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Extra-vehicular activity

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Extra-vehicular activity Summary

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Extra-vehicular activity (EVA) is work done by an astronaut away from the Earth and outside of a spacecraft. The term most commonly applies to an EVA made outside a craft orbiting Earth (a spacewalk) but also applies to an EVA made on the surface of the Moon (a moonwalk). In the later lunar landing missions the command module pilot did an EVA to retrieve film canisters on the return trip. Due to the different designs of the early spacecraft, the American and Soviet space programs also define an EVA differently. Russians define an EVA as occurring when a cosmonaut is in a vacuum. An American astronaut EVA begins when the astronaut switches the Extravehicular Mobility Unit (EMU) to battery power. The term stand-up EVA (SEVA) is used for being partly outside. EVAs may be either tethered (the astronaut is connected to the spacecraft, oxygen can be supplied through a tube, no propulsion is needed to return to the spacecraft) or untethered. When the tether performs life support functions such as providing oxygen, it is called an umbilical. For untethered EVAs during space flight, capability of returning to the spacecraft is essential; see Manned Maneuvering Unit (MMU) and Simplified Aid for EVA Rescue (SAFER).

1 EVA milestones
2 EVA hazards
3 2007 EVAs
4 See also
5 References
6 External links

EVA milestones

Stephen Robinson riding the robotic arm during STS-114.

The first EVA was carried out by Aleksei Leonov on March 18, 1965 from the Voskhod 2 spacecraft.
The first EVA by an American astronaut was made on June 3, 1965 by Edward White during the Gemini 4 mission.
The first EVA that was a moonwalk rather than a spacewalk was made by American astronaut Neil Armstrong on July 20 1969 when the Apollo 11 Lunar Module Eagle landed on the Moon. He was joined by crewmate Buzz Aldrin, and their EVA lasted 2 hours and 32 minutes.
The first untethered spacewalk was by American astronaut Bruce McCandless II on February 7 1984, during Challenger mission STS-41-B. He was subsequently joined by astronaut Robert L. Stewart during the 5 hour 55 minute spacewalk.
The first woman to perform an EVA was Cosmonaut Svetlana Savitskaya on July 25 1984 while aboard the Salyut 7 space station.
The first American woman to make an EVA was Kathryn D. Sullivan, who stepped into space on October 11 1984 during Space Shuttle Challenger mission STS-41-G.
The first (and only) three-person EVA was performed on May 13, 1992, as the third EVA of STS-49, the maiden flight of Endeavour.^[1] Pierre Thuot, Richard Hieb, and Thomas Akers conducted the EVA to capture and repair a non-functional Intelsat VI-F3 satellite, and equipped the satellite with a new motor, that after release, moved it into its planned geosynchronous orbit.
The first EVA by a non-Soviet, non-American astronaut was made on December 9 1988 by Jean-Loup Chrétien of France during a three-week stay on the Mir space station.
On February 9 1995, Bernard A. Harris, Jr. and Michael Foale became the first African American and the first Briton, respectively, to perform an EVA.
The first EVA to perform an in-flight repair of the Space Shuttle was by American astronaut Steve Robinson on August 3 2005, during "Return to Flight" mission STS-114. Robinson was sent to remove two protruding gap fillers on the Space Shuttle Discovery's heat shield, after engineers determined they might cause damage to the shuttle upon re-entry. Robinson successfully removed the loose material while the Discovery was docked to the International Space Station.
The longest EVA was 8 hours and 56 minutes, performed by Susan J. Helms on March 11, 2001.^[2]
Anatoly Solovyev, with 16 spacewalks, totaling 77 hours, 41 minutes EVA, holds the record for most spacewalks (16), and total duration (82 hours, 22 minutes).^[2]
Captain Michael Lopez-Alegria holds the all time American record for number of EVA's (10), and for total EVA duration (67 hours and 40 minutes).^[2]

EVA hazards

During an untethered EVA the astronaut is far from help.

