ⓘ Outer space, or simply space, is the expanse that exists beyond the Earth and between celestial bodies. Outer space is not completely empty - it is a hard vacuu ..


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Outer space

ⓘ Outer space

Outer space, or simply space, is the expanse that exists beyond the Earth and between celestial bodies. Outer space is not completely empty - it is a hard vacuum containing a low density of particles, predominantly a plasma of hydrogen and helium, as well as electromagnetic radiation, magnetic fields, neutrinos, dust, and cosmic rays. The baseline temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins. The plasma between galaxies accounts for about half of the baryonic matter in the universe; it has a number density of less than one hydrogen atom per cubic metre and a temperature of millions of kelvins. Local concentrations of matter have condensed into stars and galaxies. Studies indicate that 90% of the mass in most galaxies is in an unknown form, called dark matter, which interacts with other matter through gravitational but not electromagnetic forces. Observations suggest that the majority of the mass-energy in the observable universe is dark energy, a type of vacuum energy that is poorly understood. Intergalactic space takes up most of the volume of the universe, but even galaxies and star systems consist almost entirely of empty space.

Outer space does not begin at a definite altitude above the Earths surface. However, the Karman line, an altitude of 100 km 62 mi above sea level, is conventionally used as the start of outer space in space treaties and for aerospace records keeping. The framework for international space law was established by the Outer Space Treaty, which entered into force on 10 October 1967. This treaty precludes any claims of national sovereignty and permits all states to freely explore outer space. Despite the drafting of UN resolutions for the peaceful uses of outer space, anti-satellite weapons have been tested in Earth orbit.

Humans began the physical exploration of space during the 20th century with the advent of high-altitude balloon flights. This was followed by manned rocket flights and, then, manned Earth orbit, first achieved by Yuri Gagarin of the Soviet Union in 1961. Due to the high cost of getting into space, manned spaceflight has been limited to low Earth orbit and the Moon. On the other hand, unmanned spacecraft have reached all of the known planets in the Solar System.

Outer space represents a challenging environment for human exploration because of the hazards of vacuum and radiation. Microgravity also has a negative effect on human physiology that causes both muscle atrophy and bone loss. In addition to these health and environmental issues, the economic cost of putting objects, including humans, into space is very high.


1. Discovery

In 350 BCE, Greek philosopher Aristotle suggested that nature abhors a vacuum, a principle that became known as the horror vacui. This concept built upon a 5th-century BCE ontological argument by the Greek philosopher Parmenides, who denied the possible existence of a void in space. Based on this idea that a vacuum could not exist, in the West it was widely held for many centuries that space could not be empty. As late as the 17th century, the French philosopher Rene Descartes argued that the entirety of space must be filled.

In ancient China, the 2nd-century astronomer Zhang Heng became convinced that space must be infinite, extending well beyond the mechanism that supported the Sun and the stars. The surviving books of the Hsuan Yeh school said that the heavens were boundless, "empty and void of substance". Likewise, the "sun, moon, and the company of stars float in the empty space, moving or standing still".

The Italian scientist Galileo Galilei knew that air had mass and so was subject to gravity. In 1640, he demonstrated that an established force resisted the formation of a vacuum. However, it would remain for his pupil Evangelista Torricelli to create an apparatus that would produce a partial vacuum in 1643. This experiment resulted in the first mercury barometer and created a scientific sensation in Europe. The French mathematician Blaise Pascal reasoned that if the column of mercury was supported by air, then the column ought to be shorter at higher altitude where the air pressure is lower. In 1648, his brother-in-law, Florin Perier, repeated the experiment on the Puy de Dome mountain in central France and found that the column was shorter by three inches. This decrease in pressure was further demonstrated by carrying a half-full balloon up a mountain and watching it gradually expand, then contract upon descent.

In 1650, German scientist Otto von Guericke constructed the first vacuum pump: a device that would further refute the principle of horror vacui. He correctly noted that the atmosphere of the Earth surrounds the planet like a shell, with the density gradually declining with altitude. He concluded that there must be a vacuum between the Earth and the Moon.

Back in the 15th century, German theologian Nicolaus Cusanus speculated that the Universe lacked a center and a circumference. He believed that the Universe, while not infinite, could not be held as finite as it lacked any bounds within which it could be contained. These ideas led to speculations as to the infinite dimension of space by the Italian philosopher Giordano Bruno in the 16th century. He extended the Copernican heliocentric cosmology to the concept of an infinite Universe filled with a substance he called aether, which did not resist the motion of heavenly bodies. English philosopher William Gilbert arrived at a similar conclusion, arguing that the stars are visible to us only because they are surrounded by a thin aether or a void. This concept of an aether originated with ancient Greek philosophers, including Aristotle, who conceived of it as the medium through which the heavenly bodies move.

The concept of a Universe filled with a luminiferous aether retained support among some scientists until the early 20th century. This form of aether was viewed as the medium through which light could propagate. In 1887, the Michelson–Morley experiment tried to detect the Earths motion through this medium by looking for changes in the speed of light depending on the direction of the planets motion. However, the null result indicated something was wrong with the concept. The idea of the luminiferous aether was then abandoned. It was replaced by Albert Einsteins theory of special relativity, which holds that the speed of light in a vacuum is a fixed constant, independent of the observers motion or frame of reference.

