ]. Retrieved on 26 March 2010.</ref> and the 400 m was the successor to the ] or quarter-mile race.<ref name="400M" /> | The modern sprinting events have their roots in races of ]s which were later altered to metric: the 100 m evolved from the ],<ref>. ]. Retrieved on 26 March 2010.</ref> the 200 m distance came from the ] (or {{frac|8}} ]),<ref>. ]. Retrieved on 26 March 2010.</ref> and the 400 m was the successor to the ] or quarter-mile race.<ref name="400M" /> | ||
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Technological advances have always improved sprint performances (i.e., starting blocks, synthetic track material, and shoe technology). In 1924, athletes used a small shovel to dig holes to start the race. The world record in the 100-meter dash in 1924 was 10.4 seconds, while in 1948, (the first use of starting blocks) was 10.2 seconds, and was 10.1 seconds in 1956. The constant drive for faster athletes with better technology has brought man from 10.4 seconds to 9.58 seconds in less than 100 years. | Technological advances have always improved sprint performances (i.e., starting blocks, synthetic track material, and shoe technology). In 1924, athletes used a small shovel to dig holes to start the race. The world record in the 100-meter dash in 1924 was 10.4 seconds, while in 1948, (the first use of starting blocks) was 10.2 seconds, and was 10.1 seconds in 1956. The constant drive for faster athletes with better technology has brought man from 10.4 seconds to 9.58 seconds in less than 100 years. | ||
Track events were measured with the ] except for the United Kingdom and the United States until 1965 and 1974 respectively. The ]{{CN|date=January 2023}} decided to switch track and field in the U.S. to the metric system to finally make track and field internationally equivalent. |
Track events were measured with the ] except for the United Kingdom and the United States until 1965 and 1974 respectively. The ]{{CN|date=January 2023}} decided to switch track and field in the U.S. to the metric system to finally make track and field internationally equivalent. | ||
==Biological factors for runners== | ==Biological factors for runners== | ||
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* Runners are staggered in their starting positions to ensure that everyone runs the same distance. | * Runners are staggered in their starting positions to ensure that everyone runs the same distance. | ||
* Runners use |
* Runners use exchange zones (and, previously, separate acceleration zones which have now been eliminated) to pass a baton | ||
==== ]<ref name=":0"/> ==== | ==== ]<ref name=":0"/> ==== | ||
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The ] is an uncommon event that resulted from the metrication of the ] and is an alternative to the ]. | The ] is an uncommon event that resulted from the metrication of the ] and is an alternative to the ]. | ||
====70 |
====70 yards (64.008 m)==== | ||
An extremely rare sprinting event, that was occasionally run in the 1960s. The world record of 6.90 is held by ]. | An extremely rare sprinting event, that was occasionally run in the 1960s. The world record of 6.90 is held by ]. | ||
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====Stadion==== | ====Stadion==== | ||
] | ]]]<ref>{{cite book |last1=Gardiner |first1=E. Norman |title=Greek Athletic Sports and Festivals |date=1910 |publisher=MacMillan |location=London |page=281 Fig. 52}}</ref> | ||
The ], also known as the stade, was the standard short distance sprint in ancient Greece and ran the length of a stadium. However, stadiums could vary in size and there was apparently no definite standard length for them, e.g., the stadium at Delphi measures 177 m and the one at Pergamon 210 m.<ref>Spivey, Nigel, ''The Ancient Olympics'', Oxford: Oxford University Press, 2004, p. 111–112</ref> | The ], also known as the stade, was the standard short distance sprint in ancient Greece and ran the length of a stadium. However, stadiums could vary in size and there was apparently no definite standard length for them, e.g., the stadium at Delphi measures 177 m and the one at Pergamon 210 m.<ref>Spivey, Nigel, ''The Ancient Olympics'', Oxford: Oxford University Press, 2004, p. 111–112</ref> | ||
====300 m==== | ====300 m==== | ||
* The ] is another informal distance, which could be used to aid a 200 m runner's stamina, or a 400 m runner's speed. Currently, the world's best for this event is 30. |
* The ] is another informal distance, which could be used to aid a 200 m runner's stamina, or a 400 m runner's speed. Currently, the world's best for this event is 30.69 seconds, set by ] at altitude in ], ] in 2024.<ref>{{Cite web|title=Tebogo breaks world 300m best with 30.69 in Pretoria|url=https://worldathletics.org/news/report/letsile-tebogo-world-300m-best-pretoria|website=]|date=17 February 2024|access-date=6 June 2024}}</ref> The women's record is 34.41 seconds, set by ] in ], ] in 2019.<ref>{{cite news|title=Miller-Uibo breaks 300m world best, Lasitskene tops 2.06m and Kirt joins 90-metre club in Ostrava |url=https://www.iaaf.org/news/report/kirt-lasitskene-miller-uibo-ostrava|website=]|author=Bob Ramsak|date=20 June 2019|access-date=6 June 2024}}</ref> Junior girls in several countries run this distance instead of the 400 metres. | ||
====Diaulos==== | ====Diaulos==== | ||
The ] was an event contested in the Ancient Greek Olympia that was double the length of a ]. | The ] was an event contested in the Ancient Greek Olympia that was double the length of a ]. | ||
] race was two stades long and run with a shield and helmet. This drawing, from 1910, is based on an original from a Panathenaic amphora from c.336 BC.<ref>{{cite web |title=panathenaic amphora; prize/trophy |url=https://www.britishmuseum.org/collection/object/G_1873-0820-369 |website=The British Museum |access-date=29 February 2024}}</ref>]] | |||
