By: Natalie Wolchover
Published: 07/26/2012 09:27 AM EDT on Lifes Little Mysteries
Oscar Pistorius can run a quarter mile in 45.07 seconds — fast enough to compete in the 2012 Olympic Games. He does it without feet.
Born missing the fibula bones that attach ankles to knees, the South African had to have his legs amputated halfway down his calves as a baby. Now, 25 years later, Pistorius runs on specialized prosthetics: crescent blades made of carbon fiber that attach to his knees called "Cheetah Flex-Feet." Nicknamed "the Blade Runner," he holds double-amputee world records for the 100-, 200- and 400-meter dashes. In 2007, he began competing against — and beating — world-class, able-bodied athletes.
In a few days, he will settle into the starting blocks as the first double-amputee athlete to ever compete in the Olympics, running the 400-meter dash and a leg of the 4x400-meter relay.
But amid his incredible success, some of Pistorius' opponents have objected. Late in 2007, the International Association of Athletics Federations (IAAF) ruled that his artificial limbs were actually giving him an unfair advantage — that their springiness allowed him to push off the ground more efficiently than does a normal human ankle, letting him coast along at higher speeds using less exertion than other sprinters. He was banned from able-bodied competition.
However, thanks to subsequent research and testimony led by biophysicist Hugh Herr, head of the Biomechatronics Research Group at the Massachusetts Institute of Technology, the IAAF overturned the previous ruling. Last summer, Pistorius set a personal best time in the 400-m (45.07 seconds; the world record is 43.18 seconds, held by American sprinter Michael Johnson), qualifying for the 2011 World Championships. He ran a 45.20 this year, earning a spot at this summer's Olympic Games.
So why did the IAAF change its mind? And at the highest level of competition, in races designed to test the extreme limits of human abilities, are the Blade Runner's blades really fair?
An equal footing
Herr, an inventor of advanced prosthetic limbs, says his tests show Cheetah Flex-Feet put Oscar on an equal footing with his competitors. "We did energetic tests to see how much oxygen Oscar was consuming. We looked at his rate of fatigue; we looked at biomechanics — how much force he applies, his step length and his stride frequency," Herr, who is also a double below-the-knee amputee, told Life's Little Mysteries before the World Championships last year. In all categories, Pistorius' performance followed the same trends as other top athletes. [How Do Athletes Get 'In the Zone' of Peak Performance?]
"People argued that Oscar had an unnatural rate of fatigue" — that his artificial legs gave him extra stamina, Herr said. Tests show this isn't the case. "To measure the rate of fatigue, you take a treadmill and turn it on at a particular speed. He jumps on and starts running, and you time how long he can maintain that speed. You do this at several speeds, then plot normalized speed versus duration, and you get a curve. Many sprinting athletes follow a similar curve. We found that Oscar follows the same trend." That means he got just as tired using his blades as everyone else did using their calves and ankles.
In their experiments, Herr and his colleagues found that Pistorius moves his body slightly differently than other athletes, but consumes energy and oxygen at the same rate. He swings his lightweight carbon blades back and forth a tad faster than most of his competitors swing their heavier legs, but he must also push off the ground harder to get the same thrust; overall, these factors appear to balance out.
Lastly, Herr argues that if Pistorius' prosthetics work better than biological limbs, they'd be giving a boost to other amputees, too. But Paralympic athletes have used the same technology for the past 15 years, and no one has achieved Pistorius's running times. "It's clearly because of Oscar, not the legs," Herr said.[Caster Semenya: How Sports & Science Classify Sex]
Freedom in society, fairness in sport
Regardless of what studies show — of how closely Pistorius' blades emulate the function and energy return of biological legs — some people will likely still object to him competing at the highest levels of able-bodied competition. After all, in Herr's own words, the Olympics are "an exploration of the human leg, and of the biological limits of physicality." What's his counterargument?