The first professional astronomer to support the concept of an infinite Universe was the Englishman Thomas Digges in 1576. But the scale of the Universe remained unknown until the first successful measurement of the distance to a nearby star in 1838 by the German astronomer Friedrich Bessel. He showed that the star 61 Cygni had a parallax of just 0.31 arcseconds compared to the modern value of 0.287″. This corresponds to a distance of over 10 light years. In 1917, Heber Curtis noted that novae in spiral nebulae were, on average, 10 magnitudes fainter than galactic novae, suggesting that the former are 100 times further away. The distance to the Andromeda Galaxy was determined in 1923 by American astronomer Edwin Hubble by measuring the brightness of cepheid variables in that galaxy, a new technique discovered by Henrietta Leavitt. This established that the Andromeda galaxy, and by extension all galaxies, lay well outside the Milky Way.

The modern concept of outer space is based on the "Big Bang" cosmology, first proposed in 1931 by the Belgian physicist Georges Lemaitre. This theory holds that the universe originated from a very dense form that has since undergone continuous expansion.

The earliest known estimate of the temperature of outer space was by the Swiss physicist Charles E. Guillaume in 1896. Using the estimated radiation of the background stars, he concluded that space must be heated to a temperature of 5–6 K. British physicist Arthur Eddington made a similar calculation to derive a temperature of 3.18 K in 1926. German physicist Erich Regener used the total measured energy of cosmic rays to estimate an intergalactic temperature of 2.8 K in 1933. American physicists Ralph Alpher and Robert Herman predicted 5 K for the temperature of space in 1948, based on the gradual decrease in background energy following the then-new Big Bang theory. The modern measurement of the cosmic microwave background is about 2.7K.

The term outward space was used in 1842 by the English poet Lady Emmeline Stuart-Wortley in her poem "The Maiden of Moscow". The expression outer space was used as an astronomical term by Alexander von Humboldt in 1845. It was later popularized in the writings of H. G. Wells in 1901. The shorter term space is older, first used to mean the region beyond Earths sky in John Miltons Paradise Lost in 1667.


2. Formation and state

According to the Big Bang theory, the very early Universe was an extremely hot and dense state about 13.8 billion years ago which rapidly expanded. About 380.000 years later the Universe had cooled sufficiently to allow protons and electrons to combine and form hydrogen - the so-called recombination epoch. When this happened, matter and energy became decoupled, allowing photons to travel freely through the continually expanding space. Matter that remained following the initial expansion has since undergone gravitational collapse to create stars, galaxies and other astronomical objects, leaving behind a deep vacuum that forms what is now called outer space. As light has a finite velocity, this theory also constrains the size of the directly observable universe. This leaves open the question as to whether the Universe is finite or infinite.

The present day shape of the universe has been determined from measurements of the cosmic microwave background using satellites like the Wilkinson Microwave Anisotropy Probe. These observations indicate that the spatial geometry of the observable universe is "flat", meaning that photons on parallel paths at one point remain parallel as they travel through space to the limit of the observable universe, except for local gravity. The flat Universe, combined with the measured mass density of the Universe and the accelerating expansion of the Universe, indicates that space has a non-zero vacuum energy, which is called dark energy.

Estimates put the average energy density of the present day Universe at the equivalent of 5.9 protons per cubic meter, including dark energy, dark matter, and baryonic matter ordinary matter composed of atoms. The atoms account for only 4.6% of the total energy density, or a density of one proton per four cubic meters. The density of the Universe, however, is clearly not uniform; it ranges from relatively high density in galaxies - including very high density in structures within galaxies, such as planets, stars, and black holes - to conditions in vast voids that have much lower density, at least in terms of visible matter. Unlike matter and dark matter, dark energy seems not to be concentrated in galaxies: although dark energy may account for a majority of the mass-energy in the Universe, dark energys influence is 5 orders of magnitude smaller than the influence of gravity from matter and dark matter within the Milky Way.


3. Environment

Outer space is the closest known approximation to a perfect vacuum. It has effectively no friction, allowing stars, planets, and moons to move freely along their ideal orbits, following the initial formation stage. However, even the deep vacuum of intergalactic space is not devoid of matter, as it contains a few hydrogen atoms per cubic meter. By comparison, the air humans breathe contains about 10 25 molecules per cubic meter. The low density of matter in outer space means that electromagnetic radiation can travel great distances without being scattered: the mean free path of a photon in intergalactic space is about 10 23 km, or 10 billion light years. In spite of this, extinction, which is the absorption and scattering of photons by dust and gas, is an important factor in galactic and intergalactic astronomy.

Stars, planets, and moons retain their atmospheres by gravitational attraction. Atmospheres have no clearly delineated upper boundary: the density of atmospheric gas gradually decreases with distance from the object until it becomes indistinguishable from outer space. The Earths atmospheric pressure drops to about 0.032 Pa at 100 kilometres 62 miles of altitude, compared to 100.000 Pa for the International Union of Pure and Applied Chemistry IUPAC definition of standard pressure. Above this altitude, isotropic gas pressure rapidly becomes insignificant when compared to radiation pressure from the Sun and the dynamic pressure of the solar wind. The thermosphere in this range has large gradients of pressure, temperature and composition, and varies greatly due to space weather.

The temperature of outer space is measured in terms of the kinetic activity of the gas, as it is on Earth. However, the radiation of outer space has a different temperature than the kinetic temperature of the gas, meaning that the gas and radiation are not in thermodynamic equilibrium. All of the observable universe is filled with photons that were created during the Big Bang, which is known as the cosmic microwave background radiation CMB. There is quite likely a correspondingly large number of neutrinos called the cosmic neutrino background. The current black body temperature of the background radiation is about 3 K −270 °C; −454 °F. The gas temperatures in outer space are always at least the temperature of the CMB but can be much higher. For example, the corona of the Sun reaches temperatures over 1.2–2.6 million K.