As well as standard foot races, in Ancient Greece there was also a sprint race called the ] ('armed ''diaulos'''<ref>{{cite book |last1=Scanlon |first1=Thomas F. |title=Sport in the Greek and Roman Worlds: Volume 1 Early Greece, the Olympics, and Contests |date=2014 |publisher=Oxford University Press |location=Oxford |page=213}}</ref>). This required the sprinters to additionally carry a large shield and wear a helmet. Similarly to the diaulos, they ran two stades in length i.e. one stade ending with a 180 degree turn around a post, which led onto the second stade in length back down the track.<ref>{{cite book |last1=Scanlon |first1=Thomas F. |title=Sport in the Greek and Roman Worlds: Volume 1 Early Greece, the Olympics, and Contests |date=2014 |publisher=Oxford University Press |location=Oxford |page=213}}</ref> In the diaulos, each sprinter had an individual post to run around.<ref>{{cite book |last1=Gardiner |first1=E. Norman |title=Greek Athletic Sports and Festivals |date=1910 |publisher=MacMillan |location=London |page=280}}</ref> However, for some hoplitodromos races all of the sprinters ran around a single central post.<ref>{{cite book |last1=Gardiner |first1=E. Norman |title=Greek Athletic Sports and Festivals |date=1910 |publisher=MacMillan |location=London |page=289}}</ref> | |||
==== ]<ref name=":0" /> ==== | ==== ]<ref name=":0" /> ==== | ||
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=== Shoes === | === Shoes === | ||
Typically, a sprinter |
Typically, a sprinter only needs two types of shoes, training shoes and ].<ref>{{Cite web|title=A Beginner's Guide to Running Spikes|url=https://www.runnersneed.com/expert-advice/gear-guides/running-spikes-buying-guide.html|access-date=2021-07-27|website=Runners Need}}</ref> | ||
Sprinting spikes are typically designed to be lightweight, with a minimal cushion on the heels and a plate on the forefoot to keep the runner on the toes of each foot. The spike plate will typically have the maximum number of holes for metal spikes to be inserted to keep a proper grip on the track surface. also come in varying sizes. The spikes typically range from 4 mm to 15 mm and come in different styles. Most facilities have specific requirements for what size and style spikes can be used.<ref>{{Cite web|date=2018-01-29|title=The Ultimate Track Spike Buyers Guide|url=https://thewiredrunner.com/track-spike-buyers-guide/|access-date=2021-07-27|website=The Wired Runner|language=en-US}}</ref> | Sprinting spikes are typically designed to be lightweight, with a minimal cushion on the heels and a plate on the forefoot to keep the runner on the toes of each foot. The spike plate will typically have the maximum number of holes for metal spikes to be inserted to keep a proper grip on the track surface. also come in varying sizes. The spikes typically range from 4 mm to 15 mm and come in different styles. Most facilities have specific requirements for what size and style spikes can be used.<ref>{{Cite web|date=2018-01-29|title=The Ultimate Track Spike Buyers Guide|url=https://thewiredrunner.com/track-spike-buyers-guide/|access-date=2021-07-27|website=The Wired Runner|language=en-US}}</ref> | ||
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==== <ref>{{Cite web|last=Wensor|first=Darren|date=2017-03-09|title=5 Secrets to Success With Starting Blocks|url=https://coachingyoungathletes.com/2017/03/09/5-secrets-to-success-with-starting-blocks/|access-date=2021-07-27|website=Coaching Young Athletes|language=en}}</ref> ==== | ==== <ref>{{Cite web|last=Wensor|first=Darren|date=2017-03-09|title=5 Secrets to Success With Starting Blocks|url=https://coachingyoungathletes.com/2017/03/09/5-secrets-to-success-with-starting-blocks/|access-date=2021-07-27|website=Coaching Young Athletes|language=en}}</ref> ==== | ||
* Place heel |
* Place heel slightly on the starting line | ||
* Place the blocks in the center of the track, approximately where your toe is. | * Place the blocks in the center of the track, approximately where your toe is. | ||
* The dominant foot will be in the front block. With the paddle being set at 45 degrees | * The dominant foot will be in the front block. With the paddle being set at 45 degrees | ||
* The front block will be about 1 {{frac|3|4}}-2 foot lengths from the starting line. | * The front block will be about 1 {{frac|3|4}}-2 foot lengths from the starting line. | ||
* The non-dominant foot will be in the back block. The paddle will be set as high as possible. | * The non-dominant foot will be in the back block. The paddle will be set as high as possible. | ||
* The back block will be set about |
* The back block will be set about 3–3 {{frac|1|2}} foot lengths from the starting line. | ||
* The front block and back block are only about 1-foot in length apart. | * The front block and back block are only about 1-foot in length apart. | ||
* The toes should barely touch the ground. | * The toes should barely touch the ground. | ||
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* A forward lean is optimal because it shifts most of the weight to the hands with a minimal bend to the back. | * A forward lean is optimal because it shifts most of the weight to the hands with a minimal bend to the back. | ||
* The dominant leg should have about a 90-degree bend at the knee, while the non-dominant leg should be about 120 degrees | * The dominant leg should have about a 90-degree bend at the knee, while the non-dominant leg should be about 120 degrees | ||
* The arm on the dominant foot side will swing forward in an |
* The arm on the dominant foot side will swing forward in an "exaggerated" fashion, while the arm on the non-dominant side will swing backward in the same fashion | ||
* The non-dominant foot will be the first step. | * The non-dominant foot will be the first step. | ||
* The non-dominant leg should come out with a long (within comfort's range) stride, bringing the knee to a 90-degree position (separation of the foot and opposite leg's knee about |
* The non-dominant leg should come out with a long (within comfort's range) stride, bringing the knee to a 90-degree position (separation of the foot and opposite leg's knee about 2–2 {{frac|1|2}} feet), approximately a 45-degree shin angle, and ] with each stride. | ||
* Halfway before the first step lands, the |
* Halfway before the first step lands, the "driving" position should have a straight line through the non-dominant ankle, knee, hips, shoulders, and head. | ||
=== Baton === | === Baton === | ||
The baton is a required element for any relay race. |
The baton is a required element for any relay race. The baton is passed to each athlete through different ], with different techniques. Typically, about {{Convert|1|ft|m}} and {{Convert|1.5|in|cm}} in diameter. | ||
