Human spaceflight: Difference between revisions

Edward White on a spacewalk during the Gemini 4 mission.

A human spaceflight is a spaceflight with a human crew, and possibly passengers. This makes it unlike robotic space probes or remotely-controlled satellites. Human spaceflight is sometimes called manned spaceflight, a term now deprecated by major space agencies in favor of its gender-neutral alternative.

As of 2008 human spaceflights are being actively launched by the Soyuz programme conducted by the Russian Federal Space Agency, the Space Shuttle program conducted by NASA and the Shenzhou program conducted by the China National Space Administration.

History

Main article: History of spaceflight

Fiction

The ancient Indian epics, Mahabharata and Ramayana, feature mythical Vimana flying machines that were able to fly within the Earth's atmosphere, and able to travel into space and travel submerged under water. At around 125 AD, a Syrian satirist named Lucian wrote a book on space flight called True Histories^[1]. The book was full of tall, unbelieveable tales and travelogues on visits to the sun and the moon. Today, the book could easily be discarded as the fantasy of a people of a bygone era. But it was significant in the sense that it kindled the curiosities of the people of the day and stimulated interest in outer space and space travel.

Arabic manuscript of the One Thousand and One Nights

During the Middle Ages, several stories within the One Thousand and One Nights (Arabian Nights) feature fantastic tales of human spaceflight. For example, "The Adventures of Bulukiya" features the protagonist Bulukiya journeying to the Garden of Eden and to Jahannam, and travelling across the cosmos to different worlds much larger than his own world, anticipating elements of galactic science fiction.^[2] "The Ebony Horse" features a robot^[3] in the form of a flying mechanical horse controlled using keys that could fly into outer space and towards the Sun.^[4] "The Ebony Horse" can be considered an early example of proto-science fiction.^[5][6]

Kaguya-hime returning to the Moon in The Tale of the Bamboo Cutter

The 10th century Japanese narrative, The Tale of the Bamboo Cutter, may also be considered proto-science fiction. The protagonist of the story, Kaguya-hime, is a princess from the Moon who is sent to Earth for safety during a celestial war, and is found and raised by a bamboo cutter in Japan. She is later taken back to the Moon by her real extraterrestrial family. A manuscript illustration depicts a round flying machine similar to to a flying saucer.^[6]

Early attempts

American author Herbert S. Zim claimed in 1945^[7] that there is a Chinese legend where a scientist named Wan Hu (d. 1500)^[8] in the early Ming Dynasty attempted to travel through space with the help of rockets. In the story, Wan tied 47 rockets filled with explosives to the chair in which he was sitting and ignited them. There was a large explosion, but when the smoke cleared Wan Hu was gone and never seen again.

According to Evliya Çelebi in the early 17th century, the Ottoman inventor and aviator Lagari Hasan Çelebi, in an attempt to reach the heavens, launched himself in the air in a seven-winged rocket, which was composed of a large cage with a conical top filled with gunpowder. The flight was accomplished as a part of celebrations performed for the birth of Ottoman Emperor Murad IV's daughter in 1633. Evliya reported that Lagari made a soft landing in the Bosporus by using the wings attached to his body as a parachute after the gunpowder was consumed, foreshadowing the sea-landing methods of astronauts with parachutes after their voyages into outer space. Lagari's flight was estimated to have lasted about twenty seconds and the maximum height reached was around 300 metres (980 ft). This was the earliest known example of a manned rocket flight and an artificially-powered aircraft.^[9]

First human spaceflights

The first human spaceflight was undertaken on April 12, 1961, when cosmonaut Yuri Gagarin made one orbit around the Earth aboard the Vostok 1 spacecraft, launched by the Soviet space program and designed by the rocket scientists Sergey Korolyov and Kerim Kerimov.^[10] Valentina Tereshkova became the first woman in space on board Vostok 6 on June 16, 1963. Both spacecraft were launched by Vostok 3KA launch vehicles. Alexei Leonov made the first spacewalk when he left the Voskhod 2 on March 8, 1965. Svetlana Savitskaya became the first woman to do so on July 25, 1984.