Magnetic fields have been detected in the space around just about every class of celestial object. Star formation in spiral galaxies can generate small-scale dynamos, creating turbulent magnetic field strengths of around 5–10 μG. The Davis–Greenstein effect causes elongated dust grains to align themselves with a galaxys magnetic field, resulting in weak optical polarization. This has been used to show ordered magnetic fields exist in several nearby galaxies. Magneto-hydrodynamic processes in active elliptical galaxies produce their characteristic jets and radio lobes. Non-thermal radio sources have been detected even among the most distant, high-z sources, indicating the presence of magnetic fields.

Outside a protective atmosphere and magnetic field, there are few obstacles to the passage through space of energetic subatomic particles known as cosmic rays. These particles have energies ranging from about 10 6 eV up to an extreme 10 20 eV of ultra-high-energy cosmic rays. The peak flux of cosmic rays occurs at energies of about 10 9 eV, with approximately 87% protons, 12% helium nuclei and 1% heavier nuclei. In the high energy range, the flux of electrons is only about 1% of that of protons. Cosmic rays can damage electronic components and pose a health threat to space travelers. According to astronauts, like Don Pettit, space has a burned/metallic odor that clings to their suits and equipment, similar to the scent of an arc welding torch.


4. Regions

Space is a partial vacuum: its different regions are defined by the various atmospheres and "winds" that dominate within them, and extend to the point at which those winds give way to those beyond. Geospace extends from Earths atmosphere to the outer reaches of Earths magnetic field, whereupon it gives way to the solar wind of interplanetary space. Interplanetary space extends to the heliopause, whereupon the solar wind gives way to the winds of the interstellar medium. Interstellar space then continues to the edges of the galaxy, where it fades into the intergalactic void.


4.1. Regions Geospace

Geospace is the region of outer space near Earth, including the upper atmosphere and magnetosphere. The Van Allen radiation belts lie within the geospace. The outer boundary of geospace is the magnetopause, which forms an interface between the Earths magnetosphere and the solar wind. The inner boundary is the ionosphere. The variable space-weather conditions of geospace are affected by the behavior of the Sun and the solar wind; the subject of geospace is interlinked with heliophysics - the study of the Sun and its impact on the planets of the Solar System.

The day-side magnetopause is compressed by solar-wind pressure - the subsolar distance from the center of the Earth is typically 10 Earth radii. On the night side, the solar wind stretches the magnetosphere to form a magnetotail that sometimes extends out to more than 100–200 Earth radii. For roughly four days of each month, the lunar surface is shielded from the solar wind as the Moon passes through the magnetotail.

Geospace is populated by electrically charged particles at very low densities, the motions of which are controlled by the Earths magnetic field. These plasmas form a medium from which storm-like disturbances powered by the solar wind can drive electrical currents into the Earths upper atmosphere. Geomagnetic storms can disturb two regions of geospace, the radiation belts and the ionosphere. These storms increase fluxes of energetic electrons that can permanently damage satellite electronics, interfering with shortwave radio communication and GPS location and timing. Magnetic storms can also be a hazard to astronauts, even in low Earth orbit. They also create aurorae seen at high latitudes in an oval surrounding the geomagnetic poles.

Although it meets the definition of outer space, the atmospheric density within the first few hundred kilometers above the Karman line is still sufficient to produce significant drag on satellites. This region contains material left over from previous manned and unmanned launches that are a potential hazard to spacecraft. Some of this debris re-enters Earths atmosphere periodically.


4.2. Regions Cislunar space

Earths gravity keeps the Moon in orbit at an average distance of 384.403 km 238.857 mi. The region outside Earths atmosphere and extending out to just beyond the Moons orbit, including the Lagrangian points, is sometimes referred to as cislunar space.

The region of space where Earths gravity remains dominant against gravitational perturbations from the Sun is called the Hill sphere. This extends well out into translunar space to a distance of roughly 1% of the mean distance from Earth to the Sun, or 1.5 million km 0.93 million mi.

Deep space has different definitions as to where it starts. It has been defined by the United States government and others as any region beyond cislunar space. The International Telecommunication Union responsible for radio communication including satellites defines the beginning of deep space at about 5 times that distance 2 × 10 6 km.


4.3. Regions Interplanetary space

Interplanetary space is defined by the solar wind, a continuous stream of charged particles emanating from the Sun that creates a very tenuous atmosphere the heliosphere for billions of kilometers into space. This wind has a particle density of 5–10 protons/cm 3 and is moving at a velocity of 350–400 km/s 780.000–890.000 mph. Interplanetary space extends out to the heliopause where the influence of the galactic environment starts to dominate over the magnetic field and particle flux from the Sun. The distance and strength of the heliopause varies depending on the activity level of the solar wind. The heliopause in turn deflects away low-energy galactic cosmic rays, with this modulation effect peaking during solar maximum.

The volume of interplanetary space is a nearly total vacuum, with a mean free path of about one astronomical unit at the orbital distance of the Earth. However, this space is not completely empty, and is sparsely filled with cosmic rays, which include ionized atomic nuclei and various subatomic particles. There is also gas, plasma and dust, small meteors, and several dozen types of organic molecules discovered to date by microwave spectroscopy. A cloud of interplanetary dust is visible at night as a faint band called the zodiacal light.