=== Timing === | === Timing === | ||
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==== Fully Automatic Timing / Gate Systems ==== | ==== Fully Automatic Timing / Gate Systems ==== | ||
Fully Automatic Timing (FAT) and gate systems are used to accurately measure races, with results as accurate as up to 1/1000 of a second.<ref>{{Cite web|title=What is Fully Automatic Timing (FAT) for Sports? {{!}} About|url=https://www.finishlynx.com/about-us/what-is-fully-automatic-timing/|access-date=2021-07-27|website=FinishLynx|language=en-US}}</ref> | Fully Automatic Timing (FAT) and gate systems are used to accurately measure races, with results as accurate as up to 1/1000 of a second.<ref>{{Cite web|title=What is Fully Automatic Timing (FAT) for Sports? {{!}} About|url=https://www.finishlynx.com/about-us/what-is-fully-automatic-timing/|access-date=2021-07-27|website=FinishLynx|date=20 November 2012 |language=en-US}}</ref> | ||
== Governing Bodies == | == Governing Bodies == | ||
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] systems are also used at some track and field events. | ] systems are also used at some track and field events. | ||
== World Records== | |||
== World Records<ref>{{Cite web|title=World Athletics|url=https://www.worldathletics.org/records/by-category/world-records|access-date=2021-07-30|website=www.worldathletics.org}}</ref> == | |||
{| class="wikitable" | {| class="wikitable" | ||
|+Women's World Records | |+Women's World Records | ||
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|- | |- | ||
|4x400 meter relay mixed | |4x400 meter relay mixed | ||
|3: |
|3:08.80 | ||
|Justin Robinson, Rosey Effiong, Matthew Bowling, Alexis Holmes | |||
|Wilbert London,<ref>{{Cite web|title=Wilbert Llndon {{!}} Profile {{!}} World Athletics|url=https://worldathletics.org/athletes/united-states/wilbert-london-14601442|access-date=2021-07-30|website=worldathletics.org}}</ref> Allyson Felix,<ref name="ReferenceD"/> Courtney Okolo,<ref>{{Cite web|title=Courtney OkoloO {{!}} Profile {{!}} World Athletics|url=https://worldathletics.org/athletes/united-states/courtney-okolo-14432036|access-date=2021-07-30|website=worldathletics.org}}</ref> Michael Cherry<ref>{{Cite web|title=Michael Cherry{{!}} Profile {{!}} World Athletics|url=https://worldathletics.org/athletes/united-states/michael-cherry-14490322|access-date=2021-07-30|website=worldathletics.org}}</ref> | |||
|USA<ref name="ReferenceB"/> | |USA<ref name="ReferenceB"/> | ||
|National Athletics Centre, Budapest (HUN) | |||
|Khalifa International Stadium, Doha (QAT) | |||
| |
|19 AUG 2023 | ||
|} | |} | ||
== Sprint training == | == Sprint training == | ||
While genetics play a large role in one's ability to sprint,<ref>{{Cite journal|last1=Lombardo|first1=Michael P.|last2=Deaner|first2=Robert O.|date=2014-06-26|title=You can't teach speed: sprinters falsify the deliberate practice model of expertise|journal=PeerJ|language=en|volume=2|pages=e445|doi=10.7717/peerj.445|issn=2167-8359|pmc=4081292|pmid=25024914}}</ref><ref>{{cite journal|title=ACTN3 and ACE genotypes in elite Jamaican and US sprinters|first1=Robert A.|last1=Scott|first2=Rachael|last2=Irving|first3=Laura|last3=Irwin|first4=Errol|last4=Morrison|first5=Vilma|last5=Charlton|first6=Krista|last6=Austin|first7=Dawn|last7=Tladi|first8=Michael|last8=Deason|first9=Samuel A.|last9=Headley|first10=Fred W.|last10=Kolkhorst|first11=Nan|last11=Yang|first12=Kathryn|last12=North|first13=Yannis P.|last13=Pitsiladis|date=1 January 2010|journal=Medicine and Science in Sports and Exercise|volume=42|issue=1|pages=107–112|doi=10.1249/MSS.0b013e3181ae2bc0|pmid=20010124}}</ref><ref>{{cite journal|title=Genes for elite power and sprint performance: ACTN3 leads the way|first1=Nir|last1=Eynon|first2=Erik D.|last2=Hanson|first3=Alejandro|last3=Lucia|first4=Peter J.|last4=Houweling|first5=Fleur|last5=Garton|first6=Kathryn N.|last6=North|first7=David J.|last7=Bishop|date=1 September 2013|journal=Sports Medicine (Auckland, N.Z.)|volume=43|issue=9|pages=803–817|doi=10.1007/s40279-013-0059-4|pmid=23681449|s2cid=207492970}}</ref> athletes must be dedicated to their training to ensure that they can optimize their performances. Sprint training includes various running workouts, targeting acceleration, speed development, speed endurance, special endurance, and tempo endurance. Additionally, athletes perform intense strength training workouts, as well as plyometric or jumping workouts. Collectively, these training methods produce qualities that allow athletes to be stronger, and more powerful, in hopes of ultimately running faster.<ref>{{Cite book|last=Husbands, Chris.|url=https://www.worldcat.org/oclc/859777344|title=Sprinting : training, techniques and improving performance|date=30 September 2013|isbn=978-1-84797-645-1|location=Ramsbury|oclc=859777344}}</ref> | While genetics play a large role in one's ability to sprint,<ref>{{Cite journal|last1=Lombardo|first1=Michael P.|last2=Deaner|first2=Robert O.|date=2014-06-26|title=You can't teach speed: sprinters falsify the deliberate practice model of expertise|journal=PeerJ|language=en|volume=2|pages=e445|doi=10.7717/peerj.445|issn=2167-8359|pmc=4081292|pmid=25024914 |doi-access=free }}</ref><ref>{{cite journal|title=ACTN3 and ACE genotypes in elite Jamaican and US sprinters|first1=Robert A.|last1=Scott|first2=Rachael|last2=Irving|first3=Laura|last3=Irwin|first4=Errol|last4=Morrison|first5=Vilma|last5=Charlton|first6=Krista|last6=Austin|first7=Dawn|last7=Tladi|first8=Michael|last8=Deason|first9=Samuel A.|last9=Headley|first10=Fred W.|last10=Kolkhorst|first11=Nan|last11=Yang|first12=Kathryn|last12=North|first13=Yannis P.|last13=Pitsiladis|date=1 January 2010|journal=Medicine and Science in Sports and Exercise|volume=42|issue=1|pages=107–112|doi=10.1249/MSS.0b013e3181ae2bc0|pmid=20010124|doi-access=free}}</ref><ref>{{cite journal|title=Genes for elite power and sprint performance: ACTN3 leads the way|first1=Nir|last1=Eynon|first2=Erik D.|last2=Hanson|first3=Alejandro|last3=Lucia|first4=Peter J.|last4=Houweling|first5=Fleur|last5=Garton|first6=Kathryn N.|last6=North|first7=David J.|last7=Bishop|date=1 September 2013|journal=Sports Medicine (Auckland, N.Z.)|volume=43|issue=9|pages=803–817|doi=10.1007/s40279-013-0059-4|pmid=23681449|s2cid=207492970}}</ref> athletes must be dedicated to their training to ensure that they can optimize their performances. Sprint training includes various running workouts, targeting acceleration, speed development, speed endurance, special endurance, and tempo endurance. Additionally, athletes perform intense strength training workouts, as well as plyometric or jumping workouts. Collectively, these training methods produce qualities that allow athletes to be stronger, and more powerful, in hopes of ultimately running faster.<ref>{{Cite book|last=Husbands, Chris.|url=https://www.worldcat.org/oclc/859777344|title=Sprinting : training, techniques and improving performance|date=30 September 2013|isbn=978-1-84797-645-1|location=Ramsbury|oclc=859777344}}</ref> | ||