Tear in glove during STS-118

An EVA is dangerous for a number of different reasons. The primary one is collision with space debris. Orbital velocity at 300 km above the Earth (typical for a Space Shuttle mission) is 7.7 km/s. This is 10 times the speed of a bullet, so the kinetic energy of a small particle with a mass 1/100th is that of a bullet (e.g. a fleck of paint or a grain of sand) is equal to that of a bullet. Every space mission creates more orbiting debris, so this problem will continue to worsen (see also Kessler Syndrome). Another reason for danger is that external environments in space are harder to simulate before the mission, though approximate simulations can be achieved at facilities like NASA's Neutral Buoyancy Laboratory. Space walks are avoided for routine tasks because of their danger. As a result the EVAs are often planned late in the project development when problems are discovered, or sometimes even during an operational mission. The exceptional danger involved in EVAs inevitably leads to emotional pressures on astronauts. Other possible problems include a space walker becoming separated from his or her craft or suffering a spacesuit puncture which would depressurize the suit, causing anoxia and rapid death if the space walker is not brought into a pressurized spacecraft quickly. One astronaut has suffered a spacesuit puncture. During STS-37, a small rod punctured the glove of one of the astronauts (the name is undisclosed, but it was either Jerry L. Ross or Jay Apt). However, the puncturing object held in place, resulting in no detectable depressurization. In fact, the puncture was not noticed until after the space walkers were safely back inside Atlantis.^[3]

Astronaut Bruce McCandless on an untethered EVA.

Aleksei Leonov's EVA did not pass smoothly, although this was not reported at the time. During the EVA, Leonov's suit had become overinflated to the point he could no longer re-enter and seal the door of the airlock. Because he was breathing pure oxygen, he was able to reduce his suit pressure to under 4 psi (28 kPa) and, with much effort, climb back inside.^[4] For EVAs from ISS NASA now routinely employs a camp out procedure to reduce the risk of decompression sickness. This was first tested by the Expedition 12 crew. During a camp out, astronauts shut themselves in the airlock and lower the air pressure to 10.2 psi (70 kPa). The station is kept at 14.7 psi (101 kPa); spending a night at the lower air pressure helps flush nitrogen from the body, thereby preventing "the bends."^[5]^[6] As of 2007, no catastrophic incident has ever occurred during an extra-vehicular activity, and no astronaut or cosmonaut has ever died during one. However, given the considerable hazards inherent in EVAs, and the resultant risk to astronauts, some scientists are working to develop tele-operated robots for outside construction work, to potentially eliminate or reduce the need for human EVAs.

2007 EVAs

This is a list of EVAs conducted or scheduled to be conducted in 2007.