Interplanetary space contains the magnetic field generated by the Sun. There are also magnetospheres generated by planets such as Jupiter, Saturn, Mercury and the Earth that have their own magnetic fields. These are shaped by the influence of the solar wind into the approximation of a teardrop shape, with the long tail extending outward behind the planet. These magnetic fields can trap particles from the solar wind and other sources, creating belts of charged particles such as the Van Allen radiation belts. Planets without magnetic fields, such as Mars, have their atmospheres gradually eroded by the solar wind.


4.4. Regions Interstellar space

Interstellar space is the physical space within a galaxy beyond the influence each star has upon the encompassed plasma. The contents of interstellar space are called the interstellar medium. Approximately 70% of the mass of the interstellar medium consists of lone hydrogen atoms; most of the remainder consists of helium atoms. This is enriched with trace amounts of heavier atoms formed through stellar nucleosynthesis. These atoms are ejected into the interstellar medium by stellar winds or when evolved stars begin to shed their outer envelopes such as during the formation of a planetary nebula. The cataclysmic explosion of a supernova generates an expanding shock wave consisting of ejected materials that further enrich the medium. The density of matter in the interstellar medium can vary considerably: the average is around 10 6 particles per m 3, but cold molecular clouds can hold 10 8 –10 12 per m 3.

A number of molecules exist in interstellar space, as can tiny 0.1 μm dust particles. The tally of molecules discovered through radio astronomy is steadily increasing at the rate of about four new species per year. Large regions of higher density matter known as molecular clouds allow chemical reactions to occur, including the formation of organic polyatomic species. Much of this chemistry is driven by collisions. Energetic cosmic rays penetrate the cold, dense clouds and ionize hydrogen and helium, resulting, for example, in the trihydrogen cation. An ionized helium atom can then split relatively abundant carbon monoxide to produce ionized carbon, which in turn can lead to organic chemical reactions.

The local interstellar medium is a region of space within 100 parsecs pc of the Sun, which is of interest both for its proximity and for its interaction with the Solar System. This volume nearly coincides with a region of space known as the Local Bubble, which is characterized by a lack of dense, cold clouds. It forms a cavity in the Orion Arm of the Milky Way galaxy, with dense molecular clouds lying along the borders, such as those in the constellations of Ophiuchus and Taurus. The actual distance to the border of this cavity varies from 60 to 250 pc or more. This volume contains about 10 4 –10 5 stars and the local interstellar gas counterbalances the astrospheres that surround these stars, with the volume of each sphere varying depending on the local density of the interstellar medium. The Local Bubble contains dozens of warm interstellar clouds with temperatures of up to 7.000 K and radii of 0.5–5 pc.

When stars are moving at sufficiently high peculiar velocities, their astrospheres can generate bow shocks as they collide with the interstellar medium. For decades it was assumed that the Sun had a bow shock. In 2012, data from Interstellar Boundary Explorer IBEX and NASAs Voyager probes showed that the Suns bow shock does not exist. Instead, these authors argue that a subsonic bow wave defines the transition from the solar wind flow to the interstellar medium. A bow shock is the third boundary of an astrosphere after the termination shock and the astropause called the heliopause in the Solar System.


4.5. Regions Intergalactic space

Intergalactic space is the physical space between galaxies. Studies of the large scale distribution of galaxies show that the Universe has a foam-like structure, with groups and clusters of galaxies lying along filaments that occupy about a tenth of the total space. The remainder forms huge voids that are mostly empty of galaxies. Typically, a void spans a distance of 10–40 h −1 Mpc, where h is the Hubble constant in units of 100 km s −1 Mpc −1.

Surrounding and stretching between galaxies, there is a rarefied plasma that is organized in a galactic filamentary structure. This material is called the intergalactic medium IGM. The density of the IGM is 5–200 times the average density of the Universe. It consists mostly of ionized hydrogen; i.e. a plasma consisting of equal numbers of electrons and protons. gas falls into the intergalactic medium from the voids, it heats up to temperatures of 10 5 K to 10 7 K, which is high enough so that collisions between atoms have enough energy to cause the bound electrons to escape from the hydrogen nuclei; this is why the IGM is ionized. At these temperatures, it is called the warm–hot intergalactic medium WHIM. Although the plasma is very hot by terrestrial standards, 10 5 K is often called "warm" in astrophysics. Computer simulations and observations indicate that up to half of the atomic matter in the Universe might exist in this warm–hot, rarefied state. When gas falls from the filamentary structures of the WHIM into the galaxy clusters at the intersections of the cosmic filaments, it can heat up even more, reaching temperatures of 10 8 K and above in the so-called intracluster medium ICM.


5. Earth orbit

A spacecraft enters orbit when its centripetal acceleration due to gravity is less than or equal to the centrifugal acceleration due to the horizontal component of its velocity. For a low Earth orbit, this velocity is about 7.800 m/s 28.100 km/h; 17.400 mph; by contrast, the fastest manned airplane speed ever achieved excluding speeds achieved by deorbiting spacecraft was 2.200 m/s 7.900 km/h; 4.900 mph in 1967 by the North American X-15.