"The laws are written to allow people with unusual minds and bodies to have full access in society, and that includes sporting events. So we're imagining a world in which you happen to be born without fibulas, and you also happen to be the world's best athlete. You should have the freedom to become that. There also has to be fairness in sport. The answer is more technology, not less. Advances in science and technology will provide Oscar and future elite athletes with unusual bodies access to the Olympics, while maintaining fairness in sport," Herr said.
He believes artificial limbs will someday be invented that surpass the speed and efficiency of biological ones. Someday Paralympic athletes will run faster and jump higher than Olympic ones. Should future Paralympic athletes qualify for the Olympics, they'll be required to use less advanced technology that keeps them on a level playing field with able-bodied competitors.
Herr's tests show that Pistorius' carbon fiber blades may be an example of such technology. They allow Pistorius to run just as fast as he would have, had he been born with fibulas. But no faster.
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Dusty Space Cloud
This image shows the Large Magellanic Cloud galaxy in infrared light as seen by the Herschel Space Observatory, a European Space Agency-led mission with important NASA contributions, and NASA's Spitzer Space Telescope. In the instruments' combined data, this nearby dwarf galaxy looks like a fiery, circular explosion. Rather than fire, however, those ribbons are actually giant ripples of dust spanning tens or hundreds of light-years. Significant fields of star formation are noticeable in the center, just left of center and at right. The brightest center-left region is called 30 Doradus, or the Tarantula Nebula, for its appearance in visible light.
Dunes in Noachis Terra Region of Mars
This enhanced-color image shows sand dunes trapped in an impact crater in Noachis Terra, Mars. Dunes and sand ripples of various shapes and sizes display the natural beauty created by physical processes. The area covered in the image is about six-tenths of a mile (1 kilometer) across. Sand dunes are among the most widespread wind-formed features on Mars. Their distribution and shapes are affected by changes in wind direction and wind strength. Patterns of dune erosion and deposition provide insight into the sedimentary history of the surrounding terrain.
Viewing the South Pole of Vesta
This image obtained by the framing camera on NASA's Dawn spacecraft shows the south pole of the giant asteroid Vesta. Scientists are discussing whether the circular structure that covers most of this image originated by a collision with another asteroid, or by internal processes early in the asteroid's history. Images in higher resolution from Dawn's lowered orbit might help answer that question. The image was recorded with the framing camera aboard NASA's Dawn spacecraft from a distance of about 1,700 miles (2,700 kilometers). The image resolution is about 260 meters per pixel.
1a Supernova Remnant
This undated photo shows a classic type 1a supernova remnant. Researchers Saul Perlmutter and Adam Riess of the United States and US-Australian Brian Schmidt won the 2011 Nobel Physics Prize on October 4, 2011 for their research on supernovae.
In, Around, Beyond Rings
A quartet of Saturn's moons, from tiny to huge, surround and are embedded within the planet's rings in this Cassini composition. Saturn's largest moon, Titan, is in the background of the image, and the moon's north polar hood is clearly visible. See PIA08137 to learn more about that feature on Titan (3,200 miles, or 5,150 kilometers across). Next, the wispy terrain on the trailing hemisphere of Dione (698 miles, or 1,123 kilometers across) can be seen on that moon which appears just above the rings at the center of the image. See PIA10560 and PIA06163 to learn more about Dione's wisps. Saturn's small moon Pandora (50 miles, or 81 kilometers across) orbits beyond the rings on the right of the image. Finally, Pan (17 miles, or 28 kilometers across) can be seen in the Encke Gap of the A ring on the left of the image. The image was taken in visible blue light with the Cassini spacecraft narrow-angle camera on Sept. 17, 2011. The view was obtained at a distance of approximately 1.3 million miles (2.1 million kilometers) from Dione and at a Sun-Dione-spacecraft, or phase, angle of 27 degrees. Image scale is 8 miles (13 kilometers) per pixel on Dione.
