Standing long jump
The standing long jump, also known as the standing broad jump, is a track and field event in which an athlete attempts to leap as far as possible horizontally from a stationary starting position, without an approach run, by taking off and landing simultaneously on both feet.[1] This jump emphasizes explosive lower-body power, coordination, and technique, typically involving a crouch, arm swing for momentum, and extension through the hips and legs to propel the body forward.[2] Unlike the running long jump, it tests static explosiveness rather than speed, making it a staple in fitness assessments for measuring muscular strength and neuromuscular efficiency in sports like athletics, basketball, and soccer.[3] Historically, the standing long jump was a men's event at the early modern Olympic Games, debuting in 1900 and remaining on the program until its discontinuation after the 1912 Stockholm Olympics, when emphasis shifted toward running variants for greater athletic spectacle.[4] American athlete Ray Ewry dominated the discipline, securing gold medals in 1900, 1904, and 1908 while setting a then-world record of 3.47 meters in 1904, a mark that highlighted the event's role in early 20th-century track and field.[4] Though removed from major international competitions, the event persists in physical education, military training, and select national meets, with the men's world record at 3.71 meters, achieved by Norwegian Arne Tvervaag in 1968, and the women's at 2.92 meters by Annelin Mannes in 1971.[5]Overview
Definition and basics
The standing long jump, also known as the standing broad jump, is a horizontal jump event in athletics where the athlete begins from a stationary position behind a marked takeoff line and propels forward with a simultaneous takeoff from both feet to cover the maximum possible distance.[6] The jump is measured from the takeoff line to the nearest point of contact in the landing area, typically the back of the heel, with the athlete required to land on both feet without falling backward.[7] This event isolates the athlete's ability to generate force without momentum from a run-up, distinguishing it fundamentally from the running long jump, which incorporates speed from an approach to enhance distance.[8] The physical demands of the standing long jump center on explosive power from the lower body, including the quadriceps, glutes, hamstrings, and calves, while requiring core stability to maintain balance during takeoff and landing.[9] Coordination between the upper and lower body is essential, as arm swing contributes to the overall propulsion and rotational control.[10] Performed on a flat surface such as a non-slip mat or, in historical Olympic contexts, a sandpit, the event tests pure static force production rather than speed-endurance integration.[6] Basic equipment includes a marked takeoff line (often adhesive tape), a landing area—such as a 3 m x 9 m sandpit in traditional setups—and a measuring tape for precise distance recording to the nearest centimeter.[11] In modern fitness testing, a tartan or rubberized mat (approximately 80 cm x 300 cm) may replace the sandpit for safety and portability, with the entire setup requiring minimal space of about 2 m x 4 m.[6]Significance in athletics and fitness
The standing long jump has long served as a fundamental measure of lower-body explosive power in athletics, originally valued in early 20th-century track and field for assessing raw athletic potential without the aid of a run-up.[12] In modern contexts, it remains integral to fitness evaluations across diverse domains, including professional sports assessments like the NFL Combine, where the broad jump event tests horizontal explosiveness for prospective players.[13] Military programs, such as the U.S. Army's Occupational Physical Assessment Test (OPAT), incorporate it to gauge recruits' lower-body power for job suitability.[14] Additionally, it features prominently in school physical education curricula to evaluate student fitness levels and in rehabilitation protocols, such as ACL recovery programs, to monitor progressive return to explosive activities.[15] Performing the standing long jump offers key physiological benefits, particularly in developing fast-twitch muscle fibers through plyometric demands that enhance neuromuscular coordination and explosive strength.[16] It promotes efficient power transfer between vertical and horizontal planes, aiding overall athletic efficiency, while the emphasis on controlled landings in plyometric variations supports injury prevention by improving joint stability and dynamic balance, especially for lower extremities.[17] These adaptations make it a versatile tool for building resilience against common sports injuries like knee strains. Beyond standalone events, the standing long jump influences training regimens in sports requiring rapid power output, such as basketball and volleyball, where it builds foundational explosiveness for rebounds and spikes.[18] In track and field, it correlates with high jump performance by honing leg drive mechanics. Performance metrics typically range from 2.0-2.5 meters for untrained adults, reflecting baseline fitness, while elite athletes often exceed 3.5 meters, underscoring its scalability in assessing athletic caliber.History