To achieve an orbit, a spacecraft must travel faster than a sub-orbital spaceflight. The energy required to reach Earth orbital velocity at an altitude of 600 km 370 mi is about 36 MJ/kg, which is six times the energy needed merely to climb to the corresponding altitude. Spacecraft with a perigee below about 2.000 km 1.200 mi are subject to drag from the Earths atmosphere, which decreases the orbital altitude. The rate of orbital decay depends on the satellites cross-sectional area and mass, as well as variations in the air density of the upper atmosphere. Below about 300 km 190 mi, decay becomes more rapid with lifetimes measured in days. Once a satellite descends to 180 km 110 mi, it has only hours before it vaporizes in the atmosphere. The escape velocity required to pull free of Earths gravitational field altogether and move into interplanetary space is about 11.200 m/s 40.300 km/h; 25.100 mph.


6. Boundary

There is no clear boundary between Earths atmosphere and space, as the density of the atmosphere gradually decreases as the altitude increases. There are several standard boundary designations, namely:

  • The Federation Aeronautique Internationale has established the Karman line at an altitude of 100 km 62 mi as a working definition for the boundary between aeronautics and astronautics. This is used because at an altitude of about 100 km 62 mi, as Theodore von Karman calculated, a vehicle would have to travel faster than orbital velocity to derive sufficient aerodynamic lift from the atmosphere to support itself.
  • NASAs Space Shuttle used 400.000 feet 76 mi, 122 km as its re-entry altitude termed the Entry Interface, which roughly marks the boundary where atmospheric drag becomes noticeable, thus beginning the process of switching from steering with thrusters to maneuvering with aerodynamic control surfaces.
  • The United States designates people who travel above an altitude of 50 miles 80 km as astronauts.

In 2009, scientists reported detailed measurements with a Supra-Thermal Ion Imager an instrument that measures the direction and speed of ions, which allowed them to establish a boundary at 118 km 73 mi above Earth. The boundary represents the midpoint of a gradual transition over tens of kilometers from the relatively gentle winds of the Earths atmosphere to the more violent flows of charged particles in space, which can reach speeds well over 268 m/s 600 mph.


7. Legal status

The Outer Space Treaty provides the basic framework for international space law. It covers the legal use of outer space by nation states, and includes in its definition of outer space the Moon and other celestial bodies. The treaty states that outer space is free for all nation states to explore and is not subject to claims of national sovereignty. It also prohibits the deployment of nuclear weapons in outer space. The treaty was passed by the United Nations General Assembly in 1963 and signed in 1967 by the USSR, the United States of America and the United Kingdom. As of 2017, 105 state parties have either ratified or acceded to the treaty. An additional 25 states signed the treaty, without ratifying it.

Since 1958, outer space has been the subject of multiple United Nations resolutions. Of these, more than 50 have been concerning the international co-operation in the peaceful uses of outer space and preventing an arms race in space. Four additional space law treaties have been negotiated and drafted by the UNs Committee on the Peaceful Uses of Outer Space. Still, there remains no legal prohibition against deploying conventional weapons in space, and anti-satellite weapons have been successfully tested by the US, USSR, China, and in 2019, India The 1979 Moon Treaty turned the jurisdiction of all heavenly bodies including the orbits around such bodies over to the international community. However, this treaty has not been ratified by any nation that currently practices manned spaceflight.

In 1976, eight equatorial states met in Bogota, Colombia. With their "Declaration of the First Meeting of Equatorial Countries", or "the Bogota Declaration", they claimed control of the segment of the geosynchronous orbital path corresponding to each country. These claims are not internationally accepted.


8. Exploration and applications

For the majority of human history, space was explored by observations made from the Earths surface - initially with the unaided eye and then with the telescope. Prior to the advent of reliable rocket technology, the closest that humans had come to reaching outer space was through the use of balloon flights. In 1935, the U.S. Explorer II manned balloon flight reached an altitude of 22 km 14 mi. This was greatly exceeded in 1942 when the third launch of the German A-4 rocket climbed to an altitude of about 80 km 50 mi. In 1957, the unmanned satellite Sputnik 1 was launched by a Russian R-7 rocket, achieving Earth orbit at an altitude of 215–939 kilometres 134–583 mi. This was followed by the first human spaceflight in 1961, when Yuri Gagarin was sent into orbit on Vostok 1. The first humans to escape low-Earth orbit were Frank Borman, Jim Lovell and William Anders in 1968 on board the U.S. Apollo 8, which achieved lunar orbit and reached a maximum distance of 377.349 km 234.474 mi from the Earth.

The first spacecraft to reach escape velocity was the Soviet Luna 1, which performed a fly-by of the Moon in 1959. In 1961, Venera 1 became the first planetary probe. It revealed the presence of the solar wind and performed the first fly-by of Venus, although contact was lost before reaching Venus. The first successful planetary mission was the 1962 fly-by of Venus by Mariner 2. The first fly-by of Mars was by Mariner 4 in 1964. Since that time, unmanned spacecraft have successfully examined each of the Solar Systems planets, as well their moons and many minor planets and comets. They remain a fundamental tool for the exploration of outer space, as well as observation of the Earth. In August 2012, Voyager 1 became the first man-made object to leave the Solar System and enter interstellar space.

The absence of air makes outer space an ideal location for astronomy at all wavelengths of the electromagnetic spectrum. This is evidenced by the spectacular pictures sent back by the Hubble Space Telescope, allowing light from more than 13 billion years ago - almost to the time of the Big Bang - to be observed. However, not every location in space is ideal for a telescope. The interplanetary zodiacal dust emits a diffuse near-infrared radiation that can mask the emission of faint sources such as extrasolar planets. Moving an infrared telescope out past the dust increases its effectiveness. Likewise, a site like the Daedalus crater on the far side of the Moon could shield a radio telescope from the radio frequency interference that hampers Earth-based observations.

