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Indian Space Capabilities

Sure sure....the technology as usual got downloaded into your superior indy brains again.

This is all you have to say after getting owned ? You Hans are despicable, just like you've said. :lol:

PFBR is our technology & development. Deal with it.
 
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http://www.hindustantimes.com/india...hed-in-june/story-Z4hZlB7ShkC0A8n2iChtxO.html

India plans to launch next month its most powerful rocket that is capable of transporting a heavier 4-tonne communications satellite and described as a “game-changer” in the first of its kind space mission.

Aiming for a greater share of the multi-billion dollar global space market and to reduce dependency on international launching vehicles, the Indian Space Research Organisation (ISRO) said on Friday it is hoping to launch the Geosynchronous Satellite Launch Vehicle(GSLV) Mark-III in the first week of June.

A successful launch of this rocket will be yet another major step towards being self-reliant in the country’s space programme.

The ISRO currently has the capability to launch payloads of up to 2.2 tonnes into the intended orbit and anything above that it had to tap foreign launch facilities.

“GSLV Mark-III is our next launch. We are getting ready. All the systems are in Sriharikota. The integration is currently going on,” ISRO Chairman AS Kiran Kumar told reporters in Hyderabad.

“The whole process of assembling the various stages and then integrating the satellite into the heat shield, these activities are going on. First week of June is when we are targeting this launch,” he said.

The ISRO views operationalisation of this rocket as a “game-changer” mission.

GSLV Mark-III will be India’s most powerful launch vehicle built to lift the heaviest Indian communications satellites to space. It can put satellites weighing 4 tonnes in space, double the weight that the current GSLV-Mark-II can lift.


It will also enable ISRO to launch from India heavier communications spacecraft to geostationary orbits of 36,000 km. Because of the absence of a powerful launcher, ISRO currently launches satellites above 2 tonnes on European rockets for a big fee.

Noting that communications satellites built beyond the capacity of 2.2 tonnes have to be launched from foreign soil, Kiran Kumar said efforts are on to launch satellites upto four tonnes and even beyond in India itself.

The GSLV Mark-III is intended to launch satellites into geostationary orbit and as a launcher for an Indian crew vehicle.

It features an Indian cryogenic third stage and a higher payload capacity than the current GSLV.

The satellite would carry Ka and Ku-band payload along with a Geostationary Radiation Spectrometer (GRASP) payload to monitor and study the nature of the charged particles and influence of space radiation on spacecraft and electronic components.

It would also employ advanced spacecraft technologies including bus subsystem experiments in electrical propulsion system, indigenous Li-ion battery and indigenous bus bars for power distribution, among others.

The technology on lithium ion batteries developed by ISRO is good for space programme in terms of cost-effectiveness, but it requires the efforts of industry to develop it to reduce costs, Kiran Kumar said.
 
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Cabinet Committee on Economic Affairs (CCEA)
17-May, 2017 16:44 IST
Cabinet approves Restructuring plan for Hindustan Organic Chemicals Ltd.

The Cabinet Committee on Economic Affairs, chaired by the Prime Minister Shri Narendra Modi, has approved a restructuring plan for Hindustan Organic Chemicals Ltd. (HOCL), a loss making and sick Central Public Sector Enterprise (CPSE) under the Department of Chemicals & Petrochemicals. The company, having units at Rasayani (Maharashtra) and Kochi (Kerala), has been making continuous cash losses since 2011-12 resulting in acute shortage of working capital. Most of its plants have remained shut down during the last few years. It could not pay regular salary and statutory dues to the employees since February, 2015.


Restructuring:


The restructuring plan involves closing down the operations of all the non-viable plants at Rasayani unit of HOCL except Di-Nitrogen Tetroxide (N2O4) plant which is to be transferred to ISRO on 'as is where is' basis, with about 20 acres of land and employees associated with the plant. The N2O4 plant is of strategic importance as it is the only indigenous source of N2O4 which is used as liquid rocket propellant by ISRO in the space launch vehicles.


Financial implications:


Financial implications of the plan is Rs. 1008.67 crore (cash) which is to be met partly from sale of 442 acres HOCL land at Rasayani to Bharat Petroleum Corporation Ltd. (Rs.618.80 crore) and the balance (Rs.365.26 crore) through bridge loan from the Govt. The funds will be used to liquidate the various liabilities of the company, including payment of outstanding salary and statutory dues of employees and repayment of Govt. guaranteed bonds of Rs.250 crore due for redemption in Aug.-Sept. 2017. The bridge loan amount, along with other Govt. liabilities of the company, is proposed to be repaid to the Govt. from the disposal of remaining unencumbered land and other assets of Rasayani unit.


