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India Moon mission is 'mixed success'

India has abandoned its inaugural Moon mission, 10 months after it was launched. Science writer Pallava Bagla examines the mission's performance.
So was India's inaugural Chandrayaan-1 Moon mission a success or a failure?
Neither. By all accounts, it has been a mixed performance. Also, a definitive answer is not easy to give - it is possibly as grey as the surface of the Moon.
This was an expensive scientific experiment with many objectives and conducted in full public glare.
Most engineering goals have been fulfilled, but pious promises to deliver "good science" from the mission are still to be met.
Big achievement
India launched its $100m unmanned spacecraft on 22 October 2008 from Sriharikota on the coast of the Bay of Bengal.
First, the spacecraft designed and built by the Indian Space Research Organisation (Isro) survived huge odds and successfully reached the Moon's orbit.
This in itself was a big achievement since neither Russia nor America succeeded in their maiden attempts; and there were several failures even before they got anywhere near the Moon.
So did India ride on the shoulders of earlier successes?
Certainly not, since the know-how and technologies to go to the Moon are just not available for the asking. Each nation has to learn on its own. India experimented and did that with complete success.
The only other country to have managed a similar maiden feat was China - its mission Chang'e-1 in 2007 lasted 16 months in space, according to the Chinese National Space Administration.
The Indian mission survived for about 10 months in space; most other missions to the Moon have been much more short-lived.
So did the Indian space agency, in its naivety, over-stretch and over-estimate the craft's life when it planned for a 24-month mission?

The mission lasted 10 months in space
Possibly. The answer may emerge in the findings of the "failure analysis committee" that Isro has put in place after this debacle.
Despite being dubbed by Isro as an "engineering success", the mission had a rough ride around the Moon.
A fuel leak from the rocket almost aborted its lift-off. Within days of reaching the Moon, a power system failed, and a back-up system had to be activated.
Soon, the spacecraft started overheating due to the intense heat on the Moon. Isro scientists say it was deft mission management that saved it from a total burnout.
A few months into the mission the spacecraft lost its fine guidance system when the onboard "star sensor" packed up in the intense radiation around the Moon.
But, every time an instrument on this 1,380kg robot gave way, mission controllers at Isro found an innovative solution to keep the mission alive.
Finally on 29 August 2009, the space agency lost all contact with Chandrayaan after a catastrophic failure - possibly in its power supply system. A day later, the mission was "terminated", although Isro chief G Madhavan Nair declared it had been a "complete success".
'Two-in-one mission'
The Indian mission was in certain respects much more challenging than the Chinese maiden lunar mission which was a simple national orbiter.
Chandrayaan-1 was literally a two-in-one mission, since the main satellite was to orbit at 100km above the Moon and then a tiny gadget the size of a computer monitor was to attempt a "landing" on the Moon's surface.
The mission did this on 14 November 2008. No nation to date had succeeded in both a lunar orbiter and an impactor at the first attempt.

Mr Nair says the mission is a 'complete success' (Photo: Pallava Bagla)
This was more than an experiment. It was also a brave global geo-political statement since the probe that crash-landed on the Moon also permanently placed India's flag on the lunar surface.
India became the fourth space bloc to have done this after Russia, America and the European Space Agency.
This is hugely significant because, if ever the Moon's resources are to be divided, India's rightful share can be claimed having achieved what others have not been able to do.
There are many other firsts to this mission.
In a highly un-Indian trait, the Indian space agency delivered the Moon mission with no cost or time overrun at $100m and within eight years of it first being suggested.
The spacecraft carried 11 different sophisticated instruments, one of the largest suites of experiments ever carried to the Moon.
The objective was to remotely map the resources of the Moon, prepare a three-dimensional atlas of it and look for water.
All instruments worked for about 10 months in the hostile lunar environment. Dr Nair calls it a "more than 100% success of Indian technology".
India also created a new model of international partnership.