Unmanned spacecraft in Earth orbit are an essential technology of modern civilization. They allow direct monitoring of weather conditions, relay long-range communications like television, provide a means of precise navigation, and allow remote sensing of the Earth. The latter role serves a wide variety of purposes, including tracking soil moisture for agriculture, prediction of water outflow from seasonal snow packs, detection of diseases in plants and trees, and surveillance of military activities.

The deep vacuum of space could make it an attractive environment for certain industrial processes, such as those requiring ultraclean surfaces. However, like asteroid mining, space manufacturing requires significant investment with little prospect of immediate return. An important factor in the total expense is the high cost of placing mass into Earth orbit: $8.000–25.000 per kg in inflation-adjusted dollars, according to a 2006 estimate. Proposed concepts for addressing this issue include non-rocket spacelaunch, momentum exchange tethers, and space elevators.

Interstellar travel for a human crew remains at present only a theoretical possibility. The distances to the nearest stars will require new technological developments and the ability to safely sustain crews for journeys lasting several decades. For example, the Daedalus Project study, which proposed a spacecraft powered by the fusion of Deuterium and He 3, would require 36 years to reach the nearby Alpha Centauri system. Other proposed interstellar propulsion systems include light sails, ramjets, and beam-powered propulsion. More advanced propulsion systems could use antimatter as a fuel, potentially reaching relativistic velocities.


9. Effect on biology and human bodies

Despite the harsh environment, several life forms have been found that can withstand extreme space conditions for extended periods. Species of lichen carried on the ESA BIOPAN facility survived exposure for ten days in 2007. Seeds of Arabidopsis thaliana and Nicotiana tabacum germinated after being exposed to space for 1.5 years. A strain of bacillus subtilis has survived 559 days when exposed to low-Earth orbit or a simulated martian environment. The lithopanspermia hypothesis suggests that rocks ejected into outer space from life-harboring planets may successfully transport life forms to another habitable world. A conjecture is that just such a scenario occurred early in the history of the Solar System, with potentially microorganism-bearing rocks being exchanged between Venus, Earth, and Mars.

Even at relatively low altitudes in the Earths atmosphere, conditions are hostile to the human body. The altitude where atmospheric pressure matches the vapor pressure of water at the temperature of the human body is called the Armstrong line, named after American physician Harry G. Armstrong. It is located at an altitude of around 19.14 km 11.89 mi. At or above the Armstrong line, fluids in the throat and lungs boil away. More specifically, exposed bodily liquids such as saliva, tears, and liquids in the lungs boil away. Hence, at this altitude, human survival requires a pressure suit, or a pressurized capsule.

Out in space, sudden exposure of an unprotected human to very low pressure, such as during a rapid decompression, can cause pulmonary barotrauma - a rupture of the lungs, due to the large pressure differential between inside and outside the chest. Even if the subjects airway is fully open, the flow of air through the windpipe may be too slow to prevent the rupture. Rapid decompression can rupture eardrums and sinuses, bruising and blood seep can occur in soft tissues, and shock can cause an increase in oxygen consumption that leads to hypoxia.

As a consequence of rapid decompression, oxygen dissolved in the blood empties into the lungs to try to equalize the partial pressure gradient. Once the deoxygenated blood arrives at the brain, humans lose consciousness after a few seconds and die of hypoxia within minutes. Blood and other body fluids boil when the pressure drops below 6.3 kPa, and this condition is called ebullism. The steam may bloat the body to twice its normal size and slow circulation, but tissues are elastic and porous enough to prevent rupture. Ebullism is slowed by the pressure containment of blood vessels, so some blood remains liquid. Swelling and ebullism can be reduced by containment in a pressure suit. The Crew Altitude Protection Suit CAPS, a fitted elastic garment designed in the 1960s for astronauts, prevents ebullism at pressures as low as 2 kPa. Supplemental oxygen is needed at 8 km 5.0 mi to provide enough oxygen for breathing and to prevent water loss, while above 20 km 12 mi pressure suits are essential to prevent ebullism. Most space suits use around 30–39 kPa of pure oxygen, about the same as on the Earths surface. This pressure is high enough to prevent ebullism, but evaporation of nitrogen dissolved in the blood could still cause decompression sickness and gas embolisms if not managed.

Humans evolved for life in Earth gravity, and exposure to weightlessness has been shown to have deleterious effects on human health. Initially, more than 50% of astronauts experience space motion sickness. This can cause nausea and vomiting, vertigo, headaches, lethargy, and overall malaise. The duration of space sickness varies, but it typically lasts for 1–3 days, after which the body adjusts to the new environment. Longer-term exposure to weightlessness results in muscle atrophy and deterioration of the skeleton, or spaceflight osteopenia. These effects can be minimized through a regimen of exercise. Other effects include fluid redistribution, slowing of the cardiovascular system, decreased production of red blood cells, balance disorders, and a weakening of the immune system. Lesser symptoms include loss of body mass, nasal congestion, sleep disturbance, and puffiness of the face.