Impact:



Implementation of the restructuring plan will enable HOCL to close down the operations of non - viable plants at Rasayani unit while transferring the strategically important N2O4 plant to ISRO to ensure continuity of manufacture and supply of N2O4 for ISRO's space programme.
Interest and welfare of employees will be addressed by payment of all their outstanding salary dues. Disposal of land assets, initially through sale of 442 acres to BPCL and subsequently of the remaining unencumbered land, will unlock the land assets for being redeployed for economically productive investments and thereby creating new employment generation opportunities.


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http://www.deccanherald.com/content/612447/all-set-gslv-mark-iii.html
Press Trust of India, Thiruvananthapuram, May 19 2017, 18:58 IST
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ISRO is set to launch the newest GSLV soon, which is expected to be able to carry satellites twice the weight of what the previous generations could achieve.

India's most powerful launch vehicle - Geosynchronous Satellite Launch Vehicle (GSLV) Mark III - built to lift the heaviest Indian communication satellites to space, is all set to be launched soon.

With GSLV Mark-III, seen as a "game-changer" mission in space technology, the country can have indigenous launches of bigger satellites without depending on foreign countries. It can put satellites weighing upto four tonnes in space, double the weight that the current GSLV-Mark-II can lift.

GSLV Mark-III will also enable Indian Space Research Organisation (ISRO) to launch from India heavier communication spacecraft to geostationary orbits of 36,000 km. Because of the absence of a powerful launcher, the space agency currently launches satellites above two tonnes on European rockets for a high cost.

"Preparations are going on in full swing...And right now, the cryogenic stage (is) also integrated with the vehicle. The satellite is also getting prepared," Vikram Sarabhai Space Centre (VSSC) Director K Sivan told reporters here on the sidelines of a function.

"Maybe in a week's time, we will be able to assemble the satellite along with the vehicle. We are targeting the launch in the first week of June," he said. However, Sivan said the exact date for the launch of GSLV Mark III is yet to be finalised.

GSLV Mark-III would blast off with the communications satellite – GSAT-19, weighing more than 3.2 tonnes.

"It's a very advanced vehicle...The satellite is also very advanced...," Sivan said.


"For any satellite weighing beyond two tonnes, we were carrying them to other countries for launch. Now everything can be launched by our Indian vehicle," he said.

The VSSC director said there was a plan to improve the payload of the vehicle further. "So 100 per cent, we can have our own indigenous launches of bigger satellites," he said.

On the Chandrayaan-2 mission, the VSSC director said a target has been set to complete it by December.

On reports of privatisation of PSLV operations, Sivan said, "It is not privatisation. Discussions are going on to have some joint ventures. Many companies will be joining together. ISRO will also be part of that."

Director of Liquid Propulsion Systems Centre (LPSC) S Somnath said, "The highlight of the cryogenic stage is that we have full knowledge about this...because it is our own and we understand this."
 
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http://www.thehindu.com/sci-tech/sc...small-cheer/article18510364.ece?homepage=true

BENGALURU , May 19, 2017 22:21 IST
Updated: May 19, 2017 22:21 IST


‘It may be ISRO’s short-lived rocket, not its primary satellite vehicle as planned’

The GSLV space vehicle’s quiet but laudable success earlier this month could be a small solace that has come too late for the Indian Space Research Organisation.

The late bloomer may even be a short-lived intermediate rocket instead of being ISRO’s primary satellite vehicle as it was planned, as a few ISRO old-timers and industry watchers privately suggest.

Adds to reliability

Its fine feat of putting the South Asia Satellite perfectly to space on May 5 no doubt adds to the GSLV’s reliability. But ISRO actually needed this achievement at least a good decade ago, when it was still building and using 2,000-2,500-kg communication spacecraft for its own use.

The GSLV was conceived in the early 1990s to launch Indian communication satellites of 2,000-kg class to an initial and later adjusted distance from Earth, called the ‘GTO’ (geosynchronous transfer orbit). This rocket took about 25 years and 11 flights to be fully realised. GSLV F-09 of May 5 was the fourth to click in a row.

The GSLV is caught in a glaring mismatch: it cannot lift India’s bigger satellites; and the size that it can lift is out of fashion and does not make economic sense.


As to why the GSLV could not rise sooner to the occasion, the external geopolitical reasons beyond the agency are well known now.

While ISRO was perfecting the GSLV and falling behind schedule with the rocket’s crucial cryogenic stage, it progressed on the spacecraft side and upgraded the communication satellites to 3,000-plus kg in 2005. This was done to pack more punch (or transponders) per spacecraft. It would be roughly 24 regular transponders for 2,000 kg; 36 transponders for 3,000 kg and 48 transponders in a four-tonner.