The United States became the second nation (and for four decades, one of only two) to achieve manned spaceflight, with the suborbital flight of astronaut Alan Shepard aboard Freedom 7, carried out as part of Project Mercury. The spacecraft was launched on May 5, 1961 on a Redstone rocket. The first U.S. orbital flight was that of John Glenn aboard Friendship 7, which was launched February 20, 1962 on an Atlas rocket. Since April 12, 1981 the U.S. has conducted all its human spaceflight missions with reusable Space Shuttles. Sally Ride became the first American woman in space in 1983. Eileen Collins was the first female Shuttle pilot, and with Shuttle mission STS-93 in July 1999 she became the first woman to command a U.S. spacecraft.

The People's Republic of China became the third nation to achieve human spaceflight when Yang Liwei launched into space on a Chinese-made vehicle, the Shenzhou 5, on October 15, 2003. This flight made China the third nation capable of launching its own manned spacecraft using its own launcher. Previous European (Hermes) and Japanese (HOPE-X) domestic manned programs were abandoned after years of development, as was the first Chinese attempt, the Shuguang spacecraft.

The furthest destination for a human spaceflight mission has been the Moon, and as of 2008 the only missions to the Moon have been those conducted by NASA as part of the Apollo program. The first such mission, Apollo 8, orbited the Moon but did not land. The first Moon landing mission was Apollo 11, during which -- on July 20, 1969 -- Neil Armstrong became the first person to set foot on the Moon. Six missions landed in total, numbered Apollo 11–17, excluding Apollo 13. Altogether twelve men reached the Moon's surface, the only humans to have been on an extraterrestrial body. The Soviet Union discontinued its program for lunar orbiting and landing of human spaceflight missions on June 24, 1974 when Valentin Glushko became General Designer of NPO Energiya.^[11]

The longest single human spaceflight is that of Valeriy Polyakov, who left earth on January 8, 1994, and didn't return until March 22, 1995 (a total of 437 days 17 hr. 58 min. 16 sec. aboard). Sergei Krikalyov has spent the most time of anyone in space, 803 days, 9 hours, and 39 seconds altogether. The longest period of continuous human presence in space lasted as long as 3,644 days, eight days short of 10 years, spanning the launch of Soyuz TM-8 on September 5, 1989 to the landing of Soyuz TM-29 on August 28, 1999.

For many years beginning in 1961, only two countries, the USSR (later Russia) and United States, had their own astronauts. Later, cosmonauts and astronauts from other nations flew in space, beginning with the flight of Vladimir Remek, a Czech, on a Soviet spacecraft on March 2, 1978. As of 2007^[update], citizens from 33 nations (including space tourists) have flown in space aboard Soviet, American, Russian, and Chinese spacecraft.

Space programs

As of 2007, human spaceflight missions have been conducted by the Soviet Union (/Russia), the United States, the People's Republic of China and by the private spaceflight company Scaled Composites.

Several other countries and space agencies have announced and begun human spaceflight programs by their own technology, including India (ISRO), Japan (JAXA), Iran (ISA), Malaysia (MNSA) and Turkey.

Currently the following spacecraft and spaceports are used for launching human spaceflights:

• Soyuz with Soyuz launch vehicle—Baikonur Cosmodrome
• Space Shuttle—Kennedy Space Center
• International Space Station (ISS)—Assembled in orbit; crews transported by the previous two spacecraft
• Shenzhou spacecraft with Long March rocket—Jiuquan Satellite Launch Center

Historically, the following spacecraft and spaceports have also been used for human spaceflight launches:

• Vostok—Baikonur Cosmodrome
• Mercury—Kennedy Space Center
• Voskhod—Baikonur Cosmodrome
• X-15—Edwards Air Force Base,^[12] (two internationally recognized suborbital flights in program)
• Gemini—Kennedy Space Center
• Apollo—Kennedy Space Center
• Salyut space station—Baikonur Cosmodrome
• Almaz space station—Baikonur Cosmodrome
• Skylab space station—Kennedy Space Center
• Mir space station—Baikonur Cosmodrome
• SpaceShipOne with White Knight—Mojave Spaceport

Numerous private companies attempted human spaceflight programs in an effort to win the $10 million Ansari X Prize. The first private human spaceflight took place on June 21, 2004, when SpaceShipOne conducted a suborbital flight. SpaceShipOne captured the prize on October 4, 2004, when it accomplished two consecutive flights within one week.

