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Wikipedia

Running

December 29, 2022

Not to be confused with Gait. For other uses, see Runner (disambiguation), Runners (disambiguation), and Running (disambiguation).

Running is a method of terrestrial locomotion allowing humans and other animals to move rapidly on foot. Running is a type of gait characterized by an aerial phase in which all feet are above the ground (though there are exceptions).[1] This is in contrast to walking, where one foot is always in contact with the ground, the legs are kept mostly straight and the center of gravity vaults over the stance leg or legs in an inverted pendulum fashion.[2] A feature of a running body from the viewpoint of spring-mass mechanics is that changes in kinetic and potential energy within a stride occur simultaneously, with energy storage accomplished by springy tendons and passive muscle elasticity.[3] The term running can refer to any of a variety of speeds ranging from jogging to sprinting.

Marathon runners at Carlsbad Marathon, USA, 2013
Video of human running action

Running in humans is associated with improved health and life expectancy.[4]

It is assumed that the ancestors of humankind developed the ability to run for long distances about 2.6 million years ago, probably in order to hunt animals.[5] Competitive running grew out of religious festivals in various areas. Records of competitive racing date back to the Tailteann Games in Ireland between 632 BCE and 1171 BCE,[6][7][8] while the first recorded Olympic Games took place in 776 BCE. Running has been described as the world's most accessible sport.[9]

History

See also: History of physical training and fitness
 
A scene depicting long-distance runners, originally found on a Panathenaic amphora from Ancient Greece, circa 333 BCE

It is thought that human running evolved at least four and a half million years ago out of the ability of the ape-like Australopithecus, an early ancestor of humans, to walk upright on two legs.[10]

Early humans most likely developed into endurance runners from the practice of persistence hunting of animals, the activity of following and chasing until a prey is too exhausted to flee, succumbing to "chase myopathy" (Sears 2001), and that human features such as the nuchal ligament, abundant sweat glands, the Achilles tendons, big knee joints and muscular glutei maximi, were changes caused by this type of activity (Bramble & Lieberman 2004, et al.).[11][12][13] The theory as first proposed used comparative physiological evidence and the natural habits of animals when running, indicating the likelihood of this activity as a successful hunting method. Further evidence from observation of modern-day hunting practice also indicated this likelihood (Carrier et al. 1984). [13][14] According to Sears (p. 12) scientific investigation (Walker & Leakey 1993) of the Nariokotome Skeleton provided further evidence for the Carrier theory.[15]

Competitive running grew out of religious festivals in various areas such as Greece, Egypt, Asia, and the East African Rift in Africa. The Tailteann Games, an Irish sporting festival in honor of the goddess Tailtiu, dates back to 1829 BCE, and is one of the earliest records of competitive running.[16] The origins of the Olympics and Marathon running are shrouded by myth and legend, though the first recorded games took place in 776 BCE.[17] Running in Ancient Greece can be traced back to these games of 776 BCE.

...I suspect that the sun, moon, earth, stars, and heaven, which are still the gods of many barbarians, were the only gods known to the aboriginal Hellenes. Seeing that they were always moving and running, from their running nature they were called gods or runners (Thus, Theontas)...

— Socrates in Plato – Cratylus[18]

Description

 
Eadweard Muybridge photo sequence

Running gait can be divided into two phases in regard to the lower extremity: stance and swing.[19][20][21][22] These can be further divided into absorption, propulsion, initial swing and terminal swing. Due to the continuous nature of running gait, no certain point is assumed to be the beginning. However, for simplicity, it will be assumed that absorption and footstrike mark the beginning of the running cycle in a body already in motion.

Footstrike

Footstrike occurs when a plantar portion of the foot makes initial contact with the ground. Common footstrike types include forefoot, midfoot and heel strike types.[23][24][25] These are characterized by initial contact of the ball of the foot, ball and heel of the foot simultaneously and heel of the foot respectively. During this time the hip joint is undergoing extension from being in maximal flexion from the previous swing phase. For proper force absorption, the knee joint should be flexed upon footstrike and the ankle should be slightly in front of the body.[26] Footstrike begins the absorption phase as forces from initial contact are attenuated throughout the lower extremity. Absorption of forces continues as the body moves from footstrike to midstance due to vertical propulsion from the toe-off during a previous gait cycle.

Midstance

Midstance is defined as the time at which the lower extremity limb of focus is in knee flexion directly underneath the trunk, pelvis and hips. It is at this point that propulsion begins to occur as the hips undergo hip extension, the knee joint undergoes extension and the ankle undergoes plantar flexion. Propulsion continues until the leg is extended behind the body and toe off occurs. This involves maximal hip extension, knee extension and plantar flexion for the subject, resulting in the body being pushed forward from this motion and the ankle/foot leaves the ground as initial swing begins.

Propulsion phase

Most recent research, particularly regarding the footstrike debate, has focused solely on the absorption phases for injury identification and prevention purposes. The propulsion phase of running involves the movement beginning at midstance until toe off.[20][21][27] From a full stride length model however, components of the terminal swing and footstrike can aid in propulsion.[22][28] Set up for propulsion begins at the end of terminal swing as the hip joint flexes, creating the maximal range of motion for the hip extensors to accelerate through and produce force. As the hip extensors change from reciporatory inhibitors to primary muscle movers, the lower extremity is brought back toward the ground, although aided greatly by the stretch reflex and gravity.[22] Footstrike and absorption phases occur next with two types of outcomes. This phase can be only a continuation of momentum from the stretch reflex reaction to hip flexion, gravity and light hip extension with a heel strike, which does little to provide force absorption through the ankle joint.[27][29][30] With a mid/forefoot strike, loading of the gastro-soleus complex from shock absorption will serve to aid in plantar flexion from midstance to toe-off.[30][31] As the lower extremity enters midstance, true propulsion begins.[27] The hip extensors continue contracting along with help from the acceleration of gravity and the stretch reflex left over from maximal hip flexion during the terminal swing phase. Hip extension pulls the ground underneath the body, thereby pulling the runner forward. During midstance, the knee should be in some degree of knee flexion due to elastic loading from the absorption and footstrike phases to preserve forward momentum.[32][33][34] The ankle joint is in dorsiflexion at this point underneath the body, either elastically loaded from a mid/forefoot strike or preparing for stand-alone concentric plantar flexion. All three joints perform the final propulsive movements during toe-off.[27][29][30][31] The plantar flexors plantar flex, pushing off from the ground and returning from dorsiflexion in midstance. This can either occur by releasing the elastic load from an earlier mid/forefoot strike or concentrically contracting from a heel strike. With a forefoot strike, both the ankle and knee joints will release their stored elastic energy from the footstrike/absorption phase.[32][33][34] The quadriceps group/knee extensors go into full knee extension, pushing the body off of the ground. At the same time, the knee flexors and stretch reflex pull the knee back into flexion, adding to a pulling motion on the ground and beginning the initial swing phase. The hip extensors extend to maximum, adding the forces pulling and pushing off of the ground. The movement and momentum generated by the hip extensors also contributes to knee flexion and the beginning of the initial swing phase.

Swing phase

Initial swing is the response of both stretch reflexes and concentric movements to the propulsion movements of the body. Hip flexion and knee flexion occur beginning the return of the limb to the starting position and setting up for another footstrike. Initial swing ends at midswing, when the limb is again directly underneath the trunk, pelvis and hip with the knee joint flexed and hip flexion continuing. Terminal swing then begins as hip flexion continues to the point of activation of the stretch reflex of the hip extensors. The knee begins to extend slightly as it swings to the anterior portion of the body. The foot then makes contact with the ground with footstrike, completing the running cycle of one side of the lower extremity. Each limb of the lower extremity works opposite to the other. When one side is in toe-off/propulsion, the other hand is in the swing/recovery phase preparing for footstrike.[19][20][21][22] Following toe-off and the beginning of the initial swing of one side, there is a flight phase where neither extremity is in contact with the ground due to the opposite side finishing terminal swing. As the footstrike of the one hand occurs, initial swing continues. The opposing limbs meet with one in midstance and midswing, beginning the propulsion and terminal swing phases.