==See also== | ==See also== | ||
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* ] | * ] | ||
* ] | * ] | ||
** ] | ** ] | ||
** ] | ** ] | ||
** ] | ** ] | ||
** ] | ** ] | ||
** ] | ** ] | ||
** ] | ** ] | ||
** ] | ** ] | ||
** ] | ** ] | ||
== Notes and references == | == Notes and references == | ||
Line 431: | Line 433: | ||
==External links== | ==External links== | ||
* | * (archived 17 November 2006) | ||
* | * | ||
Latest revision as of 04:14, 2 December 2024
Running over a short distance in a limited period of timeThis article has multiple issues. Please help improve it or discuss these issues on the talk page. (Learn how and when to remove these messages)
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Sprinting is running over a short distance at the top-most speed of the body in a limited period of time. It is used in many sports that incorporate running, typically as a way of quickly reaching a target or goal, or avoiding or catching an opponent. Human physiology dictates that a runner's near-top speed cannot be maintained for more than 30–35 seconds due to the depletion of phosphocreatine stores in muscles, and perhaps secondarily to excessive metabolic acidosis as a result of anaerobic glycolysis.
In athletics and track and field, sprints (or dashes) are races over short distances. They are among the oldest running competitions, being recorded at the Ancient Olympic Games. Three sprints are currently held at the modern Summer Olympics and outdoor World Championships: the 100 metres, 200 metres, and 400 metres.
At the professional level, sprinters begin the race by assuming a crouching position in the starting blocks before driving forward and gradually moving into an upright position as the race progresses and momentum is gained. The set position differs depending on the start. The use of starting blocks allows the sprinter to perform an enhanced isometric preload; this generates muscular pre-tension which is channeled into the subsequent forward drive, making it more powerful. Body alignment is of key importance in producing the optimal amount of force. Ideally, the athlete should begin in a 4-point stance and drive forwards, pushing off using both legs for maximum force production. Athletes remain in the same lane on the running track throughout all sprinting events, with the sole exception of the 400 metres indoors. Races up to 100 metres are largely focused upon acceleration to an athlete's maximum speed. All sprints beyond this distance increasingly incorporate an element of endurance.
History
This section needs expansion with: historical records of sprinting after the Ancient Olympics but before 1896. You can help by adding to it. (March 2019) |
The first 13 editions of the Ancient Olympic Games featured only one event—the stadion race, which was a sprinting race from one end of the stadium to the other. The Diaulos (Δίαυλος, "double pipe") was a double-stadion race, c. 400 metres (1,300 feet), introduced in the 14th Olympiad of the ancient Olympic Games (724 BC).
Sprint races were part of the original Olympic Games in the 7th century B.C. as well as the first modern Olympic Games which started in the late 19th century (Athens 1896) and featured the 100 meters and 400 meters. Athletes started both races from a crouched start (4-point stance). In both the original Olympics and the modern Olympics, only men were allowed to participate in track and field until the 1928 games in Amsterdam, Netherlands. The 1928 games were also the first games to use a 400-meter track, which became the standard for track and field.
The modern sprinting events have their roots in races of imperial measurements which were later altered to metric: the 100 m evolved from the 100-yard dash, the 200 m distance came from the furlong (or 1⁄8 mile), and the 400 m was the successor to the 440-yard dash or quarter-mile race.
Technological advances have always improved sprint performances (i.e., starting blocks, synthetic track material, and shoe technology). In 1924, athletes used a small shovel to dig holes to start the race. The world record in the 100-meter dash in 1924 was 10.4 seconds, while in 1948, (the first use of starting blocks) was 10.2 seconds, and was 10.1 seconds in 1956. The constant drive for faster athletes with better technology has brought man from 10.4 seconds to 9.58 seconds in less than 100 years.
Track events were measured with the metric system except for the United Kingdom and the United States until 1965 and 1974 respectively. The Amateur Athletic Association (AAU) decided to switch track and field in the U.S. to the metric system to finally make track and field internationally equivalent.
Biological factors for runners
Biological factors that determine a sprinter's potential include:
- Height (minor factor)
- Muscular strength
- Adrenaline use
- Anaerobic respiration capacity
- Breathing
- Footspeed
- Proportion of fast twitch muscles
- Leg length
- Pelvic width
Competitions
Common contemporary distances
60 meters
- Normally run indoors, on a straight section of an indoor athletic track.
- Some of the fastest humans reach their maximum speed around the 60-metre mark.
- 60-meters is often used as an outdoor distance by younger athletes when starting sprint racing.
Note: Indoor distances are less standardized, as many facilities run shorter or occasionally longer distances depending on available space. 60 m is the championship distance.
100 meters
- Takes place on the straight of a standard outdoor 400 m track.