Chandrayaan peered into the deepest craters searching for water
On its own initiative, India announced that it would be happy to piggyback instruments from global partners.
After a huge competition, six instruments sourced from the European Space Agency (Esa), the National Aeronautics and Space Administration (Nasa) and Bulgaria were chosen.
Bernard Foing, the chief scientist for Space Sciences at Esa, calls the Indian mission "the first multi-continent, multi-country lunar mission ever to be undertaken".
A little known fact is that India did not charge any money to fly these instruments 400,000km away: all got a free ride to the Moon, merely in exchange for sharing the scientific data.
Search for water
Chandrayaan-1 was also the first and the most detailed search for water on the Moon using radars - to date, water has never been found.
A miniature American radar onboard the Chandrayaan peered into the Moon's deepest craters searching for "water ice".
The Moon's surface is so parched that scientists feel the only location where water could exist would be in the permanently shadowed craters on the lunar poles.
But these are so deep and dark that sunlight never reaches them - hence the only way to peep inside is to send a radar signal down into them.
The global collaborative team of the mission is very excited about the findings.
"Never seen before images of the permanently shadowed craters of the Moon have been captured," says Paul D Spudis, of the Lunar and Planetary Institute, Houston, US, and principal investigator of the payload sent to search for water.
"The new radar images are not only visually arresting, but they will be extremely useful in unravelling the complex geological history of the Moon as a whole," he says.
Other scientific reports on findings are in the offing. But unless the results are published, questions will continue to be asked about whether the mission fulfilled its exalted scientific objectives.
The termination of the Moon mission will, however, not affect India's plans in space.
The country is already planning a second mission to the Moon, Chandrayaan-2, with Russian collaboration in 2011-12; a mission to an asteroid; an unmanned mission to Mars in 2013 and a human spaceflight in 2015.
Upbeat Isro scientists are saying "Chandrayaan-1 is dead, long live Chandrayaan". The jury will be out - until the scientific papers come in.



BBC NEWS | South Asia | India Moon mission is 'mixed success'
 
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Chandrayaan confirms moon was once completely molten: Scientist
Chandrayaan confirms moon was once completely molten: Scientist- ET Cetera-News By Industry-News-The Economic Times

PANAJI: Chandrayaan's moon mineralogy mapper has confirmed the magma ocean hypothesis, meaning that the moon was once completely molten, a senior
scientist said Wednesday.

"It proves beyond doubt the magma ocean hypothesis. There is no other way this massive rock type could be formed," said Carle Pieters, science manager at the NASA-supported spectroscopy facility at Brown University in the US.

Pieters, who was in charge of the moon mineralogy mapper on Chandrayaan, was speaking to reporters on the sidelines of the Low Cost Planetary Mission Conference here.

Referring to the presence of anorthite, a calcium-rich iron-deficient layer on the upper crust of the lunar surface, she said this rose to the top as the moon eventually cooled down after a turbulent origin.

Pieters also said that the Chandrayaan mission, which has been abandoned after communication was lost with the satellite, had thrown up a couple of surprise findings, which included identification of a new rock type on the moon.

"All this new information helps us to understand better the history of the moon, which is already the model for all terrestrial planets," the scientist pointed out.

"The evaluation of the moon gives us an indication and an opportunity to study the early evolution of the planets," Pieters said, adding that missions like Chandrayaan would set the foundation for future lunar research and assist in the possible exploitation of mineral resources on the moon in the future.

"Although it is still early days, we are interested in learning about the mineral resources on the moon, which we could utilize in the long term," she maintained.
 
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Chandrayaan 2 Design Completed-Expected to be operational in the next two years

The Indian space program got another shot in the arm with the initial design phase of the Chandrayaan 2 being completed. While this is just the beginning of what is arguably India's most ambitious space project ever, the success of the design phase in itself is an achievement mainly because of its inherent complexity.
The Chandrayaan 2 mission will consist of a lunar rover that will be dropped on to the lunar surface once the craft reaches the lunar orbit. The main duty of the rover would be to collect and analyze lunar soil and transmit the data back to the data centers on earth. Pertinent to note here is the fact that while the spacecraft would be indigenously made, the lunar rover will be made by Russia.

