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NASA Media: Mediaarchive.ksc.nasa.gov - Nasaimages.org / 2
Shuttle Missions: www.nasa.gov/missions/schedule - Spaceflightsystems




- Astronaut Stephen K. Robinson, STS-114 mission specialist, anchored to a foot restraint on the International Space Station's Canadarm2, participates in the mission's third session of extravehicular activity August 3, 2005. The blackness of space and Earth's horizon form the backdrop for the image.


NASA turns 50: www.yeeyan.com

- Sharon Christa McAuliffe received a preview of microgravity during a special flight aboard NASA's KC-135 "zero gravity" aircraft.


More Information at:
> Space Shuttle Statistics > Space Shuttle Facts > NASA's Launch Schedule
> Shuttle Reference Manual > Space Shuttle Archives > NASA's Orbiter Fleet

jpl.nasa.gov

Moonbeams Shine on Einstein, Galileo and Newton
by Jet Propulsion Laboratory, March 04, 2005




- The lunar laser reflector is seen on the left behind Apollo astronaut Buzz Aldrin. » ILRS Information: Lunar Reflectors


Thirty-five years after Moon-walking astronauts placed special reflectors on the lunar surface, scientists have used these devices to test Albert Einstein's general theory of relativity to unprecedented accuracy. The findings, which also confirm theories from Galileo Galilei and Isaac Newton, may help to explain physical laws of the universe and benefit future space missions.

"Our research with the Lunar Laser Ranging experiment probes the equivalence principle, a foundation of Einstein's general theory of relativity, with extreme accuracy," said Dr. James Williams, a research scientist at NASA's Jet Propulsion Laboratory, Pasadena, Calif. Galileo established this principle in 1604 when he dropped objects of various weights and composition from Italy's Leaning Tower of Pisa. All the objects were affected equally by gravity, so they fell at the same rate.

Newton published a supporting explanation in 1687 in his Principia, and Einstein extended the principle nearly 100 years ago. Einstein's premise, called the strong equivalence principle, holds that all forms of matter accelerate at the same rate in response to gravity. This principle became a foundation of Einstein's general theory of relativity. The Lunar Laser Ranging experiment confirms that the Moon and Earth "fall toward" the Sun at the same rate, even though Earth has a large iron core below its rocky mantle, while the Moon is mostly rocky with a much smaller core.


- A cube-corner array of the type deployed by Apollo 11. - Related germ. News


The findings by Williams and Drs. Slava Turyshev and Dale Boggs, also of JPL, have been published in the Physical Review Letters. "Lunar laser ranging can conduct very accurate tests of gravity and fundamental physics," said Williams, who pointed out that small variations in gravity are difficult to study because the force is weak, unless very large masses are used. The new results of this experiment provide a bonanza for modern physics. "An important property of gravity is its universal effect on massive objects, despite their size and composition. This is why, as we understand more about gravity in the solar system, we learn a lot about gravitational and cosmological processes in the entire universe," said Turyshev.

"In addition to providing the most accurate test yet of the strong equivalence principle, our experiment also limits any possible changes in Newton's gravitational constant," said Turyshev. The gravitational constant deals with the attraction between objects in space, and some theories suggest that this attraction would change over time. If so, the general theory of relativity would need modification. "This latest research shows no evidence of such a change. Both findings -- about the strong equivalence principle and the gravitational constant -- boost Einstein's theory," added Turyshev.


- One of the Laser Ranging Retro-Reflector in place on the Moon. (more)


Great strides have been made over the past decade in refining the theories of Einstein, Galileo and Newton. The latest findings are twice as accurate as any previous results on the strong equivalence principle, and 10 times as accurate as anything previously published on the variation of Newton's gravitational constant The JPL team tested the theories by beaming laser pulses to four Moon reflectors from McDonald Observatory in western Texas, and an observatory in southern France. The lunar reflectors bounced the laser beams straight back to Earth, where the roundtrip travel time was measured. Three of the reflectors were installed by the Apollo 11, 14 and 15 astronauts, and one built by France was carried on the unmanned Soviet Lunokhod 2 rover.

The current Moon reflectors require no power and still work perfectly after 35 years. As NASA pursues the vision of taking humans back to the Moon, and eventually to Mars and beyond, new, more precise laser ranging devices could be placed first on the Moon and then on Mars. To guide a spacecraft to a precise location on the Moon and to navigate trips on its surface, the Moon's orbit, rotation and orientation must be accurately known. Lunar laser ranging measurements are helping future human and robotic missions to the Moon.


Apollo 40th Anniversary

More information about the research is available online at:
General Relativity and Quantum Cosmology: http://arxiv.org/abs/gr-qc/0411113
or the Web site of Jet Propulsion Laboratory: http://funphysics.jpl.nasa.gov/physics/index.html.