See also: List of spacewalks and moonwalks and List of ISS spacewalks

Spacewalk Start time	End time	Duration	Spacewalker	Origin	Mission/ Function	Outcome	Remarks
January 31, 15:14 UTC	January 31, 23:09 UTC	7 hours, 55 minutes	Michael Lopez-Alegria	ISS (Quest)	Second Expedition 14 EVA - reroute ISS cooling lines.^[7]	success
January 31, 15:14 UTC	January 31, 23:09 UTC	7 hours, 55 minutes	Sunita Williams	ISS (Quest)	Second Expedition 14 EVA - reroute ISS cooling lines.^[7]	success
February 4, 13:38 UTC	February 4, 20:49 UTC	7 hours, 11 minutes	Michael Lopez-Alegria	ISS (Quest)	Third Expedition 14 EVA - reroute ISS cooling lines.^[8]	success	precautionary decontamination conducted at end due to ammonia flakes seen earlier.
February 4, 13:38 UTC	February 4, 20:49 UTC	7 hours, 11 minutes	Sunita Williams	ISS (Quest)	Third Expedition 14 EVA - reroute ISS cooling lines.^[8]	success
February 8, 13:26 UTC	February 8, 20:06 UTC	6 hours, 40 minutes	Michael Lopez-Alegria	ISS (Quest)	Fourth Expedition 14 EVA - jettison shrouds; prep for cargo carriers; connect cables for SSPTS^[9]	success	Fourth EVA for Williams is the most for any woman; Lopez-Alegria sets U.S. record for cumulative EVA time
February 8, 13:26 UTC	February 8, 20:06 UTC	6 hours, 40 minutes	Sunita Williams	ISS (Quest)		success
February 22, 10:27 UTC	February 22, 16:45 UTC	6 hours, 18 minutes	Michael Lopez-Alegria	ISS (Quest)	Fifth Expedition 14 EVA - Progress antenna retraction; photography of Russian satellite antenna; Russian experiment changeout; Automated Transfer Vehicle (ATV) antenna photography/inspection; German experiment photography; Strela crane photography/inspection.^[10]	success
February 22, 10:27 UTC	February 22, 16:45 UTC	6 hours, 18 minutes	Mikhail Tyurin	ISS (Quest)		success
May 30, 19:05 UTC	May 31, 00:30 UTC	5 hours, 25 minutes	Oleg Kotov	ISS (Pirs)	First Expedition 15 EVA - install protective panels to shield ISS from space debris.^[11]	success	started 45 minutes late due to communications issues.
May 30, 19:05 UTC	May 31, 00:30 UTC	5 hours, 25 minutes	Fyodor Yurchikhin	ISS (Pirs)		success	started 45 minutes late due to communications issues.
June 6, 14:23 UTC	June 6, 20:00 UTC	5 hours, 37 minutes	Oleg Kotov	ISS (Pirs)	Second Expedition 15 EVA - install Biorisk experiment; install ethernet cable; install more debris panels.^[12]	success	15 minutes faster than planned
June 6, 14:23 UTC	June 6, 20:00 UTC	5 hours, 37 minutes	Fyodor Yurchikhin	ISS (Pirs)		success	15 minutes faster than planned
June 11, 20:02 UTC	June 12, 02:17 UTC	6 hours, 15 minutes	James F. Reilly	ISS (Quest)	First STS-117 EVA - connect S3/S4 bolts, cables and connectors; prepare for deployment solar arrays.^[13]	success	started late due to loss of CMG attitude control
June 11, 20:02 UTC	June 12, 02:17 UTC	6 hours, 15 minutes	John D. Olivas	ISS (Quest)		success	started late due to loss of CMG attitude control
June 13, 18:28 UTC	June 14, 01:44 UTC	7 hours, 16 minutes	Patrick G. Forrester	ISS (Quest)	Second STS-117 EVA - assist with P6 solar array retraction; prep SARJ for rotation.^[14]	partial success	SARJ launch restraints still in place
June 13, 18:28 UTC	June 14, 01:44 UTC	7 hours, 16 minutes	Steven Swanson	ISS (Quest)		partial success	SARJ launch restraints still in place
June 15, 17:24 UTC	June 16, 01:22 UTC	7 hours, 58 minutes	James F. Reilly	ISS (Quest)	Third STS-117 EVA - OMS blanket repair; install H₂ vent valve for OGS; P-6 SAW retraction.^[15]	success
June 15, 17:24 UTC	June 16, 01:22 UTC	7 hours, 58 minutes	John D. Olivas	ISS (Quest)		success
June 17, 16:25 UTC	June 17, 22:54 UTC	6 hours, 29 minutes	Patrick G. Forrester	ISS (Quest)	Fourth STS-117 EVA - SARJ activation; cable install on Unity; GPS antenna removal; debris shield install on Destiny	success
June 17, 16:25 UTC	June 17, 22:54 UTC	6 hours, 29 minutes	Steven Swanson	ISS (Quest)		success
July 23, 10:25 UTC	July 23, 18:06 UTC	7 hours, 41 minutes	Clayton Anderson	ISS (Quest)	Third Expedition 15 EVA (aka EVA-9) - replace component for mobile transporter redundant power; jettison ammonia tank and flight support equipment; clean CBM on nadir Unity port.^[16]^[17]	success
July 23, 10:25 UTC	July 23, 18:06 UTC	7 hours, 41 minutes	Fyodor Yurchikhin	ISS (Quest)		success
August 11, 16:28 UTC	August 11, 22:45 UTC	6 hours, 17 minutes	Richard Mastracchio	ISS (Quest)	First STS-118 EVA - S5 installation; P6 Radiator retraction and cinch.	success
August 11, 16:28 UTC	August 11, 22:45 UTC	6 hours, 17 minutes	Dafydd Williams	ISS (Quest)		success