Replying to a query from The Hindu, Gagan Agrawal, analyst with the U.S.-based space industry consulting firm Northern Sky Research, said: “The communications satellite market is consistently looking at payload sizes greater than four tonnes and the question remains whether the GSLV or [the bigger] MKIII can cater to the market [yet.] ”

Not many customers

ISRO’s smaller PSLV rocket has made a niche in the world market for light lifts. For the GSLV, there may not be many commercial customers requiring its service.
 
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Chandrayaan 2

All you need to know about Chandrayaan-2, ISRO’s second mission to the moon

In October 2008, ISRO launched the Chandrayaan-1 mission on board a PSLV rocket. There were two payloads, a lunar orbiter and a lunar impactor. The impactor disturbed the surface at the landing site, and collected samples for analysis. The impactor also enabled India to become the fourth country to put its flag on the Moon, after the US, the former Soviet Union .

The orbiter encountered a series of technical problems, including malfunctions of its star sensors and the thermal shielding. ISRO lost contact to the spacecraft well before the planned mission duration of two years. However, the orbiter still managed to fulfill most of the
Even before the launch of the Chandrayaan-1 mission, ISRO was already making plans for the follow up Chandrayaan-2 mission. In September 2008 itself, the Chandrayaan-2 mission was approved by the government for a cost of Rs 425 crore. The budget does not include the cost of the GSLV launch vehicle, or the lander. The mission is an important step in India’s plans for planetary exploration, a program known as Planetary Science and Exploration (PLANEX).

ISRO chairman AS Kiran Kumar revealed to reporters the timing of the Chandraayaan-2 mission during an event that announced When asked about the Chandrayaan-2 mission, “We are targeting first quarter of 2018 for the

India’s second mission to the moon is more advanced than the first. There are three components of the mission, an orbiter, a lander and a rover. The rocket ISRO is planning to use for Chandrayaan-2 is a GSLV MKII, and will take off from the space agency’s launch facility at the Sriharikota High Altitude Range (SHAR) in the first few months of 2018.

The orbiter will be deployed at an altitude of 100 kilometers above the surface of the Moon. The lander will then separate from the orbiter, and execute a soft landing on the surface of the Moon, unlike the previous mission which crash landed near the lunar south pole. ISRO is in the process of testing the actuators and sensors for the soft landing. A rover will then explore the surface. The lander, rover and orbiter will perform mineralogical and elemental studies of the lunar surface.


The Chandrayaan-2 mission is being tested at isro Karnataka. Artificial craters have been created for the Lander Sensors Performance Test. Drop tests for the lander, and mobility tests for the rover are also being conducted at the facility. The six wheeled rover is going to be semi-autonomous, and its movements will be partially controlled by ISRO stations on Earth.
In 2007, ISRO signed an agreement with Russia, to get technical support for the Chandrayaan-2 mission. According to the agreement, the Chandrayaan-2 mission was supposed to be a joint project between ISRO, and the Russian space agency, ROSCOSMOS. As part of the agreement, Russia would provide the lander and rover parts of the mission, while India would be responsible for the orbiter. The mission was originally planned for 2015.

In 2011, the Phobos-Grunt, a Russian sample return mission to one of the two moons of Mars failed. The Phobos-Grunt spacecraft was launched along with the Yinghuo-1, meant to be the first Chinese spacecraft to go to Mars. The mission failed, and the two spacecraft ended up in the Pacific Ocean. Russia began a review of the mission, and the future of the Chandrayaan-2 mission depended

Russia pointed out that there was a high risk of failure if the rover went up in 2015, and asked India to supply the rover component. ISRO had already been conducting some prelimnary tests for indigenous rovers, and had proven its capabilities with the Impactor in the Chandrayaan-1 mission.

As a result, ISRO undertook a review of the entire Chandrayaan-2 mission. The integrated review recommended that India could provide both the lander as well as the rover components, given a few years. The orbiter was reconfigured to accommodate the Indian made lander and rover, and the particular scientific payloads on board were finalised.

In August 2013, in a letter responding to a question raised at the Rajya Sabha, Minister of State for Personnel, Public Grievances and Pensions and Prime Minister’s Office: “Chandrayaan-2 would be a lone mission by India without Russian tie-up.” Russia is still involved in minor ways with the mission though. A Russian company, isotope has provided for one of the scientific instruments on board the Chandrayaan-2 mission.

