Chandrayaan 2
It was supposed to be launched on 15 July 2019 at 2:51 IST (14 July 2019 21:21 UTC) but was called off due to a technical snag noticed while filling the cryogenic engine of the rocket with helium about one hour before launch. So the mission was postponed.
The landing site for the Chandrayaan-2 rover is expected to be between the two craters Manzinus C and Simpelius N near the southern pole of the moon.
The orbiter will go around the moon at an altitude of 100 km, acting as a communication relay between the lander/rover and Earth.
The far side of the moon can never be in direct line-of-sight with Earth, proving direct radio communication impossible, which is why the orbiter is needed.
It will carry five instruments: A radar that will probe a few metres below the surface to detect water ice, two spectrometers to study the minerals on the surface, one that studies the lunar exosphere and a camera for geology.
The Vikram lander will perform a soft landing on the lunar surface. It consists of four payloads that will study moonquakes, heat properties of the lunar regolith (soil), the lunar surface charging due to radiation, and measure of electrons in the atmosphere when radio waves pass through it.
The six-wheeled Pragyan rover will be deployed by the Vikram lander soon after landing, and will operate on solar power. It will have two cameras in the front that function as the rover’s eyes: Their combined imaging will provide a 3D visualisation of the path ahead, enabling scientists to plan its next move.
Four of its grooved wheels have independent steering, which will enable them to get unstuck from the lunar regolith. A total of 10 electric motors will help the rover to navigate.
The Chandrayaan mission is completely indigenous, with all parts and payloads developed by India.
Also see -https://forastrophysicist.blogspot.com/2019/08/purpose-of-chandrayaan-2.html?m=1
To see Chadrayaan mission click here
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https://youtu.be/QSd2OLEcrUA
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