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As ISRO's satellite GSAT-6A lifts off, here's all you need to know about it

The 415.6-tonne GSLV rocket measuring 49.1 metre tall is scheduled to blast off on Thursday at 4.56 p.m. from the second launch pad in Sriharikota, 105 km from here.
The GSAT-6A satellite blasted off at 4.56 p.m. on Thursday and was put into orbit around 17 minutes after the launch. (Photo | ISRO official website)
The GSAT-6A satellite blasted off at 4.56 p.m. on Thursday and was put into orbit around 17 minutes after the launch. (Photo | ISRO official website)
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GSAT-6A is a high power S-band communication satellite configured around 'I-2K' model. the 'I' in I-2K stands for INSAT, a group of ISRO's communication satellites and it weighs 2000kg. IN PIC: GSAT-6A seen with two halves of Payload faring of GSLV-F08. (Text, Photo | ISRO official website)
GSAT-6A is a high power S-band communication satellite configured around 'I-2K' model. the 'I' in I-2K stands for INSAT, a group of ISRO's communication satellites and it weighs 2000kg. IN PIC: GSAT-6A seen with two halves of Payload faring of GSLV-F08. (Text, Photo | ISRO official website)
The S band is a microwave band used by weather radar, surface ship radar, and some communications satellites, especially used for communication with NASA's International Space Station. IN PIC: GSAT-6A undergoes tests for electromagnetic compatibility and electromagnetic Interference. (Photo | ISRO official website)
The S band is a microwave band used by weather radar, surface ship radar, and some communications satellites, especially used for communication with NASA's International Space Station. IN PIC: GSAT-6A undergoes tests for electromagnetic compatibility and electromagnetic Interference. (Photo | ISRO official website)
The mission life of spacecraft would be about 10 years. The size of the satellite is 1.53m x 1.65m x 2.4m, which has a power of 3119 watts. IN PIC: GSAT-6A undergoes vibration test to ensure that the satellite can endure launch, deployment and its own operation cycle. (Photo | ISRO official website)
The mission life of spacecraft would be about 10 years. The size of the satellite is 1.53m x 1.65m x 2.4m, which has a power of 3119 watts. IN PIC: GSAT-6A undergoes vibration test to ensure that the satellite can endure launch, deployment and its own operation cycle. (Photo | ISRO official website)
The satellite will provide for mobile communication through a 'multi beam facility', with five beams in the S-band and one beam in the C-band. It will also demonstrate the 6m S-Band Unfurlable Antenna for user communication link. IN PIC: GSAT-6A is being assembled into the satellite launching vehicle GSLV F08. (Photo | ISRO official website)
The satellite will provide for mobile communication through a 'multi beam facility', with five beams in the S-band and one beam in the C-band. It will also demonstrate the 6m S-Band Unfurlable Antenna for user communication link. IN PIC: GSAT-6A is being assembled into the satellite launching vehicle GSLV F08. (Photo | ISRO official website)
GSLV-F08 is the 12th flight of Geosynchronous Satellite Launch Vehicle (GSLV) and Sixth flight with indigenous Cryogenic Stage. (Text, photo | ISRO official website)
GSLV-F08 is the 12th flight of Geosynchronous Satellite Launch Vehicle (GSLV) and Sixth flight with indigenous Cryogenic Stage. (Text, photo | ISRO official website)
A Cryogenic rocket stage, as found in the GSLV-F08, is more efficient and provides more thrust for every kilogram of propellant it burns. However, the stage is very complex as it uses propellant at very low temperatures. IN PIC: The assembled GSLV-F08 is being moved to towards the Umbilical Tower seen the background. (Photo | ISRO official website)
A Cryogenic rocket stage, as found in the GSLV-F08, is more efficient and provides more thrust for every kilogram of propellant it burns. However, the stage is very complex as it uses propellant at very low temperatures. IN PIC: The assembled GSLV-F08 is being moved to towards the Umbilical Tower seen the background. (Photo | ISRO official website)
The Launch of GSLV-F08 carrying GSAT-6A took place at the Second Launch Pad in Satish Dhawan Space Centre SHAR, Sriharikota. (Photo | ISRO official website)
The Launch of GSLV-F08 carrying GSAT-6A took place at the Second Launch Pad in Satish Dhawan Space Centre SHAR, Sriharikota. (Photo | ISRO official website)
An improvement in GSLV-F08 is the High Thrust Vikas Engine, which has been under development by ISRO for the past three years and it enhances the vehicle's payload capability. (Photo | ISRO official website)
An improvement in GSLV-F08 is the High Thrust Vikas Engine, which has been under development by ISRO for the past three years and it enhances the vehicle's payload capability. (Photo | ISRO official website)
ISRO
satellite
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