August 13, 15:32 UTC	August 13, 22:00 UTC	6 hours, 28 minutes	Richard Mastracchio	ISS (Quest)	Second STS-118 EVA - Failed CMG removal; new CMG installation.	success
August 13, 15:32 UTC	August 13, 22:00 UTC	6 hours, 28 minutes	Dafydd Williams	ISS (Quest)		success
August 15, 14:37 UTC	August 15, 20:05 UTC	5 hours, 28 minutes	Richard Mastracchio	ISS (Quest)	Third STS-118 EVA - SASA relocation; CETA Cart relocation; P6 Transponder retrieval. S-band antenna relocation from P6 to P1.	success	EVA ended early due to possible hole in Mastracchio's glove. All but one activity completed.
August 15, 14:37 UTC	August 15, 20:05 UTC	5 hours, 28 minutes	Clayton Anderson	ISS (Quest)		success
August 18, 14:17 UTC	August 18, 19:19 UTC	5 hours, 02 minutes	Dafydd Williams	ISS (Quest)	Fourth STS-118 EVA - OBSS Boom Stand Installation; MISSE retrieval; EWIS Antenna Installation; Secured Z1 gimbal locks	success	EVA plan altered due to Hurricane Dean (2007), planned shorter EVA for early undocking.
August 18, 14:17 UTC	August 18, 19:19 UTC	5 hours, 02 minutes	Clayton Anderson	ISS (Quest)		success
October 26, 10:02 UTC	October 26, 16:16 UTC	6 hours, 14 minutes	Scott E. Parazynski	ISS (Quest)	First STS-120 EVA - Harmony (Node 2) installation preparation, S-Band Antenna Support Assembly (SASA) retrieval, P6/Z1 fluid line disconnections, P6 aft radiator shroud installations.^[18]	success	Precautionary decontamination conducted at end of EVA.
October 26, 10:02 UTC	October 26, 16:16 UTC	6 hours, 14 minutes	Douglas H. Wheelock	ISS (Quest)		success	Precautionary decontamination conducted at end of EVA.
October 28, 09:32 UTC	October 28, 16:05 UTC	6 hours, 33 minutes	Parazynski	ISS (Quest)	Second STS-120 EVA. Z1 to P6 umbilical disconnections, P6 detach from Z1, S1 radiator configuration, Node 2 handrail installations. S4 starboard SARJ inspection.	success	Metallic looking particulates noted in the starboard SARJ by Tani. Samples collected.
October 28, 09:32 UTC	October 28, 16:05 UTC	6 hours, 33 minutes	Daniel M. Tani	ISS (Quest)		success
October 30, 08:45 UTC	October 30, 15:53 UTC	7 hours, 08 minutes	Parazynski	ISS (Quest)	Third STS-120 EVA. P6 to P5 attachment. P6/P5 umbilical connections, S1 configure post-redeploy, port SARJ inspection.	success
October 30, 08:45 UTC	October 30, 15:53 UTC	7 hours, 08 minutes	Wheelock	ISS (Quest)		success
November 3, 10:03 UTC	November 3, 17:22 UTC	7 hours, 19 minutes	Parazynski	ISS (Quest)	Fourth STS-120 EVA. Inspection and repair of P6 Solar Array.	success
November 3, 10:03 UTC	November 3, 17:22 UTC	7 hours, 19 minutes	Wheelock	ISS (Quest)		success
November 9, 09:54 UTC	November 9, 16:49 UTC	6 hours, 55 minutes	Peggy Whitson	ISS (Quest)	First Expedition 16 EVA. SSPTS cable disconnect and stowage, PMA2 umbilical stowage, Node 2 avionics umbilical temp stowed.	success
November 9, 09:54 UTC	November 9, 16:49 UTC	6 hours, 55 minutes	Yuri Malenchenko	ISS (Quest)		success
November 20, 10:10 UTC	November 20, 17:26 UTC	7 hours, 16 minutes	Whitson	ISS (Quest)	External configuration of PMA-2 and Harmony: Fluid, electrical, and data line hookups, avionics line hookup, heater cable hookups, Fluid tray relocation.	success	Precautionary decontamination conducted at the end of EVA due to ammonia flakes seen during the spacewalk.
November 20, 10:10 UTC	November 20, 17:26 UTC	7 hours, 16 minutes	Daniel M. Tani	ISS (Quest)		success
November 24, 09:50 UTC	November 24, 16:54 UTC	7 hours, 04 minutes	Whitson	ISS (Quest)	Third Expedition 16 EVA. Completion of fluid, electrical, and data line hookups for PMA-2 and Harmony. Loop B Fluid Tray connection to port side of Destiny. Photographic analysis of starboard Solar Alpha Rotary Joint to assist with troubleshooting on the ground.	success
November 24, 09:50 UTC	November 24, 16:54 UTC	7 hours, 04 minutes	Tani	ISS (Quest)		success
December 18, 09:50 UTC	December 18, 16:46	6 hours, 56 minutes	Whitson	ISS (Quest)	Fourth Expedition 16 EVA. Inspection of the S4 starboard Solar Alpha Rotary Joint (SARJ), and a Beta Gimbal Assembly (BGA). The EVA is the 100th in support of building the International Space Station.^[19]	success	Records set: 100th EVA in support of ISS assembly and maintenance. Whitson became the female astronaut with most EVAs (five) and with the most cumulative EVA time, 32 hours, 36 minutes, surpassing Sunita Williams.^[20]
December 18, 09:50 UTC	December 18, 16:46	6 hours, 56 minutes	Tani	ISS (Quest)		success

Planned EVAs:

Spacewalk Start time	End time	Duration	Spacewalker	Spacecraft or Space station	Mission/ Function	Outcome	Remarks

References

^ NASA (2001). STS-49. NASA. Retrieved on December 7, 2007.
^ ^a ^b ^c William Harwood (2007). ISS EVA Statistics. CBS News. Retrieved on November 8, 2007.
^ Landis, Geoffrey. "Human Exposure to Vacuum", Geoffrey A. Landis personal website, 2000-06. Retrieved on 2007-08-20.
^ Encyclopedia Astronautica (2007). Berkut Chronology. Encyclopedia Astronautica. Retrieved on November 8, 2007.
^ NASA. International Space Station Status Report #06-7. NASA. Retrieved on 2006-02-17.
^ NASA. Pass the S'mores Please! Station Crew 'Camps Out'. NASA. Retrieved on 2006-04-01.
^ NASA. Station Crew Members Wind Up Successful Spacewalk. NASA. Retrieved on 2007-01-31.
^ NASA. Crew Completes Scheduled Spacewalk Tasks, and More. NASA. Retrieved on 2007-02-04.
^ NASA. International Space Station Status Report #07-08. NASA. Retrieved on 2007-02-08.
^ NASA (2007-02-22). accessdate = 2007-08-18 Spacewalkers Successfully Retract Progress Antenna. NASA.
^ NASA. Spacewalk Complete, Debris Panels Installed. NASA. Retrieved on 2007-05-31.
^ NASA. Cosmonauts Wrap Up Debris-Panel Spacewalk. NASA. Retrieved on 2007-06-06.
^ NASA. STS-117 MCC Status Report #07. NASA. Retrieved on 2007-06-12.
^ NASA. STS-117 MCC Status Report #11. NASA. Retrieved on 2007-06-14.
^ NASA. STS-117 MCC Status Report #15. NASA. Retrieved on 2007-06-16.
^ William Harwood - CBS News. Shuttle Endeavour readied for rollout to launch pad. Spaceflight Now. Retrieved on 2007-07-23.
^ NASA. Station Crew Winds Up Ammonia Reservoir Jettison Spacewalk. NASA. Retrieved on 2007-07-23.
^ NASA (2007). STS-120 Mission Status Report #08. NASA. Retrieved on October 28, 2007.
^ Associated Press (2007). Astronauts Take Spacewalk to Inspect Defective Solar Wing Mechanisms. Fox News. Retrieved on December 18, 2007.
^ NASA (2007). Spacewalkers Find No Solar Wing Smoking Gun. NASA. Retrieved on December 18, 2007.

External links

• • e Space suits
American models	Navy Mark V • Gemini Space suit • MOL Space suit • Apollo/Skylab A7L • Extravehicular Mobility Unit • Advanced Crew Escape Suit
Russian models	SK-1 • Berkut • Krechet • Yastreb • Sokol • Orlan • Strizh
Developing technologies	Mark III • I-Suit • Space activity suit
Components	Hard Upper Torso • Liquid Cooling and Ventilation Garment • Maximum Absorbency Garment • Primary Life Support System • Thermal Micrometeoroid Garment
Related topics	Extra-vehicular activity • Manned Maneuvering Unit • Pressure suit

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