Origins and early development
The standing long jump shares conceptual similarities with the ancient Greek event of halma, part of the pentathlon in the Olympic Games, where athletes demonstrated explosive leg power through jumps accompanied by music and using halteres (hand weights) for momentum, though the halma incorporated a short run-up and no direct evidence exists for a standing variant.[19] This emphasis on raw jumping ability without preparatory speed prefigures the modern standing long jump's focus on innate strength. The event emerged as a distinct competition in the early 19th century within Scottish Border and Highland Games, where standing jumps were contested on uneven, grass surfaces often by barefoot athletes, reflecting traditional tests of physical prowess in rural gatherings.[20] By the 1850s, it had become a staple in Scottish Highland Games and Irish military sports, promoting discipline and fitness among soldiers through simple, equipment-free challenges that highlighted lower-body explosiveness. Early documented performances include a standing long jump of approximately 9 feet 3 inches (2.82 meters) by Private J. Forbes at the 93rd Sutherland Highlanders' games in 1853, marking one of the first measured results in such contexts, though records from this era were inconsistent due to varying conditions and lack of standardization. Standing long jumps appeared in English athletics meets by the 1860s, integrated into emerging amateur competitions organized by groups like the Amateur Athletic Club (founded 1865), where they served alongside running jumps to assess versatile athletic talent on improvised fields.[21] Notable early claims include Irish athlete Maurice Davin's reported 38 feet (11.6 meters) in 1872 at Carrick-on-Suir, a figure likely exaggerated or derived from a non-standard measurement such as a multi-phase jump or aided technique, as it far exceeds verified standing distances even today. By the late 1800s, the event spread to formal amateur athletic clubs across Europe via the Amateur Athletic Association (1880) and to the United States through organizations like the Amateur Athletic Union (1888), where the standing start was prized for isolating pure muscular power without run-up assistance, influencing school and club training programs.[21][22]Olympic inclusion and key events
The standing long jump debuted as an official Olympic event at the 1900 Paris Summer Games, contested separately from the running long jump to emphasize explosive power without a run-up, and it remained part of the program through every Summer Olympics until its final appearance in 1912 at Stockholm.[1][4] This inclusion reflected the early Olympic era's experimental approach to athletics, incorporating events that tested "natural" physical abilities rooted in strength and coordination rather than speed aids like runways.[1] Measurements were recorded in meters starting from the 1900 Games, standardizing results for international comparison.[23] A notable highlight occurred during the 1906 Intercalated Games in Athens, a special edition organized outside the official quadrennial cycle to celebrate the ancient Olympic site's anniversary and expand the program with trial events; American Ray Ewry claimed gold in the standing long jump with a leap of 3.30 meters, underscoring the period's innovative yet non-canonical spirit.[24] Ray Ewry dominated the event across its Olympic tenure, securing gold medals in the standing long jump at the 1900 Paris Games (3.21 meters), 1904 St. Louis Games (3.47 meters), and 1908 London Games (3.33 meters), contributing to his record of eight total Olympic golds in standing jump disciplines. His 3.47-meter jump in 1904 also set the first official world record for the event.[25][4] Greek athlete Konstantinos Tsiklitiras emerged as a key figure in the event's later years, earning silver in 1908 (3.235 meters, behind Ewry) and gold in 1912 (3.37 meters), highlighting rising European competition during the discipline's peak.[26][4]Decline and contemporary uses
The standing long jump was discontinued as an Olympic event following the 1912 Games in Stockholm, as organizers favored the running long jump for its enhanced spectacle, integrating speed with power in a way that captivated audiences more effectively than the static start of the standing variant.[27] By the 1920s, the International Amateur Athletic Federation (IAAF, now World Athletics) further de-emphasized standing jumps in its standardization of track and field events, prioritizing the running versions for international competitions and leading to their exclusion from major global meets.[28] This shift aligned with the rise of indoor arenas, where run-ups became more feasible, accelerating the decline of standing events in elite athletics.[4] Throughout the mid-20th century, the standing long jump saw sporadic inclusion in regional European competitions but faded from prominence in organized athletics. The last officially recognized world record under IAAF auspices was set in 1968 by Norwegian athlete Arne Tvervaag, who achieved 3.71 meters at an event in Noresund, Norway.