The Chandrayaan 2 is expected to be operational in the next two years, after the life of the existing Chandrayaan 1 almost comes to an end. India had launched the Chandrayaan 1 in October 2008. Already a successful mission, it had been recently hit by a technical snag that jeopardized its operations. However, the Chandrayaan 1 has already accomplished 95 percent of the objectives assigned to it. Another thing to note is that the Chandrayaan 1 will augment the Lunar landing of the rover as the scientists are using data obtained from the Chandrayaan 1 to decide on the perfect landing schedule for the lunar rover.

Now that the design phase is over, we would be seeing a prototype of the Chandrayaan 2 soon. In the next two years, work on the spacecraft is expected to continue at a steady pace till the day of the launch.
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:yahoo::yahoo:


JAI HIND..
 

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Rover looks very different. Will tyre survive on the Moon is question.
 
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When is the new GSLV launch scheduled?...the one with the indigenous cryogenic engine.
 
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It is on 30th December 2013 (C-2). About test of GSLV III it is likely to be in 2010
 
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Is this a thread about the space capabilities of India?

What with the CCP,Taiwan , communism have to do with it?

Do you mean a democracy base on a caste system will benifit to

your space capabilities in the long run?

I don't think so.

Democracy+caste system=??....:smitten::pakistan::china:

A member of the forums believes that the US will warm up to China. iI was sharing my opinon on how far it is from reality. What does Caste System have anything to do with anything YOU just posted? Your baiting like a moron with now valid point. Democracy has to some extent given India good foriegn relations with other nations. A trait missing with China. India on her part recently paid for a launch to the moon with the instruments paid for by third parties interested in the research. Benifiting all, even India. The moon mission was pointless. There is no reason to be expoloring the moon at large costs as these right now. We are decades away from decent space technology. By "we", i mean humanity. Something has to be said about not having embargos on sensetive technology. Beats a lone bidder any day.
 
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ISRO plans to build two satellites for environment monitoring



BANGALORE: ISRO is planning to build two new satellites especially for environmental monitoring even as it is stepping up efforts to use its

assessment on agriculture conditions and weather to effectively help people on the ground in co-ordination with other government agencies.

"One (satellite) is mainly for studying aerosols and related things and another one for trace gases (carbon dioxide, carbon monoxide, nitric oxide and sulphur dioxide, among others)," Indian Space Research Organisation chairman G Madhavan Nair said.

He said the satellites are in line with what Union ministry of environment and forests wants. Nair recently had a discussion with Union minister of state Jairam Ramesh, who is now expected to submit a note to Prime Minister on the subject.

Nair said while Bangalore-headquartered ISRO would build these satellites, it would work with the Ministry to put together a competent team to analyse the data from the missions and study the climate change.

ISRO has done some "bits and pieces" of work on aerosols from observations from the ground and ship for specific time but now there is a need to consolidate and put them into operational mode.

ISRO plans to build two satellites for environment monitoring - India - NEWS - The Times of India
 
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Chandrayaan-I masterminds assemble in Bangalore for tech review

Chandrayaan-I masterminds assemble in Bangalore for tech review - India - NEWS - The Times of India

BANGALORE: Key scientists from the country and abroad, who designed the 11 payloads - scientific instruments - on board India's now-defunct

Chandrayaan-I moon mission spacecraft, will meet here tomorrow for a technical review.

Of the 11 payloads through which Chandrayaan-I intended to achieve its scientific objectives, five were designed and developed in India, three by European Space Agency, two were from the United States and one from Bulgaria.

"If some of them have got some preliminary findings, we will try to make an assessment," Chairman of Indian Space Research Organisation (ISRO), G Madhavan Nair said.