X-Ray image of Young Stars
Combining almost opposite ends of the electromagnetic spectrum, this composite image of the Herschel in far-infrared and XMM-Newton's X-ray images obtained January 20, 2012, shows how the hot young stars detected by the X-ray observations are sculpting and interacting with the surrounding ultra-cool gas and dust, which, at only a few degrees above absolute zero, is the critical material for star formation itself. Both wavelengths would be blocked by Earth's atmosphere, so are critical to our understanding of the lifecycle of stars . (AFP / Getty Images)
Active Galaxy Centaurus A
Resembling looming rain clouds on a stormy day, dark lanes of dust crisscross the giant elliptical galaxy Centaurus A. Hubble's panchromatic vision, stretching from ultraviolet through near-infrared wavelengths, reveals the vibrant glow of young, blue star clusters and a glimpse into regions normally obscured by the dust. (NASA / ESA / Hubble Heritage)
Stars Brewing in Cygnus X
A bubbling cauldron of star birth is highlighted in this image from NASA's Spitzer Space Telescope. Infrared light that we can't see with our eyes has been color-coded, such that the shortest wavelengths are shown in blue and the longest in red. The middle wavelength range is green. Massive stars have blown bubbles, or cavities, in the dust and gas--a violent process that triggers both the death and birth of stars. The brightest, yellow-white regions are warm centers of star formation. The green shows tendrils of dust, and red indicates other types of dust that may be cooler, in addition to ionized gas from nearby massive stars.
Ring of Fire
This composite image shows the central region of the spiral galaxy NGC 4151. X-rays (blue) from the Chandra X-ray Observatory are combined with optical data (yellow) showing positively charged hydrogen (H II) from observations with the 1-meter Jacobus Kapteyn Telescope on La Palma. The red ring shows neutral hydrogen detected by radio observations with the NSF's Very Large Array. This neutral hydrogen is part of a structure near the center of NGC 4151 that has been distorted by gravitational interactions with the rest of the galaxy, and includes material falling towards the center of the galaxy. The yellow blobs around the red ellipse are regions where star formation has recently occurred. (NASA / CXC / CfA / J. Wang)
Flying V Galaxy
"These tidal tails are thin, elongated streams of gas, dust and stars that extend away from a galaxy into space. They occur when galaxies gravitationally interact with one another, and material is sheared from the outer edges of each body and flung out into space in opposite directions, forming two tails. They almost always appear curved, so when they are seen to be relatively straight, as in this image, it is clear that we are viewing the galaxies side-on."
Transit Of Venus
This image provided by NASA shows the Solar Dynamic Observatory's ultra-high-definition view of Venus, black dot at top center, passing in front of the sun on Tuesday, June 5, 2012. The next transit of Venus won't be for another 105 years. (NASA/Solar Dynamic Observatory/AP)
Festival of Lights
WISE, NASA's Wide-field Infrared Survey Explorer, has a new view of Barnard 3, or IRAS Ring G159.6-18.5, that is awash in bright green and red dust clouds. Interstellar clouds like these are stellar nurseries, where baby stars are being born. (UCLA / JPL-Caltech / NASA)
The Helix nebula
Feel like you are being watched? This infrared image from NASA's Spitzer Space Telescope shows the Helix nebula, a cosmic starlet notable for its vivid colors and eerie resemblance to a giant eye.
In visible light, the star-forming cloud known as NGC 281 in the constellation of Cassiopeia appears to be chomping through the cosmos, earning it the nickname the "Pacman" nebula after the famous Pac-Man video game of the 1980s.
Remains of a Supernova.
This undated handout image provide by NASA combines data from four different space telescopes to create a multi-wavelength view of all that remains of the oldest documented example of a supernova, called RCW 86. NASA announced the findings Monday, Oct. 24, 2011, and said the exploded star was observed by the ancient Chinese in the year 185, and visible for eight months.
View from above
This image provided by NASA shows a night time image photographed by the Expedition 29 crew from the International Space Station on Oct. 16, 2011. It features airglow, Earth's terminator, Rocky Mountains, Denver-Colorado Springs (center-right), Santa Fe-Albuquerque (low-center-right), US Great Plains cities: Dallas-Oklahoma City, Kansas City and Chicago.