For long-duration space travel, radiation can pose an acute health hazard. Exposure to high-energy, ionizing cosmic rays can result in fatigue, nausea, vomiting, as well as damage to the immune system and changes to the white blood cell count. Over longer durations, symptoms include an increased risk of cancer, plus damage to the eyes, nervous system, lungs and the gastrointestinal tract. On a round-trip Mars mission lasting three years, a large fraction of the cells in an astronauts body would be traversed and potentially damaged by high energy nuclei. The energy of such particles is significantly diminished by the shielding provided by the walls of a spacecraft and can be further diminished by water containers and other barriers. However, the impact of the cosmic rays upon the shielding produces additional radiation that can affect the crew. Further research is needed to assess the radiation hazards and determine suitable countermeasures.

  • The Outer Space Treaty, formally the Treaty on Principles Governing the Activities of States in the Exploration and Use of Outer Space including the Moon
  • Plan 9 from Outer Space is a 1959 American independent science - fiction horror film written, produced, directed and edited by Ed Wood, starring Gregory
  • Gayniggers from Outer Space is a 1992 blaxploitation short film, directed by Danish performance artist Morten Lindberg. The film is a parody of the science
  • The United Nations Office for Outer Space Affairs UNOOSA is a part of the United Nations Secretariat, located at the United Nations Office in Vienna
  • Homeboys in Outer Space is an American science fiction fantasy sitcom that aired on UPN from August 27, 1996 to May 13, 1997. The series stars comedian
  • Killer Klowns from Outer Space is a 1988 American science fiction horror comedy film written, directed and produced by the Chiodo Brothers, and starring
  • Play media Teenagers from Outer Space a.k.a. The Gargon Terror UK title The Boy from Outer Space and originally titled The Ray Gun Terror is a 1959
  • Samurai from Outer Space Understanding Japanese Animation is a 1998 book written by Antonia Levi. The book was published in North America by Open Court
  • The United Nations Committee on the Peaceful Uses of Outer Space COPUOS was established in 1958 shortly after the launch of Sputnik as an ad hoc committee
  • Outer space comprises the relatively empty regions of the universe outside the atmospheres of celestial bodies. Outer space may also refer to: Outer Space
  • The X from Outer Space 宇宙大怪獣ギララ, Uchū Daikaijū Girara, lit. Giant Space Monster Guilala is a 1967 Japanese science fiction kaiju film that was directed
  • Battle in Outer Space 宇宙大戦争, Uchū Daisensō is a 1959 Japanese science fiction film produced by Toho Studios. Directed by Ishirō Honda and featuring
  • It Came from Outer Space is a 1953 American black - and - white science fiction horror film, the first in the 3D process from Universal - International and
  • The Inner Reaches of Outer Space is a 1986 book by mythologist Joseph Campbell, the last book completed before his death in 1987. In it, he explores the
  • The Cat from Outer Space is a 1978 American science fiction comedy film starring Ken Berry, Sandy Duncan, Harry Morgan, Ronnie Schell, Roddy McDowall
  • Fire Maidens from Outer Space 1956 released in the United States as Fire Maidens of Outer Space is an 80 - minute black - and - white science fiction feature
  • The politics of outer space includes space treaties, law in space international cooperation and conflict in space exploration, and the hypothetical political
  • Jose Chung s From Outer Space is the 20th episode of the third season of the science fiction television series The X - Files. The episode first aired
  • Morons from Outer Space is a 1985 British comedy - science fiction film directed by Mike Hodges and starring Griff Rhys Jones, Mel Smith, Joanne Pearce
  • Bloodsuckers from Outer Space is a 1984 American science fiction black comedy horror film written and directed by Glen Coburn. It stars Thom Meyers, Dennis
  • Leonard Nimoy Presents Mr. Spock s Music From Outer Space is the debut album of Leonard Nimoy, recorded in character as Mr. Spock. It was released in
  • Night Caller from Outer Space also known as simply The Night Caller or Blood Beast from Outer Space is a British 1965 science fiction film directed by
  • Plan 9 from Outer Space is a point and click adventure game developed by Gremlin Graphics at their Irish development office for the Amiga and Atari ST
  • It Came From Outer Space was a 2003 publication of four versions of Ray Bradbury s screen treatments written in 1952 for the movie of the same name that
  • Barney in Outer Space is a Barney Friends home video. It features an array of traditional children s songs and school songs. When Barney sees a new
  • Inner Crail To Outer Space is the third studio album by King Creosote, released in 1998. For The Last Time - Hello Dressing Up As Girls Camels Swapped
  • Psychopathics from Outer Space is a compilation album featuring Insane Clown Posse, Twiztid, Blaze Ya Dead Homie, Psychopathic Rydas, Ice - T, and Myzery
  • Flying Saucers from Outer Space Holt, 1953 is a non - fiction book by Donald Keyhoe about unidentified flying objects, aka UFOs. In 1956 a science - fiction
  • Space - Men a.k.a. Assignment: Outer Space in the United States is a 1960 Italian science fiction film directed by Antonio Margheriti. The film stars
  • Evil Brain from Outer Space is a 1964 film edited together for American television from films 7, 8 and 9 of the 1957 1958 Japanese Super Giant film

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NASA Astronaut Anne McClain Accused by Spouse of Crime in Space.

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Outer space noun definition and synonyms Macmillan Dictionary.