Upper extremity function

Upper extremity function serves mainly in providing balance in conjunction with the opposing side of the lower extremity.[20] The movement of each leg is paired with the opposite arm which serves to counterbalance the body, particularly during the stance phase.[27] The arms move most effectively (as seen in elite athletes) with the elbow joint at an approximately 90 degrees or less, the hands swinging from the hips up to mid chest level with the opposite leg, the Humerus moving from being parallel with the trunk to approximately 45 degrees shoulder extension (never passing the trunk in flexion) and with as little movement in the transverse plane as possible.[35] The trunk also rotates in conjunction with arm swing. It mainly serves as a balance point from which the limbs are anchored. Thus trunk motion should remain mostly stable with little motion except for slight rotation as excessive movement would contribute to transverse motion and wasted energy.

Footstrike debate

Recent research into various forms of running has focused on the differences, in the potential injury risks and shock absorption capabilities between heel and mid/forefoot footstrikes. It has been shown that heel striking is generally associated with higher rates of injury and impact due to inefficient shock absorption and inefficient biomechanical compensations for these forces.[23] This is due to forces from a heel strike traveling through bones for shock absorption rather than being absorbed by muscles. Since bones cannot disperse forces easily, the forces are transmitted to other parts of the body, including ligaments, joints and bones in the rest of the lower extremity all the way up to the lower back.[36] This causes the body to use abnormal compensatory motions in an attempt to avoid serious bone injuries.[37] These compensations include internal rotation of the tibia, knee and hip joints. Excessive amounts of compensation over time have been linked to higher risk of injuries in those joints as well as the muscles involved in those motions.[29] Conversely, a mid/forefoot strike has been associated with greater efficiency and lower injury risk due to the triceps surae being used as a lever system to absorb forces with the muscles eccentrically rather than through the bone.[23] Landing with a mid/forefoot strike has also been shown to not only properly attenuate shock but allows the triceps surae to aid in propulsion via reflexive plantarflexion after stretching to absorb ground contact forces.[28][38] Thus a mid/forefoot strike may aid in propulsion. However, even among elite athletes there are variations in self selected footstrike types.[39] This is especially true in longer distance events, where there is a prevalence of heel strikers.[40] There does tend however to be a greater percentage of mid/forefoot striking runners in the elite fields, particularly in the faster racers and the winning individuals or groups.[35] While one could attribute the faster speeds of elite runners compared to recreational runners with similar footstrikes to physiological differences, the hip and joints have been left out of the equation for proper propulsion. This brings up the question as to how heel striking elite distance runners are able to keep up such high paces with a supposedly inefficient and injurious foot strike technique.

Stride length, hip and knee function

Biomechanical factors associated with elite runners include increased hip function, use and stride length over recreational runners.[35][41] An increase in running speeds causes increased ground reaction forces and elite distance runners must compensate for this to maintain their pace over long distances.[42] These forces are attenuated through increased stride length via increased hip flexion and extension through decreased ground contact time and more force being used in propulsion.[42][43][44] With increased propulsion in the horizontal plane, less impact occurs from decreased force in the vertical plane.[45] Increased hip flexion allows for increased use of the hip extensors through midstance and toe-off, allowing for more force production.[27] The difference even between world-class and national-level 1500-m runners has been associated with more efficient hip joint function.[46] The increase in velocity likely comes from the increased range of motion in hip flexion and extension, allowing for greater acceleration and velocity. The hip extensors and hip extension have been linked to more powerful knee extension during toe-off, which contributes to propulsion.[35] Stride length must be properly increased with some degree of knee flexion maintained through the terminal swing phases, as excessive knee extension during this phase along with footstrike has been associated with higher impact forces due to braking and an increased prevalence of heel striking.[47] Elite runners tend to exhibit some degree of knee flexion at footstrike and midstance, which first serves to eccentrically absorb impact forces in the quadriceps muscle group.[46][48][49] Secondly it allows for the knee joint to concentrically contract and provides major aid in propulsion during toe-off as the quadriceps group is capable of produce large amounts of force.[27] Recreational runners have been shown to increase stride length through increased knee extension rather than increased hip flexion as exhibited by elite runners, which serves instead to provide an intense braking motion with each step and decrease the rate and efficiency of knee extension during toe-off, slowing down speed.[41] Knee extension however contributes to additional stride length and propulsion during toe-off and is seen more frequently in elite runners as well.[35]

Good technique

 
 
The runner's posture should be upright and slightly tilted forward.

Upright posture and slight forward lean

Leaning forward places a runner's center of mass on the front part of the foot, which avoids landing on the heel and facilitates the use of the spring mechanism of the foot. It also makes it easier for the runner to avoid landing the foot in front of the center of mass and the resultant braking effect. While upright posture is essential, a runner should maintain a relaxed frame and use their core to keep posture upright and stable. This helps prevent injury as long as the body is neither rigid nor tense. The most common running mistakes are tilting the chin up and scrunching shoulders.[50]

Stride rate and types

Exercise physiologists have found that the stride rates are extremely consistent across professional runners, between 185 and 200 steps per minute. The main difference between long- and short-distance runners is the length of stride rather than the rate of stride.[51][52]

During running, the speed at which the runner moves may be calculated by multiplying the cadence (steps per minute) by the stride length. Running is often measured in terms of pace,[53] expressed in units of minutes per mile or minutes per kilometer (the inverse of speed, in mph or km/h). Some coaches advocate training at a combination of specific paces related to one's fitness in order to stimulate various physiological improvements.[54]

Different types of stride are necessary for different types of running. When sprinting, runners stay on their toes bringing their legs up, using shorter and faster strides. Long-distance runners tend to have more relaxed strides that vary.

Health benefits

Cardiovascular

While there exists the potential for injury while running (just as there is in any sport), there are many benefits. Some of these benefits include potential weight loss, improved cardiovascular and respiratory health (reducing the risk of cardiovascular and respiratory diseases), improved cardiovascular fitness, reduced total blood cholesterol, strengthening of bones (and potentially increased bone density), possible strengthening of the immune system and an improved self-esteem and emotional state.[55] Running, like all forms of regular exercise, can effectively slow[56] or reverse[57] the effects of aging. Even people who have already experienced a heart attack are 20% less likely to develop serious heart problems if more engaged in running or any type of aerobic activity.[58]

Although an optimal amount of vigorous aerobic exercise such as running might bring benefits related to lower cardiovascular disease and life extension, an excessive dose (e.g., marathons) might have an opposite effect associated with cardiotoxicity.[59]

Metabolic

Further information: Neurobiological effects of physical exercise
 
A U.S. Army soldier wearing sportswear runs to maintain his fitness.
 
A woman running in a speedsuit.

Running can assist people in losing weight, staying in shape and improving body composition. Research suggests that the person of average weight will burn approximately 100 calories per mile run.[60] Running increases one's metabolism, even after running; one will continue to burn an increased level of calories for a short time after the run.[61] Different speeds and distances are appropriate for different individual health and fitness levels. For new runners, it takes time to get into shape. The key is consistency and a slow increase in speed and distance.[60] While running, it is best to pay attention to how one's body feels. If a runner is gasping for breath or feels exhausted while running, it may be beneficial to slow down or try a shorter distance for a few weeks. If a runner feels that the pace or distance is no longer challenging, then the runner may want to speed up or run farther.[62]

Mental

Running can also have psychological benefits, as many participants in the sport report feeling an elated, euphoric state, often referred to as a "runner's high".[63] Running is frequently recommended as therapy for people with clinical depression and people coping with addiction.[64] A possible benefit may be the enjoyment of nature and scenery, which also improves psychological well-being[65] (see Ecopsychology § Practical benefits).