» The Moon-rocks


Moon-based lasers could uncover exotic physics - NewScientist.com
- NASA is funding the development of lasers that could be placed on the Moon to check for subtle deviations from the standard theory of gravity. Lasers have been used to make very precise measurements of the Earth-Moon distance since the Apollo era, when astronauts left reflectors at three sites on the lunar surface. A fourth reflecting device is attached to a robotic lunar lander launched by the former Soviet Union.


» Union-Tribune: Shooting the moon

- Laser light aimed at reflectors left on the lunar surface could pinpoint distance from Earth - and test Albert Einstein's theory


To pin down the Moon's distance, scientists bounce light from Earth-based lasers off of these reflectors and measure how long it takes to return. Because the Moon's motion is governed by gravity, such studies can be used to test whether Einstein's general theory of relativity gives an accurate description of this motion. Some speculative theories of cosmology, such as one inspired by string theory that involves exotic particles called dilatons, predict deviations from general relativity.

Other theories predict that the gravitational constant (G), which measures the basic strength of gravity, is not constant at all, but varies with time. These deviations are predicted to be very subtle, so more precise measurements are needed to either detect them or rule them out. But making the measurements precise enough is a challenge. That is because the laser loses strength both on the way to the Moon and on the return journey, resulting in an extremely weak signal. Continued...


» Web: Photos

JPL: Apollo 11 Experiment Still Going Strong after 35 Years
- In the few hours that Aldrin and Armstrong were on the Moon, there was little time to set up scientific experiments, but a small package (the EASEP, or Early Apollo Scientific Experiments Package) was deployed. Aldrin is shown here setting up the Passive Seismic Experiments Package. Back to the left is the Laser Ranging Retro-Reflector. More extensive scientific studies were done on later Apollo missions. (NASA photo) (more...)

» NASA Apollo mission lunar surface journals (Apollo 11/14/15)
» Info and Videos: Mythbusters tackle the moon landing conspiracy, busting several of the "evidences" that Moon landing was a hoax
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Natal Microcosm
"In the quest to better understand the birth of stars and the formation of new worlds, astronomers have used NASA's Spitzer Space Telescope to examine the massive stars contained in a cloudy region called Sharpless 140. This cloud is a star-forming microcosm that exhibits, within a relatively small area, all of the classic manifestations of stellar birth. Sharpless 140 lies almost 3,000 light-years from Earth in the constellation Cepheus. At its heart is a cluster of three deeply embedded young stars, which are each several thousand times brighter than the sun." (more)

Newscientist.com

Why the universe may be teeming with aliens
by David Shiga, 19 November 2008


Similar stories at N.S. Astrobiology Topic Guide


WANTED: Rocky planet outside of our solar system. Must not be too hot or too cold, but just the right temperature to support life.

It sounds like a simple enough wish list, but finding a planet that fulfils all of these criteria has kept astronomers busy for decades. Until recently, it meant finding a planet in the "Goldilocks zone" - orbiting its star at just the right distance to keep surface water liquid rather than being boiled off or frozen solid.

Now, though, it's becoming increasingly clear that the question of what makes a planet habitable is not as simple as finding it in just the right spot. Many other factors, including a planet's mass, atmosphere, composition and the way it orbits its nearest star, can all influence whether it can sustain liquid water, an essential ingredient for life as we know it. As astronomers explore newly discovered planets and create computer simulations of virtual worlds, they are discovering that water, and life, might exist on all manner of weird worlds where conditions are very different from those on Earth. And that means there could be vastly more habitable planets out there than we thought possible. "It's like science fiction, only better," says Raymond Pierrehumbert, a climate scientist at the University of Chicago, who studies planets inside and outside of our solar system.

Distance from the nearest star is, of course, important. In our own solar system, Venus has long served as an example of what can happen if a planet gets too close to its star. Venus is only 28 per cent closer to the sun than Earth is, but its surface is a sweltering 460 °C, hot enough to melt lead, and it chokes under a thick carbon dioxide atmosphere 90 times the density of Earth's. Put Earth where Venus is and it would probably end up looking rather similar. The extra solar radiation would increase evaporation from the oceans, boosting the amount of water vapour in the atmosphere. As water vapour is a greenhouse gas, this increase would set off a vicious cycle, with higher temperatures triggering more evaporation, until the planet's surface was hot enough to boil away the oceans. At the other extreme, water on a planet that is too far from its star will simply freeze, like on Mars. However, in 1993 a study by James Kasting of Pennsylvania State University, University Park, demonstrated that even in our own solar system, the habitable zone is not based on distance alone. In a calculation based onthe sun's current brightness,

Kasting worked out that while moving Earth just 5 per cent closer to the sun would doom it to the same fate as Venus, it could move almost 1.7 times its current distance from the sun before it would freeze (Icarus, vol 101, p 108). This outer limit is interesting because it is beyond the orbit of Mars, whose orbit has a radius about 1.5 times that of Earth. So if Mars is in our solar system's Goldilocks zone, why isn't it teeming with life? The answer lies in how a planet's mass affects its ability to hold on to a habitable atmosphere. On Earth, the carbon cycle works as a kind of thermostat that keeps the climate liveable. Volcanic activity releases CO2, which warms the Earth's surface via the greenhouse effect, increasing evaporation and rain. The rain erodes carbon-containing minerals from rocks, washing them into the sea. Eventually, these minerals are pulled deep into the Earth in subduction zones.

This balance between emitting and sequestering CO2 has helped keep the Earth's climate stable for the past 4 billion years. Mars, though, is only half the size of Earth, so its interior cooled quickly, shutting down the volcanic activity needed to supply CO2 to the atmosphere. Its weaker gravity also allows its atmosphere to drift away into space. As a result, there is too little CO2 in the Martian atmosphere to warm its surface enough to sustain liquid water. This has probably been the case for much of the past few billion years. Mass, however, is not the only factor. In a series of computer simulations published earlier this year, David Spiegel of Princeton University explored whether factors such as a planet's spin axis or speed of rotation could allow a planet outside of the habitable zone to hold onto liquid water long enough to sustain life (The Astrophysical Journal, vol 681, p 1609).

"I've been kind of twisting the knobs so that they're different from Earth, but they all have the same mass as Earth," says Spiegel, who was at Columbia University in New York when he carried out the work. In some simulations, the team altered the tilt of the planet's spin axis. Earth's axis is tilted 23.5 degrees relative to the plane of its orbit, which is why each hemisphere has longer periods of sunlight during summer and shorter ones during winter. When they gave planets a tilt of 90 degrees, similar to that of the gas giant Uranus in our own solar system, the much larger variations in illumination led to more extreme seasons. Continued...
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Top 10: Controversial pieces of evidence for extraterrestrial life

New Scientist

Galactic recluse has friends after all
By Maggie McKee, 21 November 2008




- The core of the dwarf galaxy NGC 1569 glitters with stars (Image: NASA/ESA/Hubble Heritage/STScI/AURA/A Aloisi)


An apparently isolated galaxy whose frenetic rate of star birth had puzzled astronomers actually lies 1.5 times as far away as previously thought, a new study reveals. The new distance measurement suggests the galaxy may be falling into a crowd of about 10 other galaxies, whose gravitational tugs could explain its stellar baby boom.

Ground-based telescopes had previously gauged the distance to the dwarf galaxy, called NGC 1569, to be about 7 million light years from Earth. At that distance, the galaxy appeared to lie in a region of space devoid of other galaxies. Most such galactic loners tend to evolve slowly, eking out stars at a relatively modest rate because they lack neighbours whose gravitational tugs can trigger the galaxies' own gas clouds to collapse into stars. Continued...

Space.gsl

Second spacewalk ends on station's 10th birthday
By New Scientist and Reuters, 21 Nov. 2008


» Shuttle News

- Anchored to a Canadarm2 mobile foot restraint, astronaut Heidemarie Stefanyshyn-Piper, participates in the mission's first session of extravehicular activity as construction and maintenance continue on the Space Station. - Nov 18, (Photo Credit: NASA)


Shuttle Endeavour astronauts working outside the orbiting International Space Station faced glitches during a second spacewalk on Thursday, as one astronaut experienced high carbon-dioxide levels. Lead spacewalker Heidemarie Stefanyshyn-Piper and rookie astronaut Shane Kimbrough returned to the space station's Quest airlock at 0043 GMT after a 6-hour, 45-minute outing. The astronauts' main job was to work on one of the space station's two rotary joints, which are needed to pivot solar wing panels to face the Sun for power.

The astronauts had to share grease guns and other tools after Stefanyshyn-Piper's tool kit, which contained $100,000 worth of gear, floated away on Tuesday. During Thursday's spacewalk, levels of carbon dioxide levels in Kimbrough's space suit rose above NASA's safety limit, prompting controllers to order him back to the airlock just as the spacewalk was ending. "It didn't represent a drastic change to our plan," said John Ray, NASA's lead spacewalk officer. Kimbrough was not in any danger and did not report any adverse symptoms, Ray said. Continued...
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The Space Shuttle


The US Space Shuttle was the world's first reusable spacecraft. It was first conceived during the years of the Apollo lunar program and was intended to service space stations, lower the costs of space travel and make access to the moon and beyond more routine. After numerous delays, the first of five orbiters, Columbia, lifted off on 12 April 1981.