The Orbiter and the Lander will be stacked together and will be injected into an “Earth Parking Orbit”. After going around the Earth several times, the Orbiter will be inserted into an extremely elliptical Lunar orbit, which will be reduced to 100 km over the surface of the moon after a number of orbits. The orbiter will carry the Lander, with the Rover on board, from Earth orbit to Moon orbit. The orbiter will survey the landing site before deploying the lander.

The primary structure of the orbiter has been constructed, and has been delivered to the integration team in 2015 itself. The integration teams adds in all the components, scientific payloads and sensors to the orbiter. The actual payloads are an effort that involves many facilities across the nation, and are expected to be integrated in the first quarter of 2017. The interface between the orbiter and the launch vehicle has also been completed.

The configuration of the Lander for a soft and safe landing on the Lunar surface has been completed. The payload configuration, and the manner in which the Lander will be attached to the Orbiter has been finalised. The lander craft will have a propulsion system on board, which will de-boost the spacecraft during the surface landing.

The lander also has legs, which will deploy during the landing. The legs have been engineered, and drop tests on a single leg conducted. A facility has been established at the Lunar Test Facility in Chitradurga, just for further drop tests of the lander legs.


The lander will have on board a radio altimeter, a pattern detection camera and a laser inertial reference and accelerometer package (LIRAP). These three components have already been tested. A system demonstration module (SDM) for evaluation the propulsion system on the lander, the Lander Actuator Performance TEST (LSPT) and the electrical packages for the Lander are in the advanced stages of realization.

The Rover is a six wheeled vehicle that will have on board software that will allow it to roam the surface of the moon in a semi-autonomous manner. ISRO will be providing partial command and control instructions from the ground.

The rover has on board a navigation camera, an inclinometer, and a dedicated imager for capturing pictures of the lunar surface. The three systems have been tested and integrated. The rover will transmit back data from the lunar surface, but there are no plans to actually collect samples of soil, rock or moondust.
The Rover is being tested at a special facility in Bengaluru, where ISRO has created the kind of soft soil with fine particles that is expected to be on the Moon. Tests are underway to evaluate the way in which the wheels of the rover interact with the soil.

The bits and pieces that make up the Chandrayaan-2 mission come from various ISRO and government facilities around the country. The Physical Research Laboratory is an autonomous unit under the department of space in Ahmedabad. PRL is actively participating in ISRO’s PLANEX mission, and is developing several of the scientific payloads to be used in the Chandrayaan-2 mission.

One of the two instruments on board the rover to analyse rock and soil samples on the lunar surface is known as the Alpha Particle X-ray Spectrometer (APXS). The PRL is developing and testing the APXS, which uses X-rays to analyse the samples.

The Space Astronomy Group (SAG) at ISRO Satellite Centre in Bengaluru is developing a Large Area Soft X-ray Spectrometer (CLASS) for the Chandrayaan-2 mission. The Space Physics Laboratory in Thiruvananthapuram is developing three payloads for the Chandrayaan-2 mission. These are the CHandra’s Atmospheric Composition Explorer-2 (CHACE-2), Chandra’s Surface Thermophysical Experiments (ChaSTE), and Radio Anatomy of Moon Bound Hyper Atmosphere and ionosphere (RAMBHA).

The Systems Reliability Group is a part of the Space Application Centre, which has its headquarters in Ahmedabad, and is responsible for development and testing of the camera module on the Rover. The same facility is also responsible for creation of the software to be used on the rover. The software includes the capabilities for the rover to operate in a semi-autonomous fashion.

The Aerial Services & Digital Mapping Area is a part of the National Remote Sensing Centre (NRSC) of ISRO. The facility specialises in end to end cutting edge solutions for aerial photography. The AS&DMA is conducting airborne tests in Chitradurga for over the simulated lunar terrain with artificial craters, for some sensors proposed to be included on board the lander.

Partners from the private industry have provided some of the sensors and optics on board the Chandrayaan-2.

The mission is entirely indigenous, and is more of a technological mission than a scientific one. The primary goal is to test the soft landing capabilities, as well as the semi-autonomous movement of the Rover. The mission has deepened the links between the space agency and the private industry, and has fostered the creation of many new indigenous technologies. The Chandrayaan-2 mission will allow ISRO to take its scientific studies of the moon to the next level. The scientific goals of the mission include analysing the surface samples, and to learn more about the origin and evolution of the Moon.

Before Chandrayaan-2, ISRO has another exciting Indian moon mission scheduled. At the end of 2017 team Hakuto from Japan and Team Indus from India will both make an attempt at the Lunar XPRIZE by landing a rover on the moon. The two teams will rideshare on an ISRO PSLV rocket scheduled for a dec 2017 launch. The first private Indