The Unsung Hero - Moon Impact Probe (Chandrayaan I) - First Anniversary of Moon Impact

Moon Impact Probe

The Moon Impact Probe (MIP) developed by the Indian Space Research Organisation (ISRO), India's national space agency, was a lunar probe that was released by ISRO's Chandrayaan-1 lunar remote sensing orbiter which in turn was launched, on 22 October, 2008, aboard a modified version of ISRO's Polar Satellite Launch Vehicle.

The Moon Impact Probe separated from the moon-orbiting Chandrayaan-1 on 14 November 2008, 20:06 and crashed, as planned, into the lunar south pole after a controlled descent.

The MIP struck the Shackleton Crater at 20:31 on 14 November 2008 releasing underground debris that could be analysed by the orbiter for presence of water ice.[1] With this mission, India became the fifth entity to reach the lunar surface. Other entities to have done so are the former Soviet Union, the United States, the European Space Agency (currently owned by 18 member nations) and Japan.[2]

Kalam's Vision
The probe was a product of former President Abdul Kalam's vision who felt that since the Chandrayaan orbiter was already going so near to the moon, the mission would have more scientific relevance if the probe was included. He believed that the moon could not be left to a few countries and that India should not be left behind. He suggested the probe to ISRO where it was supported enthusiastically.[2]

The inclusion of a flag on the probe led to confused media disccussion about India planting its flag. The Times of India also reported a political motive by former president Abdul Kalam as "He believed that if this was done, India could always stake a claim to a portion of the Moon."[2] At the same time, The Indian Express reported Kalam as saying "no nation can claim the moon as its own. The resources of the moon should be a common property and that is one of the aims of the moon mission."[4]

Mission objectives
The main objectives of the MIP were to demonstrate the technologies for reaching a specified location on the Moon, qualifying technologies required for any future soft landing missions, and scientific exploration of the moon from close range just prior to the impact.

The probe was designed to collide with the lunar surface and eject underground soil which could then be analysed by instruments on the orbiting Chandrayaan for the presence of water ice, and organic and other materials.

The MIP carried three instruments:

Radar Altimeter – which measured the altitude of the probe during descent and provided information on qualifying technologies for future landing missions. The operating frequency band was 4.3 GHz ± 100 MHz.
Video Imaging System – acquired close range images of the surface of the Moon during descent and before impact. The video imaging system consisted of an analog CCD camera.

Mass Spectrometer based payload CHACE – measured trace constituents of the lunar atmosphere during descent. This instrument was a quadrupole mass spectrometer with a mass resolution of 0.5 amu and sensitivities to partial pressures on the order of 1.3×10-11 pascals.

The probes external surface had four oval shaped anodised aluminium plates measuring 120mm X 180 mm[10] on which the image of the Indian flag was depicted, complete with the Emblem of India and the words "Satyameva Jayate".[10] These plates were attached to each one of the four vertical sides of the probe. As per ISRO specifications these plates had to endure a temperature range from -50 degrees celsius and as high as +150 degrees celsius.

Mission chronology
India launched the Chandrayaan-1 spacecraft using a modified version of the PSLV C11[11][12] on 22 October 2008 from Satish Dhawan Space Centre, Sriharikota, Andhra Pradesh at 06:22 IST (00:52 UTC).

The lunar probe separated from Chandrayaan-1, in a 102 km circular polar orbit around the Moon, at 20:06 IST on 14 November 2008.[1] After separation, it first fired its spin up rockets and then its retro rocket to lower itself to an orbit intersecting the lunar surface.[14][15] While descending, the MIP continuously sent information back to the Chandrayaan-1 orbiter which in turn beamed the information back to earth. After a 25 minute controlled descent, it struck the Moon at 20:31 IST, 14 November 2008 at a speed of 1.69 kilometers per second (approximately 6100 km/h or 3800 miles per hour).[15] The crash destroyed the probe.[14] It crashed into Shackleton Crater, at the lunar south pole, at 20:31 on 14 November 2008 releasing underground material that could be analyzed by the orbiter for the presence of water ice.

Discovery of water
On the 25 September, 2009, ISRO announced that the MIP had discovered water on the moon just before impact. This announcement was made after the discovery of water was announced on September 24, 2009 by Science magazine by the NASA payload Moon Mineralogy Mapper carried on board Chandrayaan-1.

It gifted the answer to the millennia-old question whether water is there in Earth’s moon when it led to the discovery of water in its vapour phase by the CHACE (CHandra’s Altitudinal Composition Explorer) payload onboard the Moon Impact Probe (MIP) and complementarily in its solid phase by the Moon Mineralogy Mapper (M3) payload onboard the main orbiter in the Chandrayaan I mission. This ‘discovery-class-of-finding’ by CHACE was achieved by direct in situ measurement of the lunar atmosphere during the descend journey of the MIP to the Lunar South Pole, while M3 discovered water in ice form by remote sensing techniques. As water cannot retain its liquid phase in the lunar environment because of its own vapour pressure and the ultra-high vacuum prevailing there, it can be found in solid (ice) and gaseous (vapour) phases. While the Moon Mineralogy Mapper (M3), a payload by NASA, onboard Chandrayaan I lunar orbiter has detected, by mapping almost 97 % of the lunar surface using remote sensing techniques, the presence of water in ice form in higher latitudes especially in the polar caps, the CHACE payload in the lunar impactor (MIP) has directly detected water in its gaseous form along 14 degree E meridian from 45 degree N to 90 degree S latitude, with a latitudinal resolution of around 0.10 and altitudinal resolution of ~ 250 m from 98 km altitude till impact .

However on the day of First anniversary we

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