In animal models, running has been shown to increase the number of newly created neurons within the brain.[66] This finding could have significant implications in aging as well as learning and memory. A recent study published in Cell Metabolism has also linked running with improved memory and learning skills.[67]

Running is an effective way to reduce stress, anxiety, depression, and tension. It helps people who struggle with seasonal affective disorder by running outside when it is sunny and warm. Running can improve mental alertness and also improves sleep. Both research and clinical experience have shown that exercise can be a treatment for serious depression and anxiety even some physicians prescribe exercise to most of their patients. Running can have a longer lasting effect than anti-depressants.[68]

Injuries

Further information: Running-related injuries

High impact

 
Person with a bad running form. Heel striking and leaning forward are some of the most common mistakes and cause of injuries among beginners.

Many injuries are associated with running because of its high-impact nature. Change in running volume may lead to development of patellofemoral pain syndrome, iliotibial band syndrome, patellar tendinopathy, plica syndrome, and medial tibial stress syndrome. Change in running pace may cause Achilles Tendinitis, gastrocnemius injuries, and plantar fasciitis.[69] Repetitive stress on the same tissues without enough time for recovery or running with improper form can lead to many of the above. Runners generally attempt to minimize these injuries by warming up before exercise,[26] focusing on proper running form, performing strength training exercises, eating a well balanced diet, allowing time for recovery, and "icing" (applying ice to sore muscles or taking an ice bath).

Some runners may experience injuries when running on concrete surfaces. The problem with running on concrete is that the body adjusts to this flat surface running, and some of the muscles will become weaker, along with the added impact of running on a harder surface. Therefore, it can be beneficial to change terrain occasionally – such as trail, beach, or grass running. This is more unstable ground and allows the legs to strengthen different muscles. Runners should be wary of twisting their ankles on such terrain. Running downhill also increases knee stress and should, therefore, be avoided. Reducing the frequency and duration can also prevent injury.

Barefoot running has been promoted as a means of reducing running related injuries,[70] but this remains controversial and a majority of professionals advocate the wearing of appropriate shoes as the best method for avoiding injury.[71] However, a study in 2013 concluded that wearing neutral shoes is not associated with increased injuries.[72]

Chafing

 
Chafing of skin following a marathon run

Another common, running-related injury is chafing, caused by repetitive rubbing of one piece of skin against another, or against an article of clothing. One common location for chafe to occur is the runner's upper thighs. The skin feels coarse and develops a rash-like look. A variety of deodorants and special anti-chafing creams are available to treat such problems. Chafe is also likely to occur on the nipple. There are a variety of home remedies that runners use to deal with chafing while running such as band-aids and using grease to reduce friction. Prevention is key which is why form fitting clothes are important.[73]

Iliotibial band syndrome

An iliotibial band is a muscle and tendon that is attached to the hip and runs the length of the thigh to attach to the upper part of the tibia, and the band is what helps the knee to bend. This is an injury that is located at the knee and shows symptoms of swelling outside the knee. Iliotibial band syndrome is also known as "runner's knee" or "jogger's knee" because it can be caused by jogging or running. Once pain or swelling is noticeable it is important to put ice on it immediately and it is recommended to rest the knee for better healing.[74] Most knee injuries can be treated by light activity and much rest for the knee. In more serious cases, arthroscopy is the most common to help repair ligaments but severe situations reconstructive surgery would be needed.[75] A survey was taken in 2011 with knee injuries being 22.7% of the most common injuries.[76]

Medial tibial stress syndrome

A more known injury is medial tibial stress syndrome (MTSS) which is the accurate name for shin splints. This is caused during running when the muscle is being overused along the front of the lower leg with symptoms that affect 2 to 6 inches of the muscle. Shin Splints have sharp, splinter-like pain, that is typically X-rayed by doctors but is not necessary for shin splints to be diagnosed. To help prevent shin splints it is commonly known to stretch before and after a workout session, and also avoid heavy equipment especially during the first couple of workout sessions.[77] Also to help prevent shin splints don't increase the intensity of a workout more than 10% a week.[78] To treat shin splints it is important to rest with the least amount of impact on your legs and apply ice to the area. A survey showed that shin splints make up 12.7% of the most common injuries in running, with blisters being the top percentage at 30.9%.[76]

Events

Running is both a competition and a type of training for sports that have running or endurance components. As a sport, it is split into events divided by distance and sometimes includes permutations such as the obstacles in steeplechase and hurdles. Running races are contests to determine which of the competitors is able to run a certain distance in the shortest time. Today, competitive running events make up the core of the sport of athletics. Events are usually grouped into several classes, each requiring substantially different athletic strengths and involving different tactics, training methods, and types of competitors.

Running competitions have probably existed for most of humanity's history and were a key part of the ancient Olympic Games as well as the modern Olympics. The activity of running went through a period of widespread popularity in the United States during the running boom of the 1970s. Over the next two decades, as many as 25 million Americans were doing some form of running or jogging – accounting for roughly one tenth of the population.[79] Today, road racing is a popular sport among non-professional athletes, who included over 7.7 million people in America alone in 2002.[80]

Limits of speed

Footspeed, or sprint speed, is the maximum speed at which a human can run. It is affected by many factors, varies greatly throughout the population, and is important in athletics and many sports.

The fastest human footspeed on record is 44.7 km/h (12.4 m/s, 27.8 mph), seen during a 100-meter sprint (average speed between the 60th and the 80th meter) by Usain Bolt.[81]

Speed over increasing distance based on world record times

(see Category:Athletics (track and field) record progressions)

 
Maximum human speed [km/h] and pace [min/km] per distance
Distance metres Men m/s Women m/s
100 10.44 9.53
200 10.42 9.37
400 9.26 8.44
800 7.92 7.06
1,000 7.58 6.71
1,500 7.28 6.51
1,609 (mile) 7.22 6.36
2,000 7.02 6.15
3,000 6.81 6.17
5,000 6.60 5.87
10,000 track 6.34 5.64
10,000 road 6.23 5.49
15,000 road 6.02 5.38
20,000 track 5.91 5.09
20,000 road 6.02 5.30
21,097 Half marathon 6.02 5.29
21,285 One hour run 5.91 5.14
25,000 track 5.63 4.78
25,000 road 5.80 5.22
30,000 track 5.60 4.72
30,000 road 5.69 5.06
42,195 Marathon 5.69 5.19
90,000 Comrades 4.68 4.23
100,000 4.46 4.24
303,506 24-hour run 3.513 2.82

Types

Track
Main article: Track running
 
A man running with a baton during a relay race.

Track running events are individual or relay events with athletes racing over specified distances on an oval running track. The events are categorized as sprints, middle and long-distance, and hurdling.

Road
Main article: Road running

Road running takes place on a measured course over an established road (as opposed to track and cross country running). These events normally range from distances of 5 kilometers to longer distances such as half marathons and marathons, and they may involve scores of runners or wheelchair entrants.

Cross-country
Main articles: Cross country running, Fell running, and Trail running

Cross country running takes place over the open or rough terrain. The courses used for these events may include grass, mud, woodlands, hills, flat ground and water. It is a popular participatory sport and is one of the events which, along with track and field, road running, and racewalking, makes up the umbrella sport of athletics.

Vertical
Main articles: Fell running, Mountain running, Skyrunning, Trail running, and Tower running

The majority of popular races do not incorporate a significant change in elevation as a key component of a course. There are several, disparate variations that feature significant inclines or declines. These fall into two main groups.