- Often, the world-record holder in this race is considered "the world's fastest man/woman."
- Primarily an outdoor race.
200 meters
- Begins on the curve of a standard track (where the runners are staggered in their starting position, to ensure that they all run the same distance), and ends on the home straight.
- Competed both indoors and outdoors, with only slightly slower times than outdoors.
400 meters
- Runners are staggered in their starting positions to ensure that everyone runs the same distance.
- Competed both indoors and outdoors, with only slightly slower times than outdoors.
4 × 100 metres relay
- Runners are staggered in their starting positions to ensure that everyone runs the same distance.
- Runners use exchange zones (and, previously, separate acceleration zones which have now been eliminated) to pass a baton
4 × 400 metres relay
- Runners are staggered in their starting positions to ensure that everyone runs the same distance.
- Runners use exchange zones to pass a baton.
- Typically, the final race at track meets.
Historical and uncommon distances
50 yards (45.72 m)
The event was a common event for most American students because it was one of the standardized test events as part of the President's Award on Physical Fitness.
50 m
The 50 metres is an uncommon event and alternative to the 60 metres. Donovan Bailey holds the men's world record with a time of 5.56 seconds and Irina Privalova holds the women's world record with a time of 5.96 seconds.
60 yards (54.864 m)
Main article: 60-yard dash- A rarely run sprinting event that was once more commonplace. The world record time of 5.99 is held by Lee McRae and was set in 1987. The time is often used for American Football speed training.
55 m
The 55 metres is an uncommon event that resulted from the metrication of the 60 yards and is an alternative to the 60 metres.
70 yards (64.008 m)
An extremely rare sprinting event, that was occasionally run in the 1960s. The world record of 6.90 is held by Bob Hayes.
100 yards (91.44 m)
- The outdoor standard in the English (imperial measured) speaking world. It was part of the Commonwealth Games up until 1966 and was the premier event in American high school sprinting until the NFHS changed to metric in 1980, now only a secondary distance to the 100 metres.
- The unofficial World Record Holder is Jamaican Asafa Powell with a time of 9.07 seconds.
150 m
- The informal distance of 150 metres (164.042 yards) can be used to work on a 100 m runner's stamina, or a 200 m runner's speed, and has been used as an exhibition distance. The distance was used in a race between the 1996 Olympic champions, the 100 m gold medalist Donovan Bailey (Canada) and the 200 m gold medalist Michael Johnson (USA). It was to decide which of the two was really the 'fastest man on earth' (see Bailey–Johnson 150-metre race).
- The informal distance was used for an exhibition race during the Manchester Great CityGames as part of the 2009 Great Manchester Run (UK). Stars included Triple Olympic Champion Usain Bolt (Jamaica) alongside Ivory Williams (USA), Simeon Williamson (UK), and other international track stars. The female race included 400 m Olympic Champion, Christine Ohuruogu of Great Britain alongside Debbie Ferguson-McKenzie (Bahamas). Bolt ran the distance in a record time of 14.35 seconds.
Stadion
The stadion, also known as the stade, was the standard short distance sprint in ancient Greece and ran the length of a stadium. However, stadiums could vary in size and there was apparently no definite standard length for them, e.g., the stadium at Delphi measures 177 m and the one at Pergamon 210 m.
300 m
- The 300 metres is another informal distance, which could be used to aid a 200 m runner's stamina, or a 400 m runner's speed. Currently, the world's best for this event is 30.69 seconds, set by Letsile Tebogo at altitude in Pretoria, South Africa in 2024. The women's record is 34.41 seconds, set by Shaunae Miller-Uibo in Ostrava, Czech Republic in 2019. Junior girls in several countries run this distance instead of the 400 metres.
Diaulos
The diaulos was an event contested in the Ancient Greek Olympia that was double the length of a stadion.
As well as standard foot races, in Ancient Greece there was also a sprint race called the hoplitodromos ('armed diaulos'). This required the sprinters to additionally carry a large shield and wear a helmet. Similarly to the diaulos, they ran two stades in length i.e. one stade ending with a 180 degree turn around a post, which led onto the second stade in length back down the track. In the diaulos, each sprinter had an individual post to run around. However, for some hoplitodromos races all of the sprinters ran around a single central post.
4 × 200 metres relay
- Runners are staggered in their starting positions to ensure that everyone runs the same distance.
- Runners use acceleration zones and exchange zones to pass a baton
Equipment
Shoes
Typically, a sprinter only needs two types of shoes, training shoes and sprinting spikes.
Sprinting spikes are typically designed to be lightweight, with a minimal cushion on the heels and a plate on the forefoot to keep the runner on the toes of each foot. The spike plate will typically have the maximum number of holes for metal spikes to be inserted to keep a proper grip on the track surface. These metal removable spikes also come in varying sizes. The spikes typically range from 4 mm to 15 mm and come in different styles. Most facilities have specific requirements for what size and style spikes can be used.
Starting Blocks
Starting blocks are not a necessity but are highly suggested for use in sprinting events. Starting blocks are a piece of equipment that typically consists of foot pads attached to a central rail. The point of using blocks is to help the athlete push themselves further down the track as quickly as possible.
Typical Block Start Set-up
- Place heel slightly on the starting line
- Place the blocks in the center of the track, approximately where your toe is.
- The dominant foot will be in the front block. With the paddle being set at 45 degrees
- The front block will be about 1 3⁄4-2 foot lengths from the starting line.
- The non-dominant foot will be in the back block. The paddle will be set as high as possible.
- The back block will be set about 3–3 1⁄2 foot lengths from the starting line.
- The front block and back block are only about 1-foot in length apart.
- The toes should barely touch the ground.
- Hands will be placed about shoulder-width apart, with the thumb and pointer finger slightly behind the line.
- Arms should be in a straight position (locked or prepared to be locked at the elbows)
- The arms will remain straight (if not locked at the elbows)
- The hips will rise slightly above the shoulders (forcing the front half of the body to lean forward at about 45 degrees (slightly less)).
- A forward lean is optimal because it shifts most of the weight to the hands with a minimal bend to the back.