Most of the time, the only humans in space are those aboard the ISS, whose crew of three spends up to six months at a time in low Earth orbit.

NASA and ESA now use the term "human spaceflight" to refer to their programs of launching people into space. Traditionally, these endeavors have been referred to as "manned space missions".

National spacefaring attempts

Successful manned programs are in bold.

Country	Space Agency	National Term	First Launched Astronaut	Date	Spacecraft	Launcher
USSR	Soviet space program	cosmonaut (Russian: космонавт)	Yuri Gagarin	April 12, 1961	Vostok 1	Vostok
United States	National Aeronautics and Space Administration (NASA)	astronaut	Alan Shepard	May 5, 1961	Mercury-Redstone 3	Redstone
China	China National Space Administration (CNSA)	taikonaut, yǔhángyuán, hángtiānyuán	...	(1973), abandoned	Shuguang 1	Long March 2
China	China National Space Administration (CNSA)	taikonaut, yǔhángyuán, hángtiānyuán	...	(1981), abandoned	Piloted FSW	Long March 2
ESA	European Space Agency (ESA)	astronaut	...	(1999), abandoned	Hermes	Ariane V
Iraq[13]	...	...	...	(...), planned	...	Tammouz 2 or 3
Japan	Japan Aerospace Exploration Agency (JAXA)	...	...	(2003), abandoned	HOPE-X	H-II
China	China National Space Administration (CNSA)	taikonaut, yǔhángyuán, hángtiānyuán	Yang Liwei	October 15, 2003	Shenzhou 5	Long March 2F
India	Indian Space Research Organisation (ISRO)	gaganaut, brahmonaut	...	(2014-2015), planned	...	GSLV Mk.III
ESA	European Space Agency (ESA)	astronaut	...	(2018[14]), planned	CSTS or ATV evolution	Ariane V
Japan	Japan Aerospace Exploration Agency (JAXA)	...	...	(2020), planned	...	...
Iran	Iranian Space Agency (ISA)	faza navard (Persian: فضانورد)	...	(2020), planned	...	Shahab 6 or 7 OR Safir/Kavoshgar-?
Turkey	...	astronot, gökmen	...	(2020), planned	...	...
Malaysia[15]	Malaysian National Space Agency (MNSA)	...	...	(...), planned	...	...

Safety concerns

See also: Space habitat

See also: Human adaptation to space

Planners of human spaceflight missions face a number of safety concerns.

Life support

Main article: Life support system

The immediate needs for breathable air and drinkable water are addressed by the life support system of the spacecraft.

See also: Astronautical hygiene

Medical issues

Effects of Microgravity

See also: Weightlessness

Medical data from astronauts in low earth orbits for long periods, dating back to the 1970s, show several adverse effects of a microgravity environment: loss of bone density, decreased muscle strength and endurance, postural instability, and reductions in aerobic capacity. Over time these deconditioning effects can impair astronauts’ performance or increase their risk of injury.^[16]

Six months of being weightless in a spacecraft would greatly reduce the bone mass of the occupants. The bone mass loss would be so great, that if the spacecraft was traveling to Mars, the space travellers would collapse like a bag of bones upon arrival. ^{[citation needed]}

In a weightless environment, astronauts put almost no weight on the back muscles or leg muscles used for standing up. Those muscles then start to weaken and eventually get smaller. If there is an emergency at landing, the loss of muscles, and consequently the loss of strength can be a serious problem. Sometimes, astronauts can lose up to 25% of their muscle mass on long term flights. When they get back to ground, they will be considerably weakened and will be out of action for a while.

Astronauts experiencing weightlessness will often lose their orientation, get motion sickness, and lose their sense of direction as their bodies try to get used to a weightless environment. When they get back to Earth, or any other mass with gravity, they have to readjust to the gravity and may have problems standing up, focusing their gaze, walking and turning. Importantly, those body motor disturbances after changing from different gravities only get worse the longer the exposure to little gravity. These changes will affect operational activities including approach and landing, docking, remote manipulation, and emergencies that happen by landing. This is a big problem for mission success.