The naturalistic group is based on outdoor racing over geographical features. Among these are the cross country-related sports of fell running (a tradition associated with Northern Europe) and trail running (mainly ultramarathon distances), the running/climbing combination of skyrunning (organised by the International Skyrunning Federation with races across North America, Europe and East Asia) and the mainly trail- and road-centred mountain running (governed by the World Mountain Running Association and based mainly in Europe).

The second variety of vertical running is based on human structures, such as stairs and man-made slopes. The foremost type of this is tower running, which sees athletes compete indoors, running up steps within very tall structures such as the Eiffel Tower or Empire State Building.

Distances

Sprints

Main article: Sprint (running)
 
International-level women athletes competing in 100 m sprint race at ISTAF Berlin, 2006

Sprints are short running events in athletics and track and field. Races over short distances are among the oldest running competitions. The first 13 editions of the Ancient Olympic Games featured only one event – the stadion race, which was a race from one end of the stadium to the other.[82] There are three sprinting events which are currently held at the Olympics and outdoor World Championships: the 100 metres, 200 metres, and 400 metres. These events have their roots in races of imperial measurements which were later altered to metric: the 100 m evolved from the 100-yard dash,[83] the 200 m distances came from the furlong (or 1/8 of a mile),[84] and the 400 m was the successor to the 440-yard dash or quarter-mile race.[85]

At the professional level, sprinters begin the race by assuming a crouching position in the starting blocks before leaning forward and gradually moving into an upright position as the contest progresses and momentum is gained.[86] Athletes remain in the same lane on the running track throughout all sprinting events,[85] with the sole exception of the 400 m indoors. Races up to 100 m are largely focused upon acceleration to an athlete's maximum speed.[86] All sprints beyond this distance increasingly incorporate an element of endurance.[87] Human physiology dictates that a runner's near-top speed cannot be maintained for more than thirty seconds or so as lactic acid builds up, and leg muscles begin to be deprived of oxygen.[85]

The 60 metres is a common indoor event and it an indoor world championship event. Other less-common events include the 50 metres, 55 metres, 300 metres and 500 metres which are used in some high and collegiate competitions in the United States. The 150 metres, is rarely competed: Pietro Mennea set a world best in 1983,[88] Olympic champions Michael Johnson and Donovan Bailey went head-to-head over the distance in 1997,[89] and Usain Bolt improved Mennea's record in 2009.[88]

Middle distance

Main article: Middle-distance running

Middle-distance running events are track races longer than sprints up to 3000 metres. The standard middle distances are the 800 metres, 1500 metres and mile run, although the 3000 metres may also be classified as a middle-distance event.[90] The 880-yard run, or half-mile, was the forebear to the 800 m distance and it has its roots in competitions in the United Kingdom in the 1830s.[91] The 1500 m came about as a result of running three laps of a 500 m track, which was commonplace in continental Europe in the 1900s.[92]

Long distance

Main article: Long-distance running

Examples of longer-distance running events are long-distance track races, half marathons, marathons, ultramarathons, and multiday races.

See also

References

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Further reading

  • Nilson, Finn; Lundkvist, Erik; Wagnsson, Stefan; Gustafsson, Henrik (19 December 2019). "Has the second 'running boom' democratized running? A study on the sociodemographic characteristics of finishers at the world's largest half marathon". Sport in Society. 24 (4): 659–669. doi:10.1080/17430437.2019.1703687. ISSN 1743-0437.

