New evidence points towards water on Moon

September 19, 2009 By Leave a Comment

London, September 19 (ANI): Two separate lunar missions have found evidence which indicates that the polar regions of the moon are chock full of water-altered minerals.

According to a report in Nature News, early results from NASA’s Lunar Reconnaissance Orbiter (LRO), launched on June 18, are offering a wide array of watery signals.

The Moon, in fact, has water in all sorts of places: not just locked up in minerals, but scattered throughout the broken-up surface, and, potentially, in blocks or sheets of ice at depth.

“We are on the verge of a renaissance in our thinking about the poles of the Moon, including how water ice gets there,” said Anthony Colaprete, principal investigator for the Lunar Crater Observation and Sensing Satellite (LCROSS), which on October 9, will slam into a polar crater with the intention of ploughing up a plume of water ice for many telescopic eyes to see.

The initial LRO results confirm what was long suspected as a way for ice to stay trapped on the Moon for billions of years.

A thermal mapping instrument showed that permanently shadowed regions within deep polar craters are as cold as 35o Kelvin (-238o Celsius).

Project scientist Richard Vondrak said that they are the coldest spots in the Solar System – even colder than the surface of Pluto.

Variations in the flux of neutrons suggests variability in water content among craters.

But, the surprise comes from a different instrument on LRO, which counts slow-moving neutrons as a way of measuring hydrogen abundance in the top metre or so of the surface.

This hydrogen is often interpreted as a proxy for water ice, although it could also be molecular hydrogen or hydrogen trapped in other molecules.

The LRO instrument has already found a significant excess of hydrogen at the poles.

But, with added resolution, it is seeing surprising variability within the polar regions. Some of the craters appear enriched in hydrogen. Others are not.

Stranger still, some areas outside the crater walls, which were thought to get too hot for water to linger, show an excess of hydrogen.

Vondrak said this shows that the water could have arrived more recently, or that it can persist if buried as impacts till the lunar soil.

If the LCROSS impact spews up ice, it will eliminate the last vestiges of doubt about water on the Moon.

It could also start a new hunt: to find a record of impact events, such as water-rich comet strikes, that put the ice there in the first place. (ANI)

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New evidence points towards water on Moon

September 19, 2009 By Leave a Comment

London, September 19 (ANI): Two separate lunar missions have found evidence which indicates that the polar regions of the moon are chock full of water-altered minerals.

According to a report in Nature News, early results from NASA’s Lunar Reconnaissance Orbiter (LRO), launched on June 18, are offering a wide array of watery signals.

The Moon, in fact, has water in all sorts of places: not just locked up in minerals, but scattered throughout the broken-up surface, and, potentially, in blocks or sheets of ice at depth.

“We are on the verge of a renaissance in our thinking about the poles of the Moon, including how water ice gets there,” said Anthony Colaprete, principal investigator for the Lunar Crater Observation and Sensing Satellite (LCROSS), which on October 9, will slam into a polar crater with the intention of ploughing up a plume of water ice for many telescopic eyes to see.

The initial LRO results confirm what was long suspected as a way for ice to stay trapped on the Moon for billions of years.

A thermal mapping instrument showed that permanently shadowed regions within deep polar craters are as cold as 35o Kelvin (-238o Celsius).

Project scientist Richard Vondrak said that they are the coldest spots in the Solar System – even colder than the surface of Pluto.

Variations in the flux of neutrons suggests variability in water content among craters.

But, the surprise comes from a different instrument on LRO, which counts slow-moving neutrons as a way of measuring hydrogen abundance in the top metre or so of the surface.

This hydrogen is often interpreted as a proxy for water ice, although it could also be molecular hydrogen or hydrogen trapped in other molecules.

The LRO instrument has already found a significant excess of hydrogen at the poles.

But, with added resolution, it is seeing surprising variability within the polar regions. Some of the craters appear enriched in hydrogen. Others are not.

Stranger still, some areas outside the crater walls, which were thought to get too hot for water to linger, show an excess of hydrogen.

Vondrak said this shows that the water could have arrived more recently, or that it can persist if buried as impacts till the lunar soil.

If the LCROSS impact spews up ice, it will eliminate the last vestiges of doubt about water on the Moon.

It could also start a new hunt: to find a record of impact events, such as water-rich comet strikes, that put the ice there in the first place. (ANI)

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”Moon rock’ given to Holland by Armstrong, Aldrin just ‘petrified wood’

August 29, 2009 By Leave a Comment

London, Aug 29 (ANI): A piece of rock from the moon which Apollo 11 astronauts Neil Armstrong and Edwin “Buzz” Aldrin had gifted to Holland is claimed to be fake.

Curators at Amsterdam’s Rijksmuseum say that the “lunar rock”, valued at 308,000 pounds, is in fact just a petrified wood.

“It’s a good story, with some questions that are still unanswered. We can laugh about it,” the Telegraph quoted Xandra van Gelder, who oversaw the investigation as saying.

In fact, researchers at Amsterdam’s Free University knew it wasn’t moon rock at the first look. They say that their speculation was later confirmed by tests.

Frank Beunk, a geologist involved in the investigation: “It’s a nondescript, pretty-much-worthless stone.”

Now, the United States Embassy in The Hague is carrying out an investigation into the affair.

Armstrong, Michael Collins and Aldrin had given the rock to Willem Drees, a former Dutch leader, during a global tour after their landing in moon almost 50 years ago.

It is one of the moon rocks given to more than 100 countries following lunar missions in 1969 and the 1970s.

Former American ambassador to the Netherlands J. William Middendorf had presented it to Drees, which was donated to the Rijksmuseum after his death in 1988.

Middendorf said: “I do remember that Drees was very interested in the little piece of stone. But that it’s not real, I don’t know anything about that.” (ANI)

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Scientists find first conclusive signature for uranium on Moon

June 30, 2009 By Leave a Comment

Washington, June 30 (ANI): A team of scientists has found the first conclusive signature for the presence of uranium on the lunar surface, an element not seen in previous Moon-mapping efforts.

The uranium signatures were detected by Robert C. Reedy, a senior scientist at the Tucson-based Planetary Science Institute, who is mapping the Moon’s surface elements using data gathered by an advanced gamma-ray spectrometer (GRS) that rode aboard the Japanese Kaguya spacecraft.

Kaguya was launched in September 2007 and crashed into the Moon at the end of its mission on June 10 of this year.

Earlier gamma-ray spectrometer maps from the Apollo and Lunar Prospector missions show a few of the Moon’s chemical elements.

But, the maps constructed by Reedy and the Kaguya GRS team, using data gathered by state-of-the-art, high-energy-resolution germanium detectors, are extending the earlier results and improving our understanding of the Moon’s surface composition.

In addition to uranium, the Kaguya GRS data also is showing clear signatures for thorium, potassium, oxygen, magnesium, silicon, calcium, titanium and iron.

Reedy and his colleagues are using measurements from the Kaguya lunar orbiter’s GRS to construct high-quality maps of as many chemical elements as possible.
We’ve already gotten uranium results, which have never been reported before,” Reedy said. “We’re getting more new elements and refining and confirming results found on the old maps,” he added.

Reedy’s continuing mapping work now is being funded for two years through NASA’s SALMON program (Stand-Alone Missions of Opportunity).

“All of the work being funded is considerably improving our knowledge of the Moon’s composition and its origin and evolution,” Reedy said.

It also will help scientists locate lunar resources and help with planning for future lunar missions, he added. (ANI)

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