[29] No IAAF-sanctioned world championships for the event have occurred since 1912, marking its full retreat from the international stage. In contemporary contexts, the standing long jump has experienced a niche revival, particularly in Norway, where it remains an annual national championship event held indoors as part of the Norwegian Indoor Athletics Championships since 1995.[29] It continues to serve as a key component in fitness assessment protocols, such as the Eurofit test battery developed by the European Committee for Standardization, which uses it to evaluate lower-body explosive power in youth and general populations.[30] The event also features in military training programs worldwide to measure functional strength and is informally tracked in non-athletic settings, exemplified by Byron Jones's 3.73-meter jump at the 2015 NFL Scouting Combine, which surpassed the official athletics record but is not recognized under track standards.[31] Globally, it persists in school physical education curricula in parts of Asia and Africa, where it promotes basic athletic development without requiring specialized facilities.[12]Technique and training
Fundamental mechanics
The standing long jump begins with the athlete in a stable starting position, feet placed shoulder-width apart and parallel to the takeoff line, with toes positioned just behind the line to ensure a legal jump. A slight bend in the knees provides stability and allows for the initial loading of the lower body muscles, while the trunk remains upright or slightly forward-leaning to prepare for the explosive movement. This setup maximizes ground contact and enables efficient force generation from the quadriceps, hamstrings, and gluteals during propulsion.[32][7][33] Arm action plays a critical role in counterbalancing and enhancing momentum. The athlete initially swings the arms backward and slightly downward to load the upper body and maintain equilibrium as the knees flex. During takeoff, the arms are then driven vigorously forward and upward in a coordinated motion, transferring kinetic energy to the lower body and increasing the horizontal velocity of the center of gravity by approximately 12.7%, which can boost overall jump distance by up to 21.2%. This arm swing follows the principle of conservation of momentum, where the upper extremities contribute to the total impulse without direct ground contact.[34][35] The takeoff phase involves a simultaneous explosive extension of the ankles, knees, and hips, with both feet leaving the ground together to propel the body forward. This coordinated triple extension generates a powerful ground reaction force, producing an impulse that accelerates the center of mass at a low projection angle of about 20-25 degrees to the horizontal, optimizing horizontal displacement over vertical height. The impulse, derived from the integral of the ground reaction force over the contact time (typically 0.2-0.3 seconds), directs energy primarily forward, with horizontal components often exceeding vertical ones to minimize time in the air while maximizing range.[36][37] In the flight phase, the athlete maintains a tucked position with knees slightly bent and a slight forward lean to preserve balance and horizontal velocity, lasting approximately 0.5-0.7 seconds depending on takeoff speed and angle. The body follows projectile motion under gravity, with no additional propulsion, as the initial velocity determines the parabolic trajectory; arm swing during this phase helps control rotation and prevents excessive forward pitching. Maximizing horizontal velocity at takeoff—often around 3-3.5 m/s—ensures the center of gravity travels the farthest before descent.[36][32] Landing occurs with both feet together upon impact in the sandpit, heels striking first to extend the measurable distance, followed by the knees bending to absorb shock and dissipate vertical forces through eccentric muscle contraction in the quadriceps and calves. This technique allows forward momentum to carry the body naturally, minimizing backward fall and preserving the jump's validity by keeping the hands and buttocks from touching the ground prematurely. The absorption reduces peak ground reaction forces at landing, which can reach approximately 2-3 times body weight, preventing injury while optimizing the final position for measurement from the takeoff line to the nearest heel mark.[33][38][37][39]Training approaches and drills
Training for the standing long jump emphasizes building lower body strength to enhance force production during takeoff. Key exercises include squats, deadlifts, and calf raises, which target the glutes, quadriceps, and calves to support explosive power generation. These compound movements improve overall muscle strength, which correlates with better standing long jump performance, as demonstrated in studies showing associations between lower extremity force and jump distance. Typical protocols involve 3-5 sets of 6-8 repetitions at moderate to heavy loads, progressing by increasing weight or volume to build a solid base without compromising form.[32] Plyometric drills are essential for developing explosive power through the stretch-shortening cycle, directly translating to improved standing long jump outcomes. Effective exercises include box jumps, depth jumps from low heights (12-18 inches), and repeated standing jumps, starting with 2-4 sets of 5-8 repetitions and advancing to higher intensities as tolerance builds. Research on prepubescent athletes indicates that 10 weeks of plyometric training, incorporating jumping, hurdling, and skipping at 3 sessions per week, significantly enhances standing long jump distance by improving reactive strength. Progressions should begin with low-impact bilateral jumps and evolve to unilateral variations to minimize injury risk while maximizing power gains.[40][41] Technique-specific practice refines coordination and efficiency, focusing on arm swing isolations and squat-to-jump progressions to optimize takeoff mechanics. Arm swings, when executed freely, can increase jump distance by up to 21.2% by boosting horizontal velocity, while practicing straddle foot positioning at takeoff yields about 5.18% greater distance compared to parallel feet. Drills such as isolated arm circles followed by full-body squat jumps, combined with video analysis for real-time feedback, help athletes achieve an optimal takeoff angle of 29°-38°. These sessions, typically 2-3 times weekly for 20-30 minutes, emphasize deliberate repetition to ingrain proper sequencing of lower and upper body actions.[32] Periodization structures training to peak performance while preventing overuse injuries, beginning with base strength building in the off-season through higher-volume, lower-intensity work. This phase focuses on foundational exercises like squats and plyometrics at reduced loads, transitioning 4-6 weeks pre-competition to event-specific jumps with higher intensity and recovery emphasis, such as active rest days and mobility work. Studies on jumpers recommend 4-6 weeks of detraining post-season to restore capacity, followed by progressive overload to align strength gains with competition demands. Recovery protocols, including monitoring for signs of fatigue, are critical to sustain adaptations.[42] Common progressions track development through structured advancements, starting with submaximal jumps around 1.5-2 meters to master technique before advancing to maximum efforts. Weekly tests of standing long jump distance provide measurable feedback, allowing adjustments in volume or intensity based on improvements, such as a 5-15% increase over the 8-12 week program. This approach, spanning 8-12 weeks, integrates bilateral to unilateral drills, ensuring gradual enhancement in power output.[43][32]Rules and competitions
Official guidelines
In formal competitions such as those organized by Special Olympics, the standing long jump requires competitors to begin with both feet positioned behind a designated takeoff line or board, using a two-footed takeoff without any preliminary steps, hops, or complete lifting of either foot off the ground; rocking of the heels and toes is permitted, but any part of the body crossing beyond the line results in a foul.[44][45] The jump is invalid if the athlete fails to initiate the action within one minute of being called or if a foot lifts entirely during preparation.[44] For landing validity in these settings, the distance is determined from the takeoff line to the nearest impression made by any part of the body or clothing in the landing area (preferably a sand-filled pit or mat). Athletes typically land on both feet to achieve maximum distance.[44][45] Judges declare fouls for takeoff or landing violations by raising a red flag, in which case no measurement is taken and the attempt counts toward the total allotted; valid jumps are signaled with a white flag.[46] Competitors in official meets typically receive three to six attempts, with the best valid distance determining the final score and others used for tie-breaking if necessary; attempts are often non-consecutive to allow recovery time.[44][46] In fitness testing protocols, such as those standardized for physical education or performance assessment, the rules are simplified: a sand pit is often not required, and the distance may be measured from the takeoff line to the back of the heels upon landing on a firm surface, with three attempts and the longest recorded, provided there is no backward step after landing.[2][7] In traditional events like Highland Games, slight variations may occur, such as measurement to the back of the nearest heel, though core validity rules align with broader athletic standards.[47] The event also appears in youth competitions under World Athletics rules, following similar takeoff and measurement protocols.Measurement and judging criteria