External links


December 29, 2022
running, confused, with, gait, other, uses, runner, disambiguation, runners, disambiguation, disambiguation, method, terrestrial, locomotion, allowing, humans, other, animals, move, rapidly, foot, type, gait, characterized, aerial, phase, which, feet, above, g. Not to be confused with Gait For other uses see Runner disambiguation Runners disambiguation and Running disambiguation Running is a method of terrestrial locomotion allowing humans and other animals to move rapidly on foot Running is a type of gait characterized by an aerial phase in which all feet are above the ground though there are exceptions 1 This is in contrast to walking where one foot is always in contact with the ground the legs are kept mostly straight and the center of gravity vaults over the stance leg or legs in an inverted pendulum fashion 2 A feature of a running body from the viewpoint of spring mass mechanics is that changes in kinetic and potential energy within a stride occur simultaneously with energy storage accomplished by springy tendons and passive muscle elasticity 3 The term running can refer to any of a variety of speeds ranging from jogging to sprinting Marathon runners at Carlsbad Marathon USA 2013 source source source source source source source source source source source source Video of human running action Running in humans is associated with improved health and life expectancy 4 It is assumed that the ancestors of humankind developed the ability to run for long distances about 2 6 million years ago probably in order to hunt animals 5 Competitive running grew out of religious festivals in various areas Records of competitive racing date back to the Tailteann Games in Ireland between 632 BCE and 1171 BCE 6 7 8 while the first recorded Olympic Games took place in 776 BCE Running has been described as the world s most accessible sport 9 Contents 1 History 2 Description 2 1 Footstrike 2 2 Midstance 2 3 Propulsion phase 2 4 Swing phase 2 5 Upper extremity function 2 6 Footstrike debate 2 7 Stride length hip and knee function 3 Good technique 3 1 Upright posture and slight forward lean 3 2 Stride rate and types 4 Health benefits 4 1 Cardiovascular 4 2 Metabolic 4 3 Mental 5 Injuries 5 1 High impact 5 2 Chafing 5 3 Iliotibial band syndrome 5 4 Medial tibial stress syndrome 6 Events 6 1 Limits of speed 6 2 Speed over increasing distance based on world record times 6 3 Types 6 4 Distances 6 4 1 Sprints 6 4 2 Middle distance 6 4 3 Long distance 7 See also 8 References 9 Further reading 10 External linksHistorySee also History of physical training and fitness A scene depicting long distance runners originally found on a Panathenaic amphora from Ancient Greece circa 333 BCE Ancient Roman bronze sculptures of runners from the Villa of the Papyri at Herculaneum now in the Naples National Archaeological Museum It is thought that human running evolved at least four and a half million years ago out of the ability of the ape like Australopithecus an early ancestor of humans to walk upright on two legs 10 Early humans most likely developed into endurance runners from the practice of persistence hunting of animals the activity of following and chasing until a prey is too exhausted to flee succumbing to chase myopathy Sears 2001 and that human features such as the nuchal ligament abundant sweat glands the Achilles tendons big knee joints and muscular glutei maximi were changes caused by this type of activity Bramble amp Lieberman 2004 et al 11 12 13 The theory as first proposed used comparative physiological evidence and the natural habits of animals when running indicating the likelihood of this activity as a successful hunting method Further evidence from observation of modern day hunting practice also indicated this likelihood Carrier et al 1984 13 14 According to Sears p 12 scientific investigation Walker amp Leakey 1993 of the Nariokotome Skeleton provided further evidence for the Carrier theory 15 Competitive running grew out of religious festivals in various areas such as Greece Egypt Asia and the East African Rift in Africa The Tailteann Games an Irish sporting festival in honor of the goddess Tailtiu dates back to 1829 BCE and is one of the earliest records of competitive running 16 The origins of the Olympics and Marathon running are shrouded by myth and legend though the first recorded games took place in 776 BCE 17 Running in Ancient Greece can be traced back to these games of 776 BCE I suspect that the sun moon earth stars and heaven which are still the gods of many barbarians were the only gods known to the aboriginal Hellenes Seeing that they were always moving and running from their running nature they were called gods or runners Thus Theontas Socrates in Plato Cratylus 18 Description Eadweard Muybridge photo sequence Running gait can be divided into two phases in regard to the lower extremity stance and swing 19 20 21 22 These can be further divided into absorption propulsion initial swing and terminal swing Due to the continuous nature of running gait no certain point is assumed to be the beginning However for simplicity it will be assumed that absorption and footstrike mark the beginning of the running cycle in a body already in motion Footstrike Footstrike occurs when a plantar portion of the foot makes initial contact with the ground Common footstrike types include forefoot midfoot and heel strike types 23 24 25 These are characterized by initial contact of the ball of the foot ball and heel of the foot simultaneously and heel of the foot respectively During this time the hip joint is undergoing extension from being in maximal flexion from the previous swing phase For proper force absorption the knee joint should be flexed upon footstrike and the ankle should be slightly in front of the body 26 Footstrike begins the absorption phase as forces from initial contact are attenuated throughout the lower extremity Absorption of forces continues as the body moves from footstrike to midstance due to vertical propulsion from the toe off during a previous gait cycle Midstance Midstance is defined as the time at which the lower extremity limb of focus is in knee flexion directly underneath the trunk pelvis and hips It is at this point that propulsion begins to occur as the hips undergo hip extension the knee joint undergoes extension and the ankle undergoes plantar flexion Propulsion continues until the leg is extended behind the body and toe off occurs This involves maximal hip extension knee extension and plantar flexion for the subject resulting in the body being pushed forward from this motion and the ankle foot leaves the ground as initial swing begins Propulsion phase Most recent research particularly regarding the footstrike debate has focused solely on the absorption phases for injury identification and prevention purposes The propulsion phase of running involves the movement beginning at midstance until toe off 20 21 27 From a full stride length model however components of the terminal swing and footstrike can aid in propulsion 22 28 Set up for propulsion begins at the end of terminal swing as the hip joint flexes creating the maximal range of motion for the hip extensors to accelerate through and produce force As the hip extensors change from reciporatory inhibitors to primary muscle movers the lower extremity is brought back toward the ground although aided greatly by the stretch reflex and gravity 22 Footstrike and absorption phases occur next with two types of outcomes This phase can be only a continuation of momentum from the stretch reflex reaction to hip flexion gravity and light hip extension with a heel strike which does little to provide force absorption through the ankle joint 27 29 30 With a mid forefoot strike loading of the gastro soleus complex from shock absorption will serve to aid in plantar flexion from midstance to toe off 30 31 As the lower extremity enters midstance true propulsion begins 27 The hip extensors continue contracting along with help from the acceleration of gravity and the stretch reflex left over from maximal hip flexion during the terminal swing phase Hip extension pulls the ground underneath the body thereby pulling the runner forward During midstance the knee should be in some degree of knee flexion due to elastic loading from the absorption and footstrike phases to preserve forward momentum 32 33 34 The ankle joint is in dorsiflexion at this point underneath the body either elastically loaded from a mid forefoot strike or preparing for stand alone concentric plantar flexion All three joints perform the final propulsive movements during toe off 27 29 30 31 The plantar flexors plantar flex pushing off from the ground and returning from dorsiflexion in midstance This can either occur by releasing the elastic load from an earlier mid forefoot strike or concentrically contracting from a heel strike With a forefoot strike both the ankle and knee joints will release their stored elastic energy from the footstrike absorption phase 32 33 34 The quadriceps group knee extensors go into full knee extension pushing the body off of the ground At the same time the knee flexors and stretch reflex pull the knee back into flexion adding to a pulling motion on the ground and beginning the initial swing phase The hip extensors extend to maximum adding the forces pulling and pushing off of the ground The movement and momentum generated by the hip extensors also contributes to knee flexion and the beginning of the initial swing phase Swing phase Initial swing is the response of both stretch reflexes and concentric movements to the propulsion movements of the body Hip flexion and knee flexion occur beginning the return of the limb to the starting position and setting up for another footstrike Initial swing ends at midswing when the limb is again directly underneath the trunk pelvis and hip with the knee joint flexed and hip flexion continuing Terminal swing then begins as hip flexion continues to the point of activation of the stretch reflex of the hip extensors The knee begins to extend slightly as it swings to the anterior portion of the body The foot then makes contact with the ground with footstrike completing the running cycle of one side of the lower extremity Each limb of the lower extremity works opposite to the other When one side is in toe off propulsion the other hand is in the swing recovery phase preparing for footstrike 19 20 21 22 Following toe off and the beginning of the initial swing of one side there is a flight phase where neither extremity is in contact with the ground due to the