- The dominant leg should have about a 90-degree bend at the knee, while the non-dominant leg should be about 120 degrees
- The arm on the dominant foot side will swing forward in an "exaggerated" fashion, while the arm on the non-dominant side will swing backward in the same fashion
- The non-dominant foot will be the first step.
- The non-dominant leg should come out with a long (within comfort's range) stride, bringing the knee to a 90-degree position (separation of the foot and opposite leg's knee about 2–2 1⁄2 feet), approximately a 45-degree shin angle, and dorsiflexion with each stride.
- Halfway before the first step lands, the "driving" position should have a straight line through the non-dominant ankle, knee, hips, shoulders, and head.
Baton
The baton is a required element for any relay race. The baton is passed to each athlete through different exchange zones, with different techniques. Typically, about 1 foot (0.30 m) and 1.5 inches (3.8 cm) in diameter.
Timing
Stopwatches
Used typically in training sessions to measure relative times and recovery times. Stopwatches are not always the most accurate way to measure times in a race setting,
Fully Automatic Timing / Gate Systems
Fully Automatic Timing (FAT) and gate systems are used to accurately measure races, with results as accurate as up to 1/1000 of a second.
Governing Bodies
As of 2021, World Athletics (WA) is the governing body for track and field around the world. Every country that wishes to participate in WA competitions must become a member.
Rules
Rule differences with each Governing Bodies
Each governing body sets its own rules for how competition is deemed fair. World Athletics sets the competition rules internationally. The World Athletics rulebook is broken into 4 separate books.
The start
Starting blocks are used for all competition sprints (up to and including 400 m) and relay events (first leg only, up to 4x400 m). The starting blocks consist of two adjustable footplates attached to a rigid frame. Races commence with the firing of the starter's gun. The starting commands are "On your marks" and "Set". Once all athletes are in the set position, the starter's gun is fired, officially starting the race. For the 100 m, all competitors are lined up side by side. For the 200 m, 300 m, and 400 m, which involve curves, runners are staggered for the start.
In the rare event that there are technical issues with a start, a green card is shown to all the athletes. The green card carries no penalty. If an athlete is unhappy with track conditions after the "on your marks" command is given, the athlete must raise a hand before the "set" command and provide the Start referee with a reason. It is then up to the Start referee to decide if the reason is valid. If the Start referee deems the reason invalid, a yellow card (warning) is issued to that particular athlete. If the athlete is already on a warning, the athlete is disqualified.
False starts
Main article: False start § Athletics (track and field)According to the World Athletics (WA) rules, "An athlete, after assuming a full and final set position, shall not commence his starting motion until after receiving the report of the gun or approved starting apparatus. If, in the judgement of the Starter or Recallers, he does so any earlier, it shall be deemed a false start."
The 100 m Olympic gold and silver medallist Linford Christie of Great Britain famously had frequent false starts that were marginally below the legal reaction time of 0.1 seconds. Christie and his coach, Ron Roddan, both claimed that the false starts were due to Christie's exceptional reaction times being under legal time. His frequent false starting eventually led to his disqualification from the 1996 Summer Olympics 100 m final in Atlanta, the US, due to a second false start by Christie. Since January 2010, under WA rules, a single false start by an athlete resulted in disqualification.
In 2012, a new development to the false start rule was added. Because certain athletes could be disqualified for twitching in the starting blocks, but some athletes could make a twitch without the starter noticing and disqualifying the athlete, it was decided that twitching in the starting block while being in the 'set' position would only carry a maximum penalty of a yellow card or a warning. To instantly be disqualified for a false start, an athlete's hands must leave the track or their feet must leave the starting blocks, while the athlete is in their final 'set' position.
Lanes
For all Olympic sprint events, runners must remain within their pre-assigned lanes, which measure 1.22 metres (4 feet) wide, from start to finish. The lanes can be numbered 1 through 8, 9, or rarely 10, starting with the inside lane. Any athlete who runs outside the assigned lane to gain an advantage is subject to disqualification. If the athlete is forced to run outside of his or her lane by another person, and no material advantage is gained, there will be no disqualification. Also, a runner who strays from his or her lane in the straightaway, or crosses the outer line of his or her lane on the bend, and gains no advantage by it, will not be disqualified as long as no other runner is obstructed.
The finish
The first athlete whose torso reaches the vertical plane of the closest edge of the finish line is the winner. To ensure that the sprinter's torso triggers the timing impulse at the finish line rather than an arm, foot, or other body parts, a double Photocell is commonly used. Times are only recorded by an electronic timing system when both of these Photocells are simultaneously blocked. Photo finish systems are also used at some track and field events.
