India’s ambitious Chandrayaan-3 mission hit another mark on Wednesday when its spacecraft successfully underwent a fifth and final lunar-bound orbit manoeuvre, which brings it even closer to the surface of the Moon.
With this, the spacecraft has completed all of its Moon-bound manoeuvres, and it will now prepare for separation of the lander module — comprising the lander and rover — from the propulsion module.
“Today’s successful firing, needed for a short duration, has put Chandrayaan-3 into an orbit of 153 km x 163 km, as intended. With this, the lunar bound manoeuvres are completed. It’s time for preparations as the Propulsion Module and the Lander Module gear up for their separate journeys,” ISRO said in a post on X (formerly Twitter).
Separation of the lander module from the propulsion module is planned for August 17, it said.
Following its launch on July 14, the Chandrayaan-3 spacecraft entered into lunar orbit on August 5, following which orbit reduction manoeuvres were carried out on August 6, 9 and 14.
As the mission progressed, a series of manoeuvres were conducted by ISRO to gradually reduce Chandrayaan-3’s orbit and position it over the lunar poles.
After separation, the lander is expected to undergo a “deboost” (the process of slowing down) to place it in an orbit where the Perilune (closest point to the Moon) is 30 kilometres and Apolune (farthest point from the Moon) is 100 km.
From this orbit, the soft landing on the south polar region of the Moon will be attempted on August 23, ISRO has said.
The space agency’s chairman S Somanath recently said the most critical part of the landing is the process of bringing down the velocity of the lander when it begins its descent from a height of 30 km to the final landing (position), and that the ability to transfer the spacecraft from horizontal to vertical direction is the “trick we have to play” here.
“The velocity at the starting of the landing process is almost 1.68 km per second, but this speed is horizontal to the surface of the moon. The Chandrayaan-3 here is tilted almost 90 degrees. It has to become vertical. So, this whole process of turning from horizontal to vertical is a very interesting calculation mathematically. We have done a lot of simulations. It is here where we had the problem last time (Chandrayaan-2),” Somanath explained.
Further, it has to be ensured that fuel consumption is less, the distance calculation is correct, and all the algorithms are working properly, he added.
“Extensive simulations have been done, guidance designs have been changed, and a lot of algorithms have been put in place to make sure that in all these phases the required dispersions are handled... to attempt to make a proper landing,” he said.
Over five moves in the three weeks since the July 14 launch, ISRO lifted the Chandrayaan-3 spacecraft into orbits farther and farther away from Earth. Then, on August 1 in a key manoeuvre — a slingshot move — the spacecraft was sent successfully towards the Moon from Earth’s orbit.
Following this trans-lunar injection, Chandrayaan-3 escaped from orbiting the Earth and began following a path that would take it to the vicinity of the Moon, and eventually into Moon’s orbit.
Chandrayaan-3 is a follow-on mission to Chandrayaan-2 (2019) to demonstrate end-to-end capability in safe landing and roving on the Moon’s surface. It comprises an indigenous propulsion module, lander module, and a rover with an objective of developing and demonstrating new technologies required for inter-planetary missions.With agency inputs