opposite side finishing terminal swing As the footstrike of the one hand occurs initial swing continues The opposing limbs meet with one in midstance and midswing beginning the propulsion and terminal swing phases Upper extremity function Upper extremity function serves mainly in providing balance in conjunction with the opposing side of the lower extremity 20 The movement of each leg is paired with the opposite arm which serves to counterbalance the body particularly during the stance phase 27 The arms move most effectively as seen in elite athletes with the elbow joint at an approximately 90 degrees or less the hands swinging from the hips up to mid chest level with the opposite leg the Humerus moving from being parallel with the trunk to approximately 45 degrees shoulder extension never passing the trunk in flexion and with as little movement in the transverse plane as possible 35 The trunk also rotates in conjunction with arm swing It mainly serves as a balance point from which the limbs are anchored Thus trunk motion should remain mostly stable with little motion except for slight rotation as excessive movement would contribute to transverse motion and wasted energy Footstrike debate Recent research into various forms of running has focused on the differences in the potential injury risks and shock absorption capabilities between heel and mid forefoot footstrikes It has been shown that heel striking is generally associated with higher rates of injury and impact due to inefficient shock absorption and inefficient biomechanical compensations for these forces 23 This is due to forces from a heel strike traveling through bones for shock absorption rather than being absorbed by muscles Since bones cannot disperse forces easily the forces are transmitted to other parts of the body including ligaments joints and bones in the rest of the lower extremity all the way up to the lower back 36 This causes the body to use abnormal compensatory motions in an attempt to avoid serious bone injuries 37 These compensations include internal rotation of the tibia knee and hip joints Excessive amounts of compensation over time have been linked to higher risk of injuries in those joints as well as the muscles involved in those motions 29 Conversely a mid forefoot strike has been associated with greater efficiency and lower injury risk due to the triceps surae being used as a lever system to absorb forces with the muscles eccentrically rather than through the bone 23 Landing with a mid forefoot strike has also been shown to not only properly attenuate shock but allows the triceps surae to aid in propulsion via reflexive plantarflexion after stretching to absorb ground contact forces 28 38 Thus a mid forefoot strike may aid in propulsion However even among elite athletes there are variations in self selected footstrike types 39 This is especially true in longer distance events where there is a prevalence of heel strikers 40 There does tend however to be a greater percentage of mid forefoot striking runners in the elite fields particularly in the faster racers and the winning individuals or groups 35 While one could attribute the faster speeds of elite runners compared to recreational runners with similar footstrikes to physiological differences the hip and joints have been left out of the equation for proper propulsion This brings up the question as to how heel striking elite distance runners are able to keep up such high paces with a supposedly inefficient and injurious foot strike technique Stride length hip and knee function Biomechanical factors associated with elite runners include increased hip function use and stride length over recreational runners 35 41 An increase in running speeds causes increased ground reaction forces and elite distance runners must compensate for this to maintain their pace over long distances 42 These forces are attenuated through increased stride length via increased hip flexion and extension through decreased ground contact time and more force being used in propulsion 42 43 44 With increased propulsion in the horizontal plane less impact occurs from decreased force in the vertical plane 45 Increased hip flexion allows for increased use of the hip extensors through midstance and toe off allowing for more force production 27 The difference even between world class and national level 1500 m runners has been associated with more efficient hip joint function 46 The increase in velocity likely comes from the increased range of motion in hip flexion and extension allowing for greater acceleration and velocity The hip extensors and hip extension have been linked to more powerful knee extension during toe off which contributes to propulsion 35 Stride length must be properly increased with some degree of knee flexion maintained through the terminal swing phases as excessive knee extension during this phase along with footstrike has been associated with higher impact forces due to braking and an increased prevalence of heel striking 47 Elite runners tend to exhibit some degree of knee flexion at footstrike and midstance which first serves to eccentrically absorb impact forces in the quadriceps muscle group 46 48 49 Secondly it allows for the knee joint to concentrically contract and provides major aid in propulsion during toe off as the quadriceps group is capable of produce large amounts of force 27 Recreational runners have been shown to increase stride length through increased knee extension rather than increased hip flexion as exhibited by elite runners which serves instead to provide an intense braking motion with each step and decrease the rate and efficiency of knee extension during toe off slowing down speed 41 Knee extension however contributes to additional stride length and propulsion during toe off and is seen more frequently in elite runners as well 35 Good technique The runner s posture should be upright and slightly tilted forward This article contains instructions advice or how to content The purpose of Wikipedia is to present facts not to train Please help improve this article either by rewriting the how to content or by moving it to Wikiversity Wikibooks or Wikivoyage October 2022 Upright posture and slight forward lean Leaning forward places a runner s center of mass on the front part of the foot which avoids landing on the heel and facilitates the use of the spring mechanism of the foot It also makes it easier for the runner to avoid landing the foot in front of the center of mass and the resultant braking effect While upright posture is essential a runner should maintain a relaxed frame and use their core to keep posture upright and stable This helps prevent injury as long as the body is neither rigid nor tense The most common running mistakes are tilting the chin up and scrunching shoulders 50 Stride rate and types Exercise physiologists have found that the stride rates are extremely consistent across professional runners between 185 and 200 steps per minute The main difference between long and short distance runners is the length of stride rather than the rate of stride 51 52 During running the speed at which the runner moves may be calculated by multiplying the cadence steps per minute by the stride length Running is often measured in terms of pace 53 expressed in units of minutes per mile or minutes per kilometer the inverse of speed in mph or km h Some coaches advocate training at a combination of specific paces related to one s fitness in order to stimulate various physiological improvements 54 Different types of stride are necessary for different types of running When sprinting runners stay on their toes bringing their legs up using shorter and faster strides Long distance runners tend to have more relaxed strides that vary Health benefitsCardiovascular While there exists the potential for injury while running just as there is in any sport there are many benefits Some of these benefits include potential weight loss improved cardiovascular and respiratory health reducing the risk of cardiovascular and respiratory diseases improved cardiovascular fitness reduced total blood cholesterol strengthening of bones and potentially increased bone density possible strengthening of the immune system and an improved self esteem and emotional state 55 Running like all forms of regular exercise can effectively slow 56 or reverse 57 the effects of aging Even people who have already experienced a heart attack are 20 less likely to develop serious heart problems if more engaged in running or any type of aerobic activity 58 Although an optimal amount of vigorous aerobic exercise such as running might bring benefits related to lower cardiovascular disease and life extension an excessive dose e g marathons might have an opposite effect associated with cardiotoxicity 59 Metabolic Further information Neurobiological effects of physical exercise A U S Army soldier wearing sportswear runs to maintain his fitness A woman running in a speedsuit Running can assist people in losing weight staying in shape and improving body composition Research suggests that the person of average weight will burn approximately 100 calories per mile run 60 Running increases one s metabolism even after running one will continue to burn an increased level of calories for a short time after the run 61 Different speeds and distances are appropriate for different individual health and fitness levels For new runners it takes time to get into shape The key is consistency and a slow increase in speed and distance 60 While running it is best to pay attention to how one s body feels If a runner is gasping for breath or feels exhausted while running it may be beneficial to slow down or try a shorter distance for a few weeks If a runner feels that the pace or distance is no longer challenging then the runner may want to speed up or run farther 62 Mental Running can also have psychological benefits as many participants in the sport report feeling an elated euphoric state often referred to as a runner s high 63 Running is frequently recommended as therapy for people with clinical depression and people coping with addiction 64 A possible benefit may be the enjoyment of nature and scenery which also improves psychological well being 65 see Ecopsychology Practical benefits In animal models running has been shown to increase the number of newly created neurons within the brain 66 This finding could have significant implications in aging as well as learning and memory A recent study published in Cell Metabolism has also linked running with improved memory and learning skills 67 Running is an effective way to reduce stress anxiety depression and tension It helps people who struggle with seasonal affective disorder by running outside when it is sunny and warm Running can improve mental alertness and also improves sleep Both research and clinical experience have shown that exercise can be a treatment for serious depression and anxiety even some physicians prescribe exercise to most of their patients Running can have a longer lasting effect than anti depressants 68 InjuriesFurther information Running related injuries High impact Person with a bad running form Heel striking and leaning forward are some of the most common mistakes and cause of injuries among beginners Many injuries are associated with running because of its high impact nature Change in running volume may lead to development of patellofemoral pain syndrome iliotibial band syndrome patellar tendinopathy plica syndrome and medial tibial stress syndrome Change in running pace may cause Achilles Tendinitis gastrocnemius injuries and plantar fasciitis 69 Repetitive stress on the same tissues without enough time for recovery or running with improper form can lead to many of the above Runners generally attempt to minimize these injuries by warming up before exercise 26 focusing on proper running form performing strength training exercises eating a well balanced diet allowing time for recovery and icing applying ice to sore muscles or taking an ice bath Some runners may experience injuries when running on concrete surfaces The problem with running on concrete is that the body adjusts to this flat surface running and some of the muscles will become weaker along with the added impact of running on a harder surface Therefore it can be beneficial to change terrain occasionally such as trail beach or grass running This is more unstable ground and allows the legs to strengthen different muscles Runners should be wary of twisting their ankles on such terrain Running downhill also increases knee stress and should therefore be avoided Reducing the frequency and duration can also prevent injury Barefoot running has been promoted as a means of reducing running related injuries 70 but this remains controversial and a majority of professionals advocate the wearing of appropriate shoes as the best method for avoiding injury 71 However a study in 2013 concluded that wearing neutral shoes is not associated with increased injuries 72 Chafing Chafing of skin following a marathon run Another common running related injury is chafing caused by repetitive rubbing of one piece of skin against another or against an article of clothing One common location for chafe to occur is the runner s upper thighs The skin feels coarse and develops a rash like look A variety of deodorants and special anti chafing creams are available to treat such problems Chafe is also likely to occur on the nipple There are a variety of home remedies that runners use to deal with chafing while running such as band aids and using grease to reduce friction Prevention is key which is why form fitting clothes are important 73 Iliotibial band syndrome An iliotibial band is a muscle and tendon that is attached to the hip and runs the length of the thigh to attach to the upper part of the tibia and the band is what helps the knee to bend This is an injury that is located at the knee and shows symptoms of swelling outside the knee Iliotibial band syndrome is also known as runner s knee or jogger s knee because it can be caused by jogging or running Once pain or swelling is noticeable it is important to put ice on it immediately and it is recommended to rest the knee for better healing 74 Most knee injuries can be treated by light activity and much rest for the knee In more serious cases arthroscopy is the most common to help repair ligaments but severe situations reconstructive surgery would be needed 75 A survey was taken in 2011 with knee injuries being 22 7 of the most common injuries 76 Medial tibial stress syndrome A more known injury is medial tibial stress syndrome MTSS which is the accurate name for shin splints This is caused during running when the muscle is being overused along the front of the lower leg with symptoms that affect 2 to 6 inches of the muscle Shin Splints have sharp splinter like pain that is typically X rayed by doctors but is not necessary for shin splints to be diagnosed To help prevent shin splints it is commonly known to stretch before and after a workout session and also avoid heavy equipment especially during the first couple of workout sessions 77 Also to help prevent shin splints don t increase the intensity of a workout more than 10 a week 78 To treat shin splints it is important to rest with the least amount of impact on your legs and apply ice to the area A survey showed that shin splints make up 12 7 of the most common injuries in running with blisters being the top percentage at 30 9 76 EventsRunning is both a competition and a type of training for sports that have running or endurance components As a sport it is split into events divided by distance and sometimes includes permutations such as the obstacles in steeplechase and hurdles Running races are contests to determine which of the competitors is able to run a certain distance in the shortest time Today competitive running events make up the core of the sport of athletics Events are usually grouped into several classes each requiring substantially different athletic strengths and involving different tactics training methods and types of competitors Running competitions have probably existed for most of humanity s history and were a key part of the ancient Olympic Games as well as the modern Olympics The activity of running went through a period of widespread popularity in the United States during the running boom of the 1970s Over the next two decades as many as 25 million Americans were doing some form of running or jogging accounting for roughly one tenth of the population 79 Today road racing is a popular sport among non professional athletes who included over 7 7 million people in America alone in 2002 80 Limits of speed Footspeed or sprint speed is the maximum speed at which a human can run It is affected by many factors varies greatly throughout the population and is important in athletics and many sports The fastest human footspeed on record is 44 7 km h 12 4 m s 27 8 mph seen during a 100 meter sprint average speed between the 60th and the 80th meter by Usain Bolt 81 Speed over increasing distance based on world record times see Category Athletics track and field record progressions Maximum human speed km h and pace min km per distance Distance metres Men m s Women m s100 10 44 9 53200 10 42 9 37400 9 26 8 44800 7 92 7 061 000 7 58 6 711 500 7 28 6 511 609 mile 7 22 6 362 000 7 02 6 153 000 6 81 6 175 000 6 60 5 8710 000 track 6 34 5 6410 000 road 6 23 5 4915 000 road 6 02 5 3820 000 track 5 91 5 0920 000 road 6 02 5 3021 097 Half marathon 6 02 5 2921 285 One hour run 5 91 5 1425 000 track 5 63 4 7825 000 road 5 80 5 2230 000 track 5 60 4 7230 000 road 5 69 5 0642 195 Marathon 5 69 5 1990 000 Comrades 4 68 4 23100 000 4 46 4 24303 506 24 hour run 3 513 2 82Types TrackMain article Track running A man running with a baton during a relay race Track running events are individual or relay events with athletes racing over specified distances on an oval running track The events are categorized as sprints middle and long distance and hurdling RoadMain article Road running Road running takes place on a measured course over an established road as opposed to track and cross country running These events normally range from distances of 5 kilometers to longer distances such as half marathons and marathons and they may involve scores of runners or wheelchair entrants Cross countryMain articles Cross country running Fell running and Trail running Cross country running takes place over the open or rough terrain The courses used for these events may include grass mud woodlands hills flat ground and water It is a popular participatory sport and is one of the events which along with track and field road running and racewalking makes up the umbrella sport of athletics VerticalMain articles Fell running Mountain running Skyrunning Trail running and Tower running The majority of popular races do not incorporate a significant change in elevation as a key component of a course There are several disparate variations that feature significant inclines or declines These fall into two main groups The naturalistic group is based on outdoor racing over geographical features Among these are the cross country related sports of fell running a tradition associated with Northern Europe and trail running mainly ultramarathon distances the running climbing combination of skyrunning organised by the International Skyrunning Federation with races across North America Europe and East Asia and the mainly trail and road centred mountain running governed by the World Mountain Running Association and based mainly in Europe The second variety of vertical running is based on human structures such as stairs and man made slopes The foremost type of this is tower running which sees athletes compete indoors running up steps within very tall structures such as the Eiffel Tower or Empire State Building Distances Sprints Main article Sprint running International level women athletes competing in 100 m sprint race at ISTAF Berlin 2006 Sprints are short running events in athletics and track and field Races over short distances are among the oldest running competitions The first 13 editions of the Ancient Olympic Games featured only one event the stadion race which was a race from one end of the stadium to the other 82 There are three sprinting events which are currently held at the Olympics and outdoor World Championships the 100 metres 200 metres and 400 metres These events have their roots in races of imperial measurements which were later altered to metric the 100 m evolved from the 100 yard dash 83 the 200 m distances came from the furlong or 1 8 of a mile 84 and the 400 m was the successor to the 440 yard dash or quarter mile race 85 At the professional level sprinters begin the race by assuming a crouching position in the starting blocks before leaning forward and gradually moving into an upright position as the contest progresses and momentum is gained 86 Athletes remain in the same lane on the running track throughout all sprinting events 85 with the sole exception of the 400 m indoors Races up to 100 m are largely focused upon acceleration to an athlete s maximum speed 86 All sprints beyond this distance increasingly incorporate an element of endurance 87 Human physiology dictates that a runner s near top speed cannot be maintained for more than thirty seconds or so as lactic acid builds up and leg muscles begin to be deprived of oxygen 85 The 60 metres is a common indoor event and it an indoor world championship event Other less common events include the 50 metres 55 metres 300 metres and 500 metres which are used in some high and collegiate competitions in the United States The 150 metres is rarely competed Pietro Mennea set a world best in 1983 88 Olympic champions Michael Johnson and Donovan Bailey went head to head over the distance in 1997 89 and Usain Bolt improved Mennea s record in 2009 88 Middle distance Main article Middle distance running Middle distance running events are track races longer than sprints up to 3000 metres The standard middle distances are the 800 metres 1500 metres and mile run although the 3000 metres may also be classified as a middle distance event 90 The 880 yard run or half mile was the forebear to the 800 m distance and it has its roots in competitions in the United Kingdom in the 1830s 91 The 1500 m came about as a result of running three laps of a 500 m track which was commonplace in continental Europe in the 1900s 92 Long distance Main article Long distance running Examples of longer distance running events are long distance track races half marathons marathons ultramarathons and multiday races See alsoGlobal Running Day Level and incline running List of people killed while running Outline of running Plogging Running energetics Trail running Ultra Running SkyrunningReferences Rubenson Jonas Heliams Denham B Lloyd David G Fournier Paul A 22 May 2004 Gait selection in the ostrich mechanical and metabolic characteristics of walking and running with and without an aerial phase Proceedings of the Royal Society of London B Biological Sciences 271 1543 1091 1099 doi 10 1098 rspb 2004 2702 PMC 1691699 PMID 15293864 Biewener A A 2003 Animal Locomotion Oxford University Press US ISBN 978 0 19 850022 3 books google com Cavagna G A Saibene F P Margaria R 1964 Mechanical Work in Running Journal of Applied Physiology 19 2 249 256 doi 10 1152 jappl 1964 19 2 249 PMID 14155290 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com Retrieved 26 June 2010 Ingfei Chen May 2006 Born To Run Discover Retrieved 26 June 2010 Louis Liebenberg December 2006 Persistence Hunting by Modern Hunter Gatherers Current Anthropology Current Anthropology amp The University of Chicago Press 47 6 1017 1026 doi 10 1086 508695 JSTOR 10 1086 508695 S2CID 224793846 a b Edward Seldon Sears 22 December 2008 Running Through the Ages McFarland 2001 ISBN 9780786450770 Retrieved 9 April 2012 David R Carrier A K Kapoor Tasuku Kimura Martin K Nickels Satwanti Eugenie C Scott Joseph K So and Erik Trinkaus 1984 The Energetic Paradox of Human Running and Hominid Evolution and Comments and Reply Current Anthropology The University of Chicago Press 25 4 483 495 doi 10 1086 203165 JSTOR 2742907 S2CID 15432016 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Alan Walker Richard Leakey 16 July 1996 The Nariokotome Homo Erectus Skeleton Springer 1993 p 414 ISBN 9783540563013 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attenuation and stride length during running at different velocities European Journal of Applied Physiology 87 4 5 403 408 doi 10 1007 s00421 002 0646 9 PMID 12172880 S2CID 26016865 a b Leskinen A 2009 Comparison of running kinematics between elite and national standard 1500 m runners Sports Biomechanics 8 1 1 9 doi 10 1080 14763140802632382 PMID 19391490 S2CID 25422801 Lafortune M A 2006 Dominant role of interface over knee angle for cushioning impact loading and regulating initial leg stiffness Journal of Biomechanics 29 12 1523 1529 doi 10 1016 s0021 9290 96 80003 0 PMID 8945650 Skoff B 2004 Kinematic analysis of Jolanda Ceplak s running technique New Studies in Athletics 19 1 23 31 Skoff B 2004 Kinematic analysis of Jolanda Ceplak s running technique New Studies in Athletics 19 1 23 31 Michael Yessis 2000 Explosive Running 1st ed McGraw Hill Companies Inc ISBN 978 0 8092 9899 0 Hoffman K 1971 Stature leg length and stride frequency Track Technique 46 1463 1469 Rompottie K 1972 A study of stride length in running International Track and Field 249 256 Revel Sports Pace Chart revelsports com 25 November 2021 Pete Pfitzinger Training Information for Runners Optimal Marathon Training Pfitzinger com Retrieved 21 August 2012 Gretchen Reynolds 4 November 2009 Phys Ed Why Doesn t Exercise Lead to Weight Loss The New York Times Rob Stein 29 January 2008 Exercise Could Slow Aging of Body Study Suggests The Washington Post Health Exercise can reverse ageing bbc co uk The science of exercise shows benefits beyond weight loss 2019 In Harvard Health Publications Ed Harvard Medical School commentaries on health Boston MA Harvard Health Publications Retrieved from https search credoreference com content entry hhphoh the science of exercise shows benefits beyond weight loss 0 Lavie Carl J Lee Duck Chul Sui Xuemei Arena Ross O Keefe James H Church Timothy S Milani Richard V Blair Steven N 2015 Effects of Running on Chronic Diseases and Cardiovascular and All Cause Mortality Mayo Clinic Proceedings 90 11 1541 1552 doi 10 1016 j mayocp 2015 08 001 PMID 26362561 a b How Many Calories Does Running Burn Competitor com 2 March 2015 Archived from the original on 22 July 2016 Retrieved 2 August 2016 4 Ways Running is Best for Weight Loss 18 July 2016 Retrieved 2 August 2016 How Fast Should Beginners Run February 2013 Retrieved 2 August 2016 Boecker H Sprenger T Spilker M E Henriksen G Koppenhoefer M Wagner K J Valet M Berthele A Tolle T R 2008 The Runner s High Opioidergic Mechanisms in the Human Brain PDF Cerebral Cortex 18 11 2523 2531 doi 10 1093 cercor bhn013 PMID 18296435 permanent dead link Health benefits of running Free Diets Archived from the original on 27 July 2009 Retrieved 16 October 2008 Barton J Pretty J 2010 What is the Best Dose of Nature and Green Exercise for Improving Mental Health A Multi Study Analysis Environmental Science amp Technology 44 10 3947 3955 Bibcode 2010EnST 44 3947B doi 10 1021 es903183r PMID 20337470 S2CID 1443095 van Praag H Kempermann G Gage FH March 1999 Running increases cell proliferation and neurogenesis in the adult mouse dentate gyrus Nat Neurosci 2 3 266 270 doi 10 1038 6368 PMID 10195220 S2CID 7170664 Memory improved by protein released in response to running Medical News Today 24 June 2016 Alic M 2012 Mental health and exercise In J L Longe The Gale encyclopedia of fitness Farmington MI Gale Retrieved from https search credoreference com content entry galefit mental health and exercise 0 Nielsen R O 2013 Classifying running related injuries based upon etiology with emphasis on volume and pace International Journal of Sports Physical Therapy 8 2 172 179 PMC 3625796 PMID 23593555 Parker Pope T 6 June 2006 Health Journal Is barefoot better The Wall Street Journal Retrieved 6 November 2011 Cortese A 29 August 2009 Wiggling Their Toes at the Shoe Giants The New York Times Rasmus Oestergaard Nielsen Ida Buist Erik Thorlund Parner Ellen Aagaard Nohr Henrik Sorensen Martin Lind Sten Rasmussen 2013 Foot pronation is not associated with increased injury risk in novice runners wearing a neutral shoe a 1 year prospective cohort study British Journal of Sports Medicine 48 6 440 447 doi 10 1136 bjsports 2013 092202 PMID 23766439 S2CID 9880090 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint uses authors parameter link How to Prevent amp Treat Chafing 27 May 2015 Retrieved 2 August 2016 Rothfeld G S amp Romaine D S 2017 jogger s knee In G S Rothfeld amp D Baker Facts on File library of health and living The encyclopedia of men s health 2nd ed New NY Facts on File Retrieved from https search credoreference com content entry fofmens jogger s knee 0 Dupler D amp Ferguson D 2016 Knee injuries In Gale Ed Gale encyclopedia of children s health Infancy through adolescence 3rd ed Farmington MI Gale Retrieved from https search credoreference com content entry galegchita knee injuries 0 a b Newton D E 2012 Running In J L Longe The Gale encyclopedia of fitness Farmington MI Gale Retrieved from https search credoreference com content entry galefit running 0 shinsplints 2017 In G S Rothfeld amp D Baker Facts on File library of health and living The encyclopedia of men s health 2nd ed New NY Facts on File Retrieved from https search credoreference com content entry fofmens shinsplints 0 Shin splints 2017 In Harvard Medical School Ed Health reference series Harvard Medical School health topics A Z Boston MA Harvard Health Publications Retrieved from https search credoreference com content entry hhphealth shin splints 0 Health Benefits of Jogging and Running MotleyHealth USA Track amp Field 2003 Long Distance Running State of the Sport Archived 11 March 2008 at the Wayback Machine IAAF International Association of Athletics Federations Biomechanical Research Project Berlin 2009 Archived 14 May 2014 at the Wayback Machine Instone Stephen 15 November 2009 The Olympics Ancient versus Modern BBC Retrieved 23 March 2010 100 m Introduction IAAF Retrieved 26 March 2010 200 m Introduction IAAF Retrieved 26 March 2010 a b c 400 m Introduction IAAF Retrieved 26 March 2010 a b 100 m For the Expert IAAF Retrieved 26 March 2010 200 m For the Expert IAAF Retrieved 26 March 2010 a b Superb Bolt storms to 150m record BBC Sport 17 May 2009 Retrieved 26 March 2010 Tucker Ross 26 June 2008 Who is the fastest man in the world Archived 23 May 2012 at the Wayback Machine The Science of Sport Retrieved 26 March 2010 Middle distance running Encyclopaedia Britannica Retrieved 5 April 2010 800 m Introduction IAAF Retrieved 5 April 2010 1500 m Introduction IAAF Retrieved 5 April 2010 Further readingNilson Finn Lundkvist Erik Wagnsson Stefan Gustafsson Henrik 19 December 2019 Has the second running boom democratized running A study on the sociodemographic characteristics of finishers at the world s largest half marathon Sport in Society 24 4 659 669 doi 10 1080 17430437 2019 1703687 ISSN 1743 0437 External linksRunning at Wikipedia s sister projects Definitions from Wiktionary Media from Commons Quotations from Wikiquote Resources from Wikiversity Chisholm Hugh ed 1911 Running Encyclopaedia Britannica 11th ed Cambridge University Press Retrieved from https en wikipedia org w index php title Running amp oldid 1123628701, wikipedia, wiki, book, books, library,

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