According to Bangalore-headquartered space agency, 95 per cent of the scientific objectives of Chandrayaan-I mission, the country's first effort at deep space exploration, have been completed.

ISRO had planned to take up the remaining work (five per cent) in the next season, starting in October, so that all observations could be completed.

But a week ago, the lunar mission, expected to last for two years, met with a premature end, in just over ten months, after radio communication with the craft was lost and all efforts to re-establish it failed.

Nair said, the foreign players, who flew their payloads, are satisfied with what they achieved. "They have got more than sufficient data with them. They are extremely happy," he said.
 
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Chandrayaan-I was 'killed' by heat stroke - India - NEWS - The Times of India

PANAJI: The reasons for early termination of the Chandrayaan-I mission are now tumbling out and they reveal that ISRO had kept the Moon
orbiter's problems tightly under wraps.

Contrary to the space agency's explanation that Chandrayaan's orbit around the Moon had been raised from 100km to 200km in May this year for a better view of the Moon's surface, it is now known that this was because of a miscalculation of the Moon's temperature that had led to faulty thermal protection.

Admitting this, Dr T K Alex, director, ISRO Satellite Centre, Bangalore, said, “We assumed that the temperature at 100km above the Moon's surface would be around 75 degrees Celsius. However, it was more than 75 degrees and problems started to surface. We had to raise the orbit to 200km."

On May 19, however, ISRO said it had raised Chandrayaan's orbit to "enable further studies on orbit perturbations, gravitational field variation of the Moon and also enable imaging of the lunar surface with a wider swath".

It now transpires that heating problems on the craft had begun as early as November 25, 2008, forcing ISRO to deactivate some of the payloads — there were 11 in all.

As a result, some of the experiments could not be carried out which raised questions on whether the pre-launch thermal vacuum test done on the spacecraft at the ISRO Satellite Centre in Bangalore was adequate.

In early 2009, the situation improved and Chandrayaan-1 started operating normally. However, the snags resurfaced. This time with the two star sensors of Chandrayaan because of high temperature. The sensors are crucial in determining the orientation of the craft in space.

The first star sensor packed up on April 26, and even the back-up sensor failed during the second week of May.

ISRO officials said scientists and engineers used ingenious ways to restore Chandrayaan-I by using gyroscopes. An official requesting anonymity acknowledged: "This was purely a temporary step. It was like a broken car's steering wheel being repaired with scotch tapes. We could not predict how long this arrangement would last," he admitted.

The official said much before the official announcement of the project's end on August 30, it had become clear that the two-year mission would be cut short since 95% of the scientific goals had been accomplished.

Despite the failure of the star sensors, Chandrayaan-1 transmitted excellent images including that of the solar eclipse on July 22. Also at 12.30am on August 21, it flew along with Nasa's Lunar Reconnaissance Orbiter (LRO) for four minutes to detect water ice in the north pole of the moon.

But worse was to follow. At 1.30am on August 29, communication with the spacecraft snapped all of a sudden. ISRO chairman Madhavan Nair has been quoted as saying that due to unforeseen radiation problems the two computers in the spacecraft controlling communication got affected resulting in the breakdown of communications. He has admitted that many of the heat-related problems were not anticipated at all, and it was definitely a learning experience.

"Keeping this in mind, Chandrayaan-2's thermal design will be strengthened to withstand more than 100 degrees Celsius," Alex told TOI on the sidelines of the recently concluded eighth international conference on low cost planetary mission conducted by the International Academy of Astronautics in Goa.

BARC is collaborating with ISRO to strengthen the radiation shield of Chandrayaan-2, slated for lift off in 2013 from Sriharikota. The average day temperature on the Moon's surface is 107 degrees Celsius, while the mean night temperature is -153 degree Celsius.