Transit of Venus
This image provided by NASA shows the image captured by Hinode on June 5, 2012 of the transit of Venus -- the last instance of this rare phenomenon until 2117. Hinode is a joint JAXA/NASA mission to study the connections of the sun's surface magnetism, primarily in and around sunspots. NASA's Marshall Space Flight Center in Huntsville, Ala., manages Hinode. The Smithsonian Astrophysical Observatory in Cambridge, Mass., is the lead U.S. investigator for the X-ray Telescope. (JAXA NASA/AP)
The silhouette of the space shuttle Endeavour, Feb 9, 2010
The silhouette of the space shuttle Endeavour appears over Earth's colorful horizon in this image photographed by an Expedition 22 crew member on Feb. 9, 2010.
Messier 78 Nebula brings into focus a murky region of star formation. NASA's Spitzer Space Telescope exposes the depths of this dusty nebula with its infrared vision, showing stellar infants that are lost behind dark clouds when viewed in visible light. Messier 78 is easily seen in small telescopes in the constellation of Orion
An image released on October 3, 2011 show the Antennae Galaxies (also known as NGC 4038 and 4039) are a pair of distorted colliding spiral galaxies about 70 million light-years away, in the constellation of Corvus (The Crow). This view combines Atacama large milllimetre/submillimetre array (ALMA) observations, made in three different wavelength ranges during the observatory's early testing phase, with visible-light observations from the NASA/ESA Hubble Space Telescope. Most of the ALMA test observations used to create this image were made using only twelve antennas working together -- far fewer than will be used for the first science observations. The first phase of operations at the ALMA complex in Chile's Atacama desert are underway on October 3, 2011 following ten years of construction. Alma's purpose is to study processes occurring a few hundred million years after the formation of the Universe when the first stars began to shine. Alma consists of an array of linked giant antennas on top of the highest plateau in the Atacama desert. AFP PHOTO/ALMA (ESO/NAOJ/NRAO) (Photo credit should read -/AFP/Getty Images)
North America Nebula
A swirling a landscape of stars known as the North America Nebula. In visible light, the region resembles North America, but in this image infrared view from NASA's Spitzer Space Telescope, the continent disappears.
In this undated image taken by the WISE telescope a massive star is shown plowing through space dust. The result is a brilliant bow shock, seen here as a yellow arc.
At 5:20 a.m. EDT on March 29,2011, the Messenger probe captured this historic image of Mercury. The image is the first ever obtained from a spacecraft in orbit of the solar system's innermost planet. (NASA)
The full moon rises near the Lincoln Memorial on March 19 in Washington. The full moon was called a "Super Perigee Moon" since it was at its closest to Earth in 2011. The last full moon so big and close to Earth occurred in March 1993. (Bill Ingalls, NASA / AFP / Getty Images)
This image from NASA's Wide-field Infrared Survey Explorer, or WISE, features a region of star birth wrapped in a blanket of dust, colored green in this infrared view. Designated as LBN 149.02-00.13, this interstellar cloud is made up of a shell of ionized gas surrounding a void with an extremely hot, bright star in the middle. (UCLA / JPL-Caltech / NASA)
This image from NASA's Mars Reconnaissance Orbiter shows portions of the Martian surface in unprecedented detail. The photo shows many channels from 1 meter to 10 meters wide (approximately 3 feet to 33 feet wide) on a scarp in the Hellas impact basin. Some larger channels on Mars that are sometimes called gullies are big enough to be called ravines on Earth. (NASA / AFP / Getty Images)
Cassini of Saturn/Titan
Saturn's largest moon, Titan, center, is 3,200 miles in diameter. The smaller moon Enceladus, far right, just over 300 miles across, appears just below the rings. The image was taken with the Cassini spacecraft wide-angle camera at a distance of approximately 524,000 miles from Titan. (SSI / JPL / NASA)
Discovery from the ISS
The space shuttle Discovery is seen from the International Space Station as the two orbital spacecraft accomplish their relative separation. During a post undocking fly-around, the crew of each vessel photographed the opposing craft. (NASA)