In the standing long jump, the distance is calculated by measuring the perpendicular distance from the takeoff line to the nearest impression made by any part of the athlete's body or clothing in the landing area, ensuring the measurement captures the horizontal displacement achieved. This is typically performed using a tape measure stretched in a straight line, with the landing impression marked immediately by an official to preserve accuracy. In contemporary fitness testing and some competitive setups, electronic mats or laser measurement systems may be employed to automate and enhance precision in recording the distance. Historically, during its inclusion in the Olympic Games from 1900 to 1912, measurements followed a similar protocol, taken from the edge of the marked takeoff line to the nearest impression in the landing area. Officiating involves distinct roles to maintain fairness and accuracy. The takeoff judge closely monitors the athlete's position relative to the takeoff line, disqualifying any attempt where the feet cross or lift prematurely before the jump. The landing judge observes and marks the exact point of first contact in the landing pit, while the chief judge oversees the overall process, resolves any disputes, and verifies the final measurement before it is recorded. These roles ensure compliance with validity rules, such as no overstepping the line, though detailed execution guidelines are outlined separately. The event can be conducted indoors or outdoors, with no formal wind measurement required, unlike running long jumps, as the lack of an approach run eliminates wind assistance concerns; however, competitions prefer calm, fair weather conditions to optimize performance consistency. Measurements are standardized to the nearest centimeter for precision, allowing for reliable comparisons across attempts and athletes. Safety protocols are integral to the event's conduct. The landing pit must be raked smooth and level prior to each jump to prevent uneven surfaces that could cause injury, with sand or soft material maintained at an appropriate depth. Athletes are required to perform adequate warm-up exercises, including dynamic stretches and preliminary jumps, to reduce the risk of strains or other lower-body injuries associated with explosive efforts.Records and notable performances
World and national records
The official men's world record in the standing long jump is 3.71 meters, set by Arne Tvervaag of Norway at the 1968 European Indoor Championships in Madrid, Spain.[5] This mark remains the recognized global standard in official athletics circles, surpassing earlier benchmarks such as Ray Ewry's 3.47 meters achieved on September 3, 1904, during the St. Louis Olympic Games, which was the first formally recognized world record for the event.[48] For women, official global records are scarce, with no marks ratified by World Athletics since the early 20th century due to the event's removal from major international programs after 1912; however, although not ratified by World Athletics due to the event's discontinued status, the recognized best performance is 2.92 meters by Annelin Mannes of Norway, achieved on March 7, 1981, in Flisa, Norway, which also serves as the Norwegian national best.[5] Unofficial modern performances, often from non-track settings like professional sports combines, have occasionally exceeded the official record; notably, Byron Jones of the United States reached 3.73 meters at the 2015 NFL Scouting Combine in Indianapolis, Indiana, establishing a benchmark in athletic testing contexts.[49] Other high marks in NFL and fitness evaluations typically cluster around 3.5 meters, highlighting the event's continued relevance in strength and power assessments despite its absence from elite athletics. National records vary by country, with Norway maintaining a strong historical series, including Tvervaag's men's mark as the enduring national best. In the United States, Ewry's 1904 achievement holds historical significance as an early national and global standard, though contemporary national records are not formally tracked by World Athletics due to the event's discontinued status. Record ratification historically required approval from the IAAF (now World Athletics), involving verified measurements under controlled conditions without aids like wind assistance—though the standing nature of the jump minimizes such factors—and has been rare since 1912, limiting official updates to pre-discontinuation eras. As of November 2025, no newer ratified or recognized records have been set.Olympic and major competition medalists
The standing long jump was featured as an Olympic event from 1900 to 1912, with American Ray Ewry dominating the early editions by securing gold medals in the first three Games (1900, 1904, and 1908).[50][23] The event showcased exceptional lower-body power, with medal distances typically exceeding 3 meters despite the prohibition of a run-up. Below is a summary of the Olympic medalists and their performances.| Year | Location | Gold | Silver | Bronze |
|---|---|---|---|---|
| 1900 | Paris | Ray Ewry (USA, 3.30 m) | Irving Baxter (USA, 3.14 m) | Émile Torcheboeuf (FRA, 3.12 m) |
| 1904 | St. Louis | Ray Ewry (USA, 3.47 m) | Charles King (USA, 3.27 m) | John Biller (USA, 3.25 m) |
| 1908 | London | Ray Ewry (USA, 3.33 m) | Konstantinos Tsiklitiras (GRE, 3.23 m) | Martin Sheridan (USA, 3.22 m) |
| 1912 | Stockholm | Konstantinos Tsiklitiras (GRE, 3.37 m) | Platt Adams (USA, 3.36 m) | Benjamin Adams (USA, 3.28 m) |