Although, ISRO claims that 95% of its planned experiments have been completed, it remains to be known whether payloads designed to operate at a 100-km orbit completed their missions. The issue has triggered a fierce debate on whether ISRO should have declared it a one-year mission right at the beginning rather than an ambitious two-year programme.

Among the experiments to be conducted from a 100km orbit were observations in the visible, near-infrared and soft and hard X-rays. Further, the Lunar Laser Ranging Instrument's objective was to provide ranging data for determining the height difference between the spacecraft and the lunar surface. Scientists admit that at an altitude of 200km, the return signal could be too weak for the purpose.

Chandrayaan's objectives also included orbiting around the Moon at a height of 100km for chemical, mineralogical and photo-geologic mapping of the surface and its X-ray spectrometer was to use X-rays to map the surface composition of the Moon and help scientists understand its origin and evolution, as well as quantifying the mineral resources that exist there.

The spacecraft's 11 scientific instruments were built in India, USA, UK, Germany, Sweden and Bulgaria. The mission was formally called off on August 30 by ISRO, which said that a failure analysis committee will probe into the matter. ISRO chairperson G Madhavan Nair also said US and European space agencies who had also taken part in the Indian space mission "were satisfied" with the results.
 
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ISRO plans to build two satellites for environment monitoring - India - NEWS - The Times of India

BANGALORE: ISRO is planning to build two new satellites especially for environmental monitoring even as it is stepping up efforts to use its
assessment on agriculture conditions and weather to effectively help people on the ground in co-ordination with other government agencies.

"One (satellite) is mainly for studying aerosols and related things and another one for trace gases (carbon dioxide, carbon monoxide, nitric oxide and sulphur dioxide, among others)," Indian Space Research Organisation chairman G Madhavan Nair said.

He said the satellites are in line with what Union ministry of environment and forests wants. Nair recently had a discussion with Union minister of state Jairam Ramesh, who is now expected to submit a note to Prime Minister on the subject.

Nair said while Bangalore-headquartered ISRO would build these satellites, it would work with the Ministry to put together a competent team to analyse the data from the missions and study the climate change.

ISRO has done some "bits and pieces" of work on aerosols from observations from the ground and ship for specific time but now there is a need to consolidate and put them into operational mode.
 
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Chandrayaan was a success: Mike Fincke

The Hindu , Front Page

Saturday, Sep 12, 2009



GUWAHATI: National Aeronautics and Space Administration (NASA) astronaut Edward Michael Fincke said on Friday the Chandrayaan Mission of the Indian Space Research Organisation (ISRO) was a success, with 95 per cent of the mission being accomplished.

Col. Fincke, popularly known as Mike Fincke, a veteran of two long-duration space missions aboard the International Space Station (ISS), said that though some people had raised speculation about the Chandrayaan Mission, the international scientific community felt the ISRO had accomplished its mission.

The astronaut — who has been selected by NASA as a mission specialist in the six- member crew for the Space Transportation System (STS)-134 for his third space flight in 2010 — was speaking to reporters on the penultimate day of his 12-day official visit to Assam and Meghalaya.

Col. Fincke’s visit and his interaction with students were facilitated by the Friends of Assam and Seven Sisters (FASS).

He interacted with students of the Indian Institute of Technology, Guwahati during the annual techno-management festival of IIT-G, Techniche 2009.

Summing up his experience of the visit, the astronaut said the people of the region were very kind and warm and the students and teachers incredibly capable and intelligent.

He said that on his return he would speak to NASA officials as to how different channels of communication could be opened for students from the northeast region to take part in space programmes.

Married to Renita Saikia, an Assamese engineer at NASA, Col. Fincke arrived to a grand welcome as Asomor Jowai (Assam’s son-in-law).

He also became popular with the new identity of ‘Mike Mama’ (maternal uncle) among the school students.


Space snack: NASA astronaut Edward Michael Fincke shows a Russian-made biscuit packet which was taken to space, to journalists in Guwahati on Friday.


Mike on his trip to india ,greeted by Assam CM

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