World Records
Discipline | Performance | Competitor | Country | Venue | Date |
---|---|---|---|---|---|
50 meters | 5.96 | Irina Privalova | RUS | Madrid (ESP) | 09 FEB 1995 |
60 meters | 6.92 | Irina Privalova | RUS | Madrid (ESP) | 09 FEB 1995 |
100 meters | 10.49 | Florence Griffith-Joyner | USA | Indianapolis, IN (USA) | 16 JUL 1988 |
200 meters (indoors) | 21.87 | Merlene Ottey | JAM | Lievin (FRA) | 13 FEB 1993 |
200 meters (outdoors) | 21.34 | Florence Griffith-Joyner | USA | Olympic Stadium, Jamsil, Seoul (KOR) | 29 SEP 1988 |
400 meters (indoors) | 49.26 | Femke Bol | NLD | Omnisport, Apeldoorn (NLD) | 19 FEB 2023 |
400 meters (outdoors) | 47.60 | Marita Koch | GDR | Bruce Stadium, Canberra (AUS) | 06 OCT 1985 |
4x100 meter relay | 40.82 | Tianna Bartoletta, Allyson Felix, Bianca Knight, Carmelita Jeter | USA | Olympic Stadium, London (GBR) | 10 AUG 2012 |
4x200 meter relay (indoors) | 1:32.41 | Yuliya Gushchina, Yuliya Pechonkina, Irina Khabarova, Yekaterina Kondratyeva | RUS | Glasgow (GBR) | 29 JAN 2005 |
4x200 meter relay (outdoors) | 1:27.46 | Marion Jones, Nanceen Perry, LaTasha Colander, LaTasha Jenkins | USA | Philadelphia, PA (USA) | 29 APR 2000 |
4x400 meter relay (indoors) | 3:23.37 | Yuliya Gushchina, Olga Kotlyarova, Olga Zaytseva, Olesya Krasnomovets-Forsheva | RUS | Glasgow (GBR) | 28 JAN 2006 |
4x400 meter relay (outdoors) | 3:15.17 | Tatyana Ledovskaya, Olga Nazarova, Mariya Pinigina, Olga Bryzgina | URS | Olympic Stadium, Jamsil, Seoul (KOR) | 01 OCT 1988 |
Discipline | Performance | Competitor | Country | Venue | Date |
---|---|---|---|---|---|
50 meters | 5.56 | Donovan Bailey | CAN | Reno, NV (USA) | 09 FEB 1996 |
60 meters | 6.34 | Christian Coleman | USA | Albuquerque, NM (USA) | 18 FEB 2018 |
100 meters | 9.58 | Usain Bolt | JAM | Olympiastadion, Berlin (GER) | 16 AUG 2009 |
200 meters (indoors) | 19.92 | Frank Fredericks | NAM | Liévin (FRA) | 18 FEB 1996 |
200 meters (outdoors) | 19.19 | Usain Bolt | JAM | Olympiastadion, Berlin (GER) | 20 AUG 2009 |
400 meters (indoors) | 44.57 | Kerron Clement | USA | Fayetteville, AR (USA) | 12 MAR 2005 |
400 meters (outdoors) | 43.03 | Wayde Van Niekerk | RSA | Estádio Olímpico, Rio de Janeiro (BRA) | 14 AUG 2016 |
4x100 meter relay | 36.84 | Nesta Carter, Michael Frater, Yohan Blake, Usain Bolt | JAM | Olympic Stadium, London (GBR) | 11 AUG 2012 |
4x200 meter relay (indoors) | 1:22.11 | John Regis, Ade Mafe, Darren Braithwaite, Linford Christie | GBR | Glasgow (GBR) | 03 MAR 1991 |
4x200 meter relay (outdoors) | 1:18.63 | Nickel Ashmeade, Warren Weir, Jermaine Brown, Yohan Blake | JAM | T. Robinson Stadium, Nassau (BAH) | 24 MAY 2014 |
4x400 meter relay (indoors) | 3:01.51 | Amere Lattin, Obi Igbokwe, Jermaine Holt, Kahmari Montgomery | USA | Clemson, SC (USA) | 09 FEB 2019 |
4x400 meter relay (outdoors) | 2:54.29 | Michael Johnson, Harry "Butch" Reynolds, Quincy Watts, Andrew Valmon | USA | Gottlieb-Daimler Stadion, Stuttgart (GER) | 22 AUG 1993 |
Discipline | Performance | Competitor | Country | Venue | Date |
---|---|---|---|---|---|
4x400 meter relay mixed | 3:08.80 | Justin Robinson, Rosey Effiong, Matthew Bowling, Alexis Holmes | USA | National Athletics Centre, Budapest (HUN) | 19 AUG 2023 |
Sprint training
While genetics play a large role in one's ability to sprint, athletes must be dedicated to their training to ensure that they can optimize their performances. Sprint training includes various running workouts, targeting acceleration, speed development, speed endurance, special endurance, and tempo endurance. Additionally, athletes perform intense strength training workouts, as well as plyometric or jumping workouts. Collectively, these training methods produce qualities that allow athletes to be stronger, and more powerful, in hopes of ultimately running faster.
See also
Notes and references
- ^ 400 m Introduction. IAAF. Retrieved on 26 March 2010.
- ^ 100 m – For the Expert. IAAF. Retrieved on 26 March 2010.
- 200 m For the Expert. IAAF. Retrieved on 26 March 2010.
- Instone, Stephen (15 November 2009). The Olympics: Ancient versus Modern. BBC. Retrieved on 23 March 2010.
- "Athens 1896 Olympic Games". Encyclopedia Britannica. Retrieved 2021-07-27.
- "Amsterdam 1928". Olympics.com. 25 April 2018. Archived from the original on Aug 5, 2021. Retrieved 9 August 2021.
- 100 m – Introduction. IAAF. Retrieved on 26 March 2010.
- 200 m Introduction. IAAF. Retrieved on 26 March 2010.
- Quinn, Elizabeth (2007-10-30). Fast and Slow Twitch Muscle Fibers About.com. Retrieved on 2009-02-01.
- ^ "3 Types of Track and Field Running Events".
- ^ "All you need to know about relay races: Rules, history, world records".
- "President's Council on Sports, Fitness & Nutrition (PCSFN)". HHS.gov. 10 January 2017.
- Bolt runs 14.35 sec for 150m; covers 50m-150m in 8.70 sec!. IAAF (2009-05-17). Retrieved on 2009-05-17.
- New World Best over 150m for Usain Bolt from Universal Sports on YouTube
- Gardiner, E. Norman (1910). Greek Athletic Sports and Festivals. London: MacMillan. p. 281 Fig. 52.
- Spivey, Nigel, The Ancient Olympics, Oxford: Oxford University Press, 2004, p. 111–112
- "Tebogo breaks world 300m best with 30.69 in Pretoria". World Athletics. 17 February 2024. Retrieved 6 June 2024.
- Bob Ramsak (20 June 2019). "Miller-Uibo breaks 300m world best, Lasitskene tops 2.06m and Kirt joins 90-metre club in Ostrava". World Athletics. Retrieved 6 June 2024.
- "panathenaic amphora; prize/trophy". The British Museum. Retrieved 29 February 2024.
- Scanlon, Thomas F. (2014). Sport in the Greek and Roman Worlds: Volume 1 Early Greece, the Olympics, and Contests. Oxford: Oxford University Press. p. 213.
- Scanlon, Thomas F. (2014). Sport in the Greek and Roman Worlds: Volume 1 Early Greece, the Olympics, and Contests. Oxford: Oxford University Press. p. 213.
- Gardiner, E. Norman (1910). Greek Athletic Sports and Festivals. London: MacMillan. p. 280.
