Schedule for Vikram Lander’s Arrival on the Moon

Chandrayaan2 Vikram lander (Credit: ISRO)

ISRO Mission Update & Lander Information

The soft landing of Chandrayaan-2 Vikram lander on lunar surface is scheduled between 1:30 am to 2:30 am on Saturday, September 07, 2019 [2000-2100 UTC/4-5 pm EDT Friday]

This will be followed by the Rover roll out between 5:30 am to 6:30 am [0000-0100 UTC Saturday/8-9 pm EDT Friday].

A Press Meet with Chairman, ISRO is also being planned between 8:00 am to 9:00 am [0230-0330 UTC Saturday/10:30-11:30 pm EDT Friday].

Information about the lander and its rover follows.

Vikram Lander

Technical Specifications

Weight: 1,471 kg
Power: 650 W
Payloads: 4
Dimensions: 2.54 x 2 x 1.2 m
Mission Life: 1 lunar day (~14 days)

Chandrayaan 2’s lander is named Vikram after Dr Vikram A Sarabhai, the Father of the Indian Space Programme. It is designed to function for one lunar day, which is equivalent to about 14 Earth days. Vikram has the capability to communicate with IDSN at Byalalu near Bangalore, as well as with the Orbiter and Pragyan rover. The lander is designed to execute a soft landing on the lunar surface at a touchdown velocity of 2 metres per second.

Landing Site: High plain between two craters, Manzinus C and Simpelius N, at a latitude of about 70.9° South 22.7° East
Alternate Site: 67.7 ° South 18.4° West

Payloads

Instrument for Lunar Seismic Activity: Will characterise the seismicity around the landing site
Chandra’s Surface Thermo-physical Experiment: Will examine the Moon’s thermal conductivity and temperature gradient
Langmuir Probe: Will conduct ionosphere studies on the lunar surface

Pragyan Rover

Chandrayaan-2 rover (Credit: ISRO)

Chandrayaan 2’s rover is a 6-wheeled robotic vehicle named Pragyan, which translates to ‘wisdom’ in Sanskrit. It can travel up to 500 m (0.5 km) at a speed of 1 centimeter per second, and leverages solar energy for its functioning. It can communicate with the lander.

Payloads

Alpha Particle X-ray Spectrometer: Will determine the elemental composition of the Moon
Laser Induced Breakdown Spectroscope: Will identify elemental abundance in the vicinity of the landing site
Laser Retroreflector Array (LRA): Will help us understand the dynamics of Earth’s Moon system and also derive clues about the lunar interior