This NASA image shows what the Hubble Space Telescope revealed in a majestic disk of stars and dust lanes in the spiral galaxy NGC 2841. A bright cusp of starlight marks the galaxy's center. Spiraling outward are dust lanes that are silhouetted against the population of whitish middle-aged stars. Much younger blue stars trace the spiral arms. NGC 2841 lies 46 million light-years away in the constellation of Ursa Major (The Great Bear). (Hubble Heritage / ESA / NASA)
This image obtained by NASA's Stardust spacecraft shows Comet Tempel 1 at 11:39 p.m. EST on Feb. 14, 2011. The NASA spacecraft's flyby of the comet showed erosion on Tempel 1's surface since it skimmed by the sun in 2005 and revealed the first clear pictures of the crater made by a Deep Impact probe. (Cornell / JPL-Caltech / NASA)
Sun and Flares
A pair of active regions on the sun were captured in extreme ultraviolet light from the Solar Dynamic Observatory spacecraft over a three-day period. The magnetic field lines above the regions produced fluttering arcs waving above them, as well as a couple of flares. Another pair of smaller active regions emerges and trails behind the larger ones. (Solar Dynamics Observatory / NASA)
North America Nebula -- Feb 16, 2011
This view of the North America nebula combines both visible and infrared light observations, taken by the Digitized Sky Survey and NASA's Spitzer Space Telescope, respectively, into a single vivid picture. The nebula is named after its resemblance to the North American continent in visible light, which in this image is represented in blue hues. Infrared light, displayed here in red and green, can penetrate deep into the dust, revealing multitudes of hidden stars and dusty clouds.
Sun Eruptions -- Jan. 28, 2011
This still caught the action in freeze-frame splendor when the sun popped off two events at once. A filament, left, became unstable and erupted, while an M-1 flare and a coronal mass ejection, right, blasted into space. Neither event was headed toward Earth.
M51 -- obtained Jan. 19, 2011
This image shows a dramatic view of the spiral galaxy M51, dubbed the Whirlpool Galaxy. Seen in near-infrared light, most of the starlight has been removed, revealing the Whirlpool's skeletal dust structure. This image is the sharpest view of the dense dust in M51. The narrow lanes of dust revealed by Hubble reflect the galaxy's moniker, the Whirlpool Galaxy, as if they were swirling toward the galaxy's core.
Giant Supernova -- released on Jan. 14, 2011
While searching the skies for black holes using NASA's Spitzer Space Telescope, astronomers discovered a giant supernova that was smothered in its own dust in this image released on Jan. 14. In this artist's rendering, an outer shell of gas and dust -- which erupted from the star hundreds of years ago -- obscures the supernova within. This event in a distant galaxy hints at one possible future for the brightest star system in our own Milky Way.
Mars' moons Phobos (large moon) and Deimos, released Dec. 11
Mars' two moons have been photographed in the same frame for the first time. The European Space Agency's Mars Express orbiter snapped this image, which was released Dec. 11, 2009. The larger moon is Phobos. The much smaller one is Deimos.
Hubble photo of new galaxies (Tuesday=Dec. 8, 2009)
Scientists said Dec. 8, 2009, that the Hubble Space Telescope spotted several thousand never-before-seen galaxies that were formed 600 million years after the Big Bang. Here, a photo shows some of them. They appear in the image as the faintest and reddest objects.
Central Milky Way Galaxy; image released on Nov. 10, 2009
This is one of the most detailed images to date of the heart of the Milky Way. The galaxy's center is within the white spot near the right edge of the photo. NASA released the image Nov. 10 to mark the 400th anniversary of the telescope. It is a composite of images from three observatories: the Hubble and Spitzer space telescopes and the Chandra X-ray Observatory.
NGC 2623, the result of a galactic collision, added Oct. 13
This Hubble Space Telescope image shows an object known as both NGC 2623 and Arp 243, which was formed by a collision of two galaxies. The galaxies' cores have merged into one; the tails streaming from the object are full of young stars. NGC 2623 is about 250 million light-years away in the constellation of Cancer.
Barnard's Galaxy, added Oct. 15, 2009
This portrait of Barnard's Galaxy, one of the Milky Way's closest neighbors, was taken by a telescope at the European Southern Observatory in La Silla, Chile. The red features in the photo are nebulae where new stars are being born. The galaxy has about 10 million stars; the Milky Way has an estimated 400 billion.
Saturn during equinox in August 2009
The Cassini spacecraft became the first to photograph an equinox on Saturn, a 15-year event that took place Aug. 11. This photo is a composite of images that Cassini shot over eight hours. New equinox images of the planet show strange formations in its rings and suggest that in some places, the rings are much thicker than expected.
Shadows in Saturn's A ring, August 2009
Clumps of debris cast shadows that are visible in the middle of this image of Saturn's A ring. The shadows suggest that the clumps are about 2,000 feet tall. Scientists have believed for years that the rings were about 30 feet thick, but based on the new images, scientists now think that they're more than 2 miles deep in some spots. "Isn't that the most outrageous thing you could imagine? It truly is like something out of science fiction," said Carolyn Porco, leader of the Cassini imaging team.
Arp 147 composite black holes -- obtained Feb 15, 2011
This composite image of Arp 147, a pair of interacting galaxies located about 430 million light-years from Earth, shows X-rays from the NASA's Chandra X-ray Observatory (pink) and optical data from the Hubble Space Telescope (red, green, blue) produced by the Space Telescope Science Institute. Arp 147 contains the remnant of a spiral galaxy, right, that collided with the elliptical galaxy on the left. This collision has produced an expanding wave of star formation that shows up as a blue ring containing an abundance of massive young stars. These stars race through their evolution in a few million years or less and explode as supernovas, leaving behind neutron stars and black holes.
Jupiter's Scar, July 25, 2009
A new photo released in July from the Hubble Space Telescope is the clearest yet of what astronomers are calling a scar on the surface of Jupiter. An object, possibly a comet, struck the planet recently, creating the strange dark patch. It happened on the 15th anniversary of another comet strike.
Kohoutek 4-55 nebula, photographed May 4, 2009
This planetary nebula, named Kohoutek 4-55, was photographed May 4 by the Hubble Space Telescope's Wide Field Planetary Camera 2. The nebula, dubbed a "giant eye," contains the outer layers of a red giant star that died. The camera, which is the size of a baby grand piano, has captured several memorable images since it was installed in 1993.
Black hole light show, added April 14
In this sequence of photos released in April, a jet of gas spews from a massive black hole in the center of the M87 galaxy. The gas fades and brightens, with a peak that even outshines the galaxy's core. The outburst is coming from a blob of matter, dubbed HST-1, and scientists are so far at a loss to explain its weird behavior.
Galaxy Triplet ARP 274, Added April 6
This photo was snapped by the Hubble Space Telescope after winning a public competition to determine what the next space portrait should be. It shows Arp 274, a system of three galaxies -- two larger ones on the right, and a smaller and less intact one on the far left.
Hubble pic of galaxy tug of war, story reported on March 3, 2009
NASA's Hubble Space Telescope captured an image of three galaxies playing a game of gravitational tug-of-war that could destroy one of them. The galaxies -- NGC 7173, middle left, NGC 7174, middle right, and NGC 7176, lower right -- are about 100 million light-years away. The photo was released March 3.
Red Rectangle nebula added Feb. 10, 2009
Our solar system is in the middle of a cosmic dust storm, and some astronomers said they've zeroed in on the possible source: the Red Rectangle nebula, which is 2,300 light-years away in the constellation Monoceros. A double star system there is spewing the dust, according to findings announced in February.
Galactic collision, Oct. 30, 2008
After transmission problems on the Hubble Telescope weren fixed, NASA in October 2008 provided this undated photograph showing the aftermath of galaxies colliding. In the pair known as Arp 147, a reddish-colored galaxy has passed through an O-shaped galaxy glowing blue.
Photographs taken of Mercury by the spacecraft Messenger in January 2008 were analyzed in the journal Science seven months later. Images like the one above show that volcanic activity played a part in forming plains on the planet.