- Gardiner, E. Norman (1910). Greek Athletic Sports and Festivals. London: MacMillan. p. 289.
- "A Beginner's Guide to Running Spikes". Runners Need. Retrieved 2021-07-27.
- "The Ultimate Track Spike Buyers Guide". The Wired Runner. 2018-01-29. Retrieved 2021-07-27.
- "5 Secrets to Success with Starting Blocks". 9 March 2017.
- Wensor, Darren (2017-03-09). "5 Secrets to Success With Starting Blocks". Coaching Young Athletes. Retrieved 2021-07-27.
- "What is Fully Automatic Timing (FAT) for Sports? | About". FinishLynx. 20 November 2012. Retrieved 2021-07-27.
- "About World Athletics". www.worldathletics.org. Retrieved 2021-07-30.
- "Member Federations". www.worldathletics.org. Retrieved 2021-07-30.
- "Book of Rules | Official Documents". www.worldathletics.org. Retrieved 2021-07-30.
- ^ Competition Rules 2012-13, IAAF
- Cherry, Gene (4 July 2012). "Twitch or flinch no longer a false start". Reuters. Retrieved 22 June 2022.
- 2009 USATF Competition Rules, Rule 160(1)
- ^ "Irina Privalova | Profile | World Athletics". www.worldathletics.org. Retrieved 2021-07-30.
- ^ "Member Federations". www.worldathletics.org. Retrieved 2021-07-30.
- ^ "Florence Griffith-Joyner | Profile | World Athletics". www.worldathletics.org. Retrieved 2021-07-30.
- ^ "Member Federations". www.worldathletics.org. Retrieved 2021-07-30.
- "Merlene Ottey | Profile | World Athletics". www.worldathletics.org. Retrieved 2021-07-30.
- ^ "Member Federations". www.worldathletics.org. Retrieved 2021-07-30.
- "Femke Bol | Profile | World Athletics". www.worldathletics.org. Retrieved 2023-02-28.
- "Marita Koch | Profile | World Athletics". www.worldathletics.org. Retrieved 2021-07-30.
- "Tianna Bartoletta | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Allyson Felix | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Bianca Knight | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Carmelita Jeter | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- ^ "Yuliya Gushchina | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Yuliya Pechonkina | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Irina Khabarova | Profile | World Athletics". www.worldathletics.org. Retrieved 2021-07-30.
- "Yekaterina Kondratyeva". Olympics.com. Retrieved 2021-07-30.
- "Marion Jones | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Nanceen Perry | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "LaTasha Colander | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "LaTasha Jenkins | Profile | World Athletics". www.worldathletics.org. Retrieved 2021-07-30.
- "Olga Kotlyarova | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Olga Zaytseva | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Olesya Krasnomovets | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Tatiana Ledovskaya". Olympics.com. Retrieved 2021-07-30.
- "Olga M. Nazarova | Profile | World Athletics". www.worldathletics.org. Retrieved 2021-07-30.
- "Mariya Kulchunova-Pinigina | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Olga Vladykina-Bryzgina | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Donovan Bailey | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Member Federations". www.worldathletics.org. Retrieved 2021-07-30.
- "Christian Coleman | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- ^ "Usain Bolt | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Frank Fredericks | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Member Federations". www.worldathletics.org. Retrieved 2021-07-30.
- "Kerron Clement | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Wayde Van niekerk | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Member Federations". www.worldathletics.org. Retrieved 2021-07-30.
- "Nesta Carter | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Michael FRATER | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- ^ "Yohan BLAKE | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "John Regis | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Ade Mafe | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Darren Braithwaite | Profile | World Athletics". www.worldathletics.org. Retrieved 2021-07-30.
- "Linford Christie | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Member Federations". www.worldathletics.org. Retrieved 2021-07-30.
- "Nickel Ashmeade | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Warren Weir | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Germaine BROWN | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Amere Lattin | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Obi IGBOKWE | Profile | World Athletics". www.worldathletics.org. Retrieved 2021-07-30.
- "Jermaine Holt - Track and Field". University of Houston Athletics. Retrieved 2021-07-30.
- "Kahmari MONTGOMERY | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Michael Johnson | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Harry Reynolds | Profile | World Athletics". worldathletics.org. Retrieved 2021-07-30.
- "Quincy Watts | Profile | World Athletics". www.worldathletics.org. Retrieved 2021-07-30.
- "Andrew Valmon - Head Track Coach - Staff Directory". University of Maryland Athletics. Retrieved 2021-07-30.
- Lombardo, Michael P.; Deaner, Robert O. (2014-06-26). "You can't teach speed: sprinters falsify the deliberate practice model of expertise". PeerJ. 2: e445. doi:10.7717/peerj.445. ISSN 2167-8359. PMC 4081292. PMID 25024914.
- Scott, Robert A.; Irving, Rachael; Irwin, Laura; Morrison, Errol; Charlton, Vilma; Austin, Krista; Tladi, Dawn; Deason, Michael; Headley, Samuel A.; Kolkhorst, Fred W.; Yang, Nan; North, Kathryn; Pitsiladis, Yannis P. (1 January 2010). "ACTN3 and ACE genotypes in elite Jamaican and US sprinters". Medicine and Science in Sports and Exercise. 42 (1): 107–112. doi:10.1249/MSS.0b013e3181ae2bc0. PMID 20010124.
- Eynon, Nir; Hanson, Erik D.; Lucia, Alejandro; Houweling, Peter J.; Garton, Fleur; North, Kathryn N.; Bishop, David J. (1 September 2013). "Genes for elite power and sprint performance: ACTN3 leads the way". Sports Medicine (Auckland, N.Z.). 43 (9): 803–817. doi:10.1007/s40279-013-0059-4. PMID 23681449. S2CID 207492970.
- Husbands, Chris. (30 September 2013). Sprinting : training, techniques and improving performance. Ramsbury. ISBN 978-1-84797-645-1. OCLC 859777344.
{{cite book}}
: CS1 maint: location missing publisher (link)
External links
- Top 10 greatest sprint races in history (archived 17 November 2006)
- IAAF list of sprint records in XML
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