Chandrayaan-3 Mission: ISRO successfully performs 5th orbit-raising manoeuvre of spacecraft

The Indian Space Research Organisation (ISRO) on Tuesday successfully performed the fifth orbit-raising manoeuvre (Earth-bound perigee firing) of the Chandrayaan-3 spacecraft from the ISRO Telemetry, Tracking and Command Network (ISTRAC).

Chandrayaan-3 Mission:

The orbit-raising maneuver (Earth-bound perigee firing) is performed successfully from ISTRAC/ISRO, Bengaluru.

The spacecraft is expected to attain an orbit of 127609 km x 236 km. The achieved orbit will be confirmed after the observations.

The next… pic.twitter.com/LYb4XBMaU3

— ISRO (@isro) July 25, 2023

“The spacecraft is expected to attain an orbit of 127609 km X 236 km. The achieved orbit will be confirmed after the observations,” the national space agency headquartered here said. “The next firing, the TransLunar Injection (TLI), is planned for August 1, 2023, between 12 midnight and 1 am IST,” added ISRO, which had launched the Chandrayaan-3 mission to the Moon on July 14. The Chandrayaan-3 mission to the Moon was launched on July 14. Chandrayaan-3 will be sent into the lunar transfer trajectory after the orbit-raising activities. With the challenging technological achievement of the Chandrayaan-3 mission, expected in late August, scientists hope to perfect gentle landings on the lunar surface. If the mission is successful, India will join the United States, China, and the former Soviet Union as the fourth country to achieve the remarkable feat. The propulsion module and the lander would accelerate and travel for more than a month to the moon’s orbit before coming to a standstill 100 km above the lunar surface. The Chandrayaan-3 project replaces Chandrayaan-2, which disappointed scientists by failing to achieve the intended soft landing on the moon’s surface in 2019. About 16 minutes after launch, the propulsion module will separate from the rocket and start a journey around the earth in an elliptical orbit that will bring it 170 kilometres closer to the moon and 36,500 kilometres further away. The propulsion module and the lander would accelerate and travel for more than a month to the moon’s orbit before coming to a standstill 100 km above the lunar surface.