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29 Aug 2019 Recent allegations of criminal wrongdoing by an astronaut on a computer network from space suggests that how U.S. law applies to citizens. Comet is an interstellar visitor from outer space with a familiar look. In the experiment PROTECT Resistance of spacecraft isolates to outer space for planetary protection purposes, we selected as an assay system two. Virgin Galactic. 28 Sep 2019 Going underground in Slovenia to prepare for outer space. by Bojan Kavcic. The team spent six full days underground. In Slovenias. Xploration Outer Space Xploration Station. Instructions. The astronauts have left and Space Station Seven is in chaos! Our hero Linus a genetically modified rat has knowledge of chemistry and a. Placing Outer Space Duke University Press. If youve ever longed to travel in space, or stepped outside on a starry night and felt at home, we invite you to consider one of the following memorial spaceflight.

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Put on your moon boots and experience an action packed demonstration exploring the obstacles and challenges of a journey to space. Outer Space Coders: Home. Measuring Economic Growth from Outer Space, American Economic Review, American Economic Association, vol. 102 2, pages 994 1028, April. citation. Could you be charged on Earth for killing someone in outer space. 4 Oct 2019 Outer space definition is space immediately outside the earths atmosphere broadly interplanetary or interstellar space. How to use outer. Outer Space 1999 IMDb. THE OUTER SPACE. IMMERSIVE ART. The valley of the unbroken horizon will be fully transformed by our Installation Artists and Projectionists, whose hands. The Outer Space Treaty at a Glance Arms Control Association. In Placing Outer Space Lisa Messeri traces how the place making practices of planetary scientists transform the void of space into a cosmos filled with worlds. Destination Outer Space Science Museum of Minnesota. No matter how far youve traveled in the world, youve really remained in one place in the eyes.

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Outer Space Definition of Outer Space by Merriam Webster.

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Meteor characteristics.

Title Machine translation of domain specific Semantic Scholar. A meteorite was a mass of stone or metal that reached a planetary surface from outer space. entering a planetary atmosphere and surviving impact on the planets surface did it take on the term meteorite for purposes of disambiguation. Meteor speed. TAUS USER CONFERENCE 2010, Whats on the horizon? The. For other uses, see Asteroid disambiguation. The large majority of known asteroids orbit in the asteroid belt between the orbits of Mars and. and related organic molecules may have been formed on asteroids and comets in outer space. Types of meteor. Meteoroid pedia ConceptMap. A meteorite is a solid piece of debris from an object, such as a comet, asteroid, or meteoroid, that originates in outer space and from space that survives impact with the ground. For other uses of Meteorite, see Meteorite disambiguation.

Asteroids facts.

10 Things You Need to Know about Asteroids Time and Date. 2 Oct 2019 The Near Earth Object Surveillance Mission will be NASAs first space telescope dedicated to finding potentially hazardous asteroids. It builds. Types of asteroids. NASA Has Spotted A Giant Apollo Asteroid, The Most Dangerous. The space economy fueled by asteroid mining wont just generate untold wealth it will make Earths environment greener. Asteroid mining. The Asteroid Peril Isnt Science Fiction WSJ. Minerals can be mined from an asteroid or spent comet and then used in space for construction material or can be taken back to earth. These resources or raw. Comets. MY ASTEROID IS BLOWING UP! NPR. 24 Nov 2018 Mining asteroids for either the minerals they contain or the water they hold isnt some outlandish fantasy. In an interview three years ago,.


20 Amazing Pictures from Outer Space, by James Adams DailyGood. Apr 30, 2018 Outer space, in contrast, is minimally decorated: asteroids, stars, planets, galaxies. Big picture stuff. We know the Earth is round or, at least,. Other planets. Overview Planets – NASA Solar System Exploration. Design and fabrication challenges of space drones, existing methods for their flight tests, different methods for deployment and planet entry, and various. Most interesting planet. Planet Nine from outer space Kurzweil. Download the perfect planet pictures. Find over 100 of the best free planet images. Free for commercial use photo of outer space. Collect. photo of outer.

Comet orbit.

What is a comet?. Astronomical Society. Publishes the results of original research in astronomy and astrophysics, both observational and theoreti. Rosetta in space web Special Issue: Comets A New Vision After Rosetta and Philae. Read the latest free. Where are comets found. Comets and asteroids may be spreading life across the galaxy. Sep 24, 2019 The comet hasnt yet entered our solar system, but astronomers have been collecting data in hopes of plotting the objects path through space. Halleys comet. Rare interstellar comet 2I Borisov could be carrying water from. O There are some asteroids that are freely floating in space Dust grains from the comet get pushed away due to radiation pressure from. the Sun, so a tail is.

Astrophotography camera.

Everything A Beginner Need To Know About Astrophotography. 16 Jul 2018 The David Malin Awards is an astrophotography competition based in image from Luke Tscharke showing the Milky Way rising over a lake at night in NASA successfully tests James Webb Space Telescope sunshield. Dslr astrophotography without telescope. The First Surviving Photograph of the Moon: John Adams Whipple. Download the perfect astrophotography pictures. Find over 100 of the best free astrophotography images. Free for commercial Space Images Larry Tseng. Astrophotography setup. A Basic Deep Sky Setup for DSLR Astrophotography. 17 Sep 2014 Youll likely recall images of the space shuttle or International Space Station crossing the Sun or Moon, views of spy satellites in orbit, beautiful.

How big is outer space.

Space Latest episodes, latest news and updates about Euronews. In Placing Outer Space Lisa Messeri traces how the place making practices of planetary scientists transform the void of space into a cosmos filled with worlds. What is outer space made of. Ive breathed in some crazy things from outer space – Katie. Outer space, or simply space, is the expanse that exists beyond the Earth and between. The modern measurement of the cosmic microwave background is about 2.7K. The term outward space was used in 1842 by the English poet Lady.

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