The shuttle is comprised of three components: the orbiter (the aeroplane-like crew- and cargo-carrying craft that most people think of as the shuttle); a large external tank (ET) that holds the liquid oxygen and liquid hydrogen fuel; and two solid rocket boosters (SRBs) packed with powdered aluminium and rubber fuel. The SRBs provide 6 million pounds of thrust at takeoff, before being jettisoned to parachute into the ocean, where they are recovered for re-use. The ET is jettisoned soon after, and burns up during atmospheric re-entry. For many people, the shuttle's recent missions, which were focused mainly on assembly of the International Space Station (ISS), had become routine. (more)
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(high res.)


» Space Shuttle Slideshow » Daylife Endeavour Coverage » Shanghai Daily Gallery
» NASA Space Shuttle Launch Archive » NASA Index of shuttle technology images » NASA Index of shuttle

- Nov 18: Astronaut Steve Bowen participates in the session of extravehicular activity (EVA) as construction and maintenance continue on the Space Station. During the six-hour, 52-minute spacewalk, (The ISS flies in 90 minutes around Earth) Bowen and astronaut Heidemarie Stefanyshyn-Piper (out of frame), worked to clean and lubricate part of the station's starboard Solar Alpha Rotary Joints (SARJ) and to remove two of SARJ's 12 trundle bearing assemblies. More: ISS Mission Report

- Nov 18. Astronaut's Heidemarie Stefanyshyn-Piper tool bag drifts away from the International Space Station during the mission's first scheduled spacewalk. As she was cleaning the inside of the bag, it drifted away from her and toward the aft and starboard portion of the Space Station. Inside the bag were two grease guns, scrapers, several wipes and tethers and some tool caddies. Credit: NASA - ISS Mission Coverage ..

Video: NASA Live recording of Heidi's toolbag drifting away in space
News Coverage: Astronaut Heidi's toolbag seen from Earth floating away - The $100,000 bag of tools...

- Nov 18: Astronaut Steve Bowen participates in the mission's 1. session of extravehicular activity as construction and maintenance continue on the International Space Station. Credit: NASA

- Nov 18: Interior view of the Leonardo Multi-Purpose Logistics Module attached to the Earth-facing port of the Space Station's Harmony node. Leonardo was moved from Space Shuttle Endeavour's cargo bay and linked to the station on Nov. 17, carrying two water recovery systems racks for recycling urine into potable water, a second toilet system, new gallery components, two new food warmers, a food refrigerator, an experiment freezer, combustion science experiment rack, two separate sleeping quarters and a resistance exercise device that allows station crewmembers to perform a variety of exercises. Credit: NASA





New Scientist: Shuttle astronauts deliver space station's new gear
New Scientist: Water recycler and beds installed on space station
NASA: Recycling Water is not Just for Earth Anymore
Official Space News Blog: www.floridatoday.com/blogs/space/index.shtml

» NASA TV: Live from the ISS » Click RealPlayer / 2 / 3


- Nov 18: Attired in their spacesuits, astronauts Heidemarie Stefanyshyn-Piper (right) and Steve Bowen are pictured in the Quest Airlock of the ISS as the mission's first session of extravehicular activity draws to a close. Astronauts Chris Ferguson (foreground, center), STS-126 commander, and Greg Chamitoff assist with the doffing of the spacesuits. Credit: NASA

- Nov. 21: After completing a spacewalk on Thursday, Endeavour and International Space Station crew members will work today on getting ready for another spacewalk on Saturday, transferring material between the station and the shuttle and other tasks. Endeavour crew members were awakened at 8:05 a.m. CST. The music was for Heidemarie Stefanyshyn-Piper who speaks 4 languages. The song was in the Ukrainian language, which she learned as a child. It was 'Unharness Your Horses, Boys,' a traditional song about Cossacks performed by 'The Ukrainians.' (more...)

- Nov 20: Astronaut Shane Kimbrough participates in the mission's second scheduled session of extravehicular activity as construction and maintenance continue on the Space Station. During the six-hour, 45-minute spacewalk, Kimbrough and astronaut Heidemarie Stefanyshyn-Piper (out of frame), mission specialist, continued the process of removing debris and applying lubrication around the starboard Solar Alpha Rotary Joint (SARJ), replaced four more of the SARJ's 12 trundle bearing assemblies, relocated two equipment carts and applied lubrication to the station's robotic Canadarm2. Credit: NASA

- Nov 20: Astronauts Heidemarie Stefanyshyn-Piper (left) and Shane Kimbrough participate in the mission's second scheduled session of extravehicular activity (EVA) as construction and maintenance continue on the International Space Station.




http://www.space.gs/08/sts-126/19-nov-2008-2.html - http://www.space.gs/08/sts-126/19-nov-2008-enose.html - Endeavour crew mission articles