Radiation damage to the immune system

See also: Health threat from cosmic rays

Another thing is that extended space flight might slow down the body’s ability to protect itself against diseases. ^{[citation needed]} Some of the problems are a weakened immune system and the activation of dormant viruses in the body. Radiation can cause both short and long term consequences to the blood marrow stem cells which create the blood and immune systems. Because the interior of a spacecraft is so small, a weakened immune system and more active viruses in the body can lead to a fast spread of infection.

Isolation

When on long missions, astronauts will have to go through the isolation and confinement of a space environment. People isolated for a long time can go into all sorts of kinds of depression that can ruin the mission’s success. Not only do astronauts have to be almost totally isolated from the rest of the world, but they have virtually nowhere to move around. That can also cause some depression.

When on long missions, astronauts will not be able to quickly return to Earth if a medical emergency occurs. For example, a scientist working in the south pole found a lump in her breast and had to wait two months before a helicopter could come in. In space, even that is not an option. When a medical emergency happens, the astronauts have to rely on the crew and the computers to solve the problem.

Launch safety

See also: Space launch

See also: Pad abort test

Reentry safety

See also: Atmospheric reentry

Reliability

See also: Reliability engineering

References

1. Trips to the Moon by Lucian of Samosata,Project Gutenberg
2. Irwin, Robert (2003), The Arabian Nights: A Companion, Tauris Parke Paperbacks, p. 209, ISBN 1860649831
3. Pinault, David (1992), Story-Telling Techniques in the Arabian Nights, Brill Publishers, pp. 10–1, ISBN 9004095306
4. Geraldine McCaughrean, Rosamund Fowler (1999), One Thousand and One Arabian Nights, Oxford University Press, pp. 247–51, ISBN 0192750135
5. Academic Literature, Islam and Science Fiction
6. Richardson, Matthew (2001), The Halstead Treasury of Ancient Science Fiction, Rushcutters Bay, New South Wales: Halstead Press, ISBN 1875684646 (cf. "Once Upon a Time", Emerald City (85), September 2002, retrieved 2008-09-17)
7. Amazon.com: Rockets and jets,: Herbert Spencer Zim: Books
8. China's Ming dynasty astronaut
9. Arslan Terzioglu (2007), "The First Attempts of Flight, Automatic Machines, Submarines and Rocket Technology in Turkish History", in The Turks (ed. H. C. Guzel), pp. 804-810 [1]
10. Peter Bond, Obituary: Lt-Gen Kerim Kerimov, The Independent, 7 April 2003.
11. Siddiqi, Asif. Challenge To Apollo The Soviet Union and The Space Race, 1945-1974. NASA. p. 832.
12. "X-15 Hypersonic Research Program". NASA.
13. According to a press-release of Iraqi News Agency of December 5, 1989 about the first (and last) test of the Tammouz space launcher, Iraq intended to develop manned space facilities by the end of the century. These plans were put to an end by the Gulf War of 1991 and the economic hard times that followed.
14. Coppinger, Rob (2008-05-22). "Apollo-like capsule chosen for Crew Space Transportation System". Flight International. Reed Business Information. Retrieved 2008-08-12. {{cite news}}: Cite has empty unknown parameter: |coauthors= (help)
15. in 2006 Malaysia proposed the joint space program of islamic world with development of independent manned space facilities
16. "Exploration Systems Human Research Program - Exercise Countermeasures". NASA.

See also

• Astronaut
• Astronautical hygiene
• Atmospheric reentry
• Human adaptation to space
• Human versus robotic spaceflight
• Interplanetary travel
• Monkeys in space
• Space and survival
• Space colonization
• Space exploration
• Space tourism
• Spaceflight records
• SpaceShipOne
• Timeline of space travel by nationality
• Timeline of first orbital launches by country
• X-15 program

Lists

• List of astronauts by name
• List of human spaceflights
• List of human spaceflights by program
• List of manned spacecraft
• List of space agencies
• List of space disasters
• List of spacewalks

External links

• NASA Human Space Flight
• Official Constellation NASA Web Site
• Official Orion NASA Web Site
• Official Ares NASA Web Site
• Human Spaceflight Profile by NASA's Solar System Exploration
• Transitioning to the NASA Constellation Program
• U.S. Spaceflight History