![]() ![]() Reminder: This evening's launch includes simultaneous booster landings at Landing Zones 1 and 2. Here's the post-launch timeline:Ġ0:01:11: Max Q (moment of peak mechanical stress on the rocket)Ġ0:02:24: Side boosters engine cutoff (BECO)Ġ0:02:43: Side boosters boostback burns beginĠ0:03:52: Side boosters boostback burns endĠ0:03:55: 1st stage main engine cutoff (MECO)Ġ0:03:59: Center core 1st and 2nd stages separateĠ0:06:32: Side boosters entry burns startĠ0:07:42: Side boosters landing burns start Range is green (clear of hazards or malfunctions). Falcon Heavy's post-launch timeline:ĥ:46 p.m. This entire process should be visible to those on the Space Coast this evening. EST: Two minutes to launch! At 2 minutes and 28 seconds into flight, Falcon Heavy's side boosters will separate, then return to Cape Canaveral Space Force Station. Both Falcon Heavy and golden hour delivered. People who wish to watch the launch live from the Launch View Gallery at Satish Dhawan Space Centre can register themselves at /.USSF-67. The electrical tests on the vehicle assembly of LVM3-M4 and Chandrayaan-3 spacecraft have been completed. One can watch the launch of Chandrayaan-3 online on the official Youtube channel of ISRO, or on Doordarshan. Chandrayaan-3: When And How To Watch Launch Online This means that SHAPE will analyse the spectro-polarimetric signatures of Earth. The function of SHAPE is to study the spectral and polarimetric measurements of Earth from lunar orbit. The propulsion module is equipped with a payload called Spectro-polimetry of HAbitable Planet Earth (SHAPE). The propulsion module, after separation, will remain in orbit around the Moon, and act as a communications relay satellite. After reaching this orbit, the lander module and the propulsion module will separate. The propulsion module will carry the lander module to the final 100-kilometre circular orbit. The Chandrayaan-3 lander has been designed in such a way that it can land softly on the Moon at a specified site, and deploy the rover, whose aim is to conduct in-situ chemical analysis of the lunar surface. These are the Chandra's Surface Thermophysical Experiment (ChasTE), Instrument for Lunar Seismic Activity (ILSA), Langmuir Probe, Laser Retroreflector Array (LRA) Rover, and Radio Anatomy of Moon Bound Hypersensitive ionosphere and Atmosphere (RAMBHA). The objectives of Chandrayaan-3, apart from demonstrating a safe and soft landing and roving capabilities on the lunar surface, is to conduct in-situ scientific experiments, and develop and demonstrate new technologies required for interplanetary missions.Ĭhandrayaan-3's lander will be equipped with five payloads. ![]() Chandrayaan-3: Objectives, Payloads, And Planned TrajectoryĬhandrayaan-3 aims to put a lander and a rover on the Moon’s highlands near the south pole, and to demonstrate end-to-end landing and roving capabilities. The spacecraft has a mission life of one lunar day, which is equivalent to 14 Earth days. The launch vehicle used this time is called LVM3-M4. Unlike its predecessor, Chandrayaan-3 will not carry an orbiter. The Launch Vehicle Mark III (LVM3), the Indian Space Research Organisation's (ISRO's) most powerful rocket, launched Chandrayaan-3 from Satish Dhawan Space Centre, Sriharikota, Andhra Pradesh. Chandrayaan-3, the succeeding mission to Chandrayaan-2, was launched on Friday, July 14, 2023, at 2:35 pm IST. The rover is rectangle-shaped, and has six wheels and a navigation camera.Ĭhandrayaan-3 Launch HIGHLIGHTS: Welcome to the live blog for the launch countdown of Chandrayaan-3. The lander is also equipped with an X-band antenna which will ensure communications. The lander is box-shaped, and has four landing legs, four landing thrusters, a number of sensors to ensure a safe touchdown, and a suite of cameras to avoid hazards and have positional knowledge. The main thruster nozzle is located at the bottom of the propulsion module. It will serve as the mounting structure for the lander. The cylinder is called the Intermodule Adapter Cone. The propulsion module will carry the lander module to the final 100-kilometre circular orbit after reaching which the lander module and the propulsion module will separate.Īfter the separation, the propulsion module will remain in orbit around the Moon, and act as a communications relay satellite.Īccording to NASA, the propulsion module, a box-like structure, will be mounted with a large solar panel on one side and a large cylinder on top. The aim of the payloads on the rover is to conduct in-situ chemical analysis of the lunar surface. Chandrayaan-3 Launch Countdown Live Updates: Chandrayaan-3's lander has been designed in such a way that it can land on the Moon at a specified site, and deploy the rover. ![]()
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