How Japan Moon Mission is different from India’s Chandrayaan 3 know about its SLIM lander
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NASA and JAXA shared mission
At this time, everyone’s eyes are fixed on this lunar mission of Japan. According to media reports, the lander is scheduled to be launched from the Tanegashima Space Center at 9:30 am local time in Japan. It is to be launched with the XRISM mission on the H2A booster as a ‘ride-share’ payload. XRISM stands for X-ray Imaging and Spectroscopy Mission and is a collaborative mission of JAXA and NASA. The main objective of this moon mission of Japan is to demonstrate the techniques of precision landing. This will go a long way in making challenging landing areas much easier.
Landing wherever you want on the moon!
This mission is different from India’s Chandrayaan-3 but is going to prove very helpful in future moon missions like Chandrayaan. SLIM is a small exploration lander designed to perform pinpoint landings on the lunar surface, reducing the size and weight of equipment required for lunar landings, as well as investigating the origins of the Moon. It also tests basic technologies for exploration in reduced gravity environments. This is an important requirement for future scientific investigations of the Solar System.
what is the goal of slim
The SLIM mission has two important objectives – first, to demonstrate the technology of a precision lunar landing as a small explorer. Second, to accelerate the study of the Moon and other planets with the help of light explorer techniques. If Japan’s lunar mission is successful, then it will prove to be helpful for humans to land where they want. Also, its success will make it possible to land on planets with more resources than the Moon.
fit a special radar
According to JAXA, this mission will help in the exploration of solar science. For this, high level of navigation accuracy and precise landing are the biggest requirements. Slim’s spacecraft is fitted with a landing radar for navigation or obstacle detection. Along with this, it also includes multiband cameras and laser retro-reflector array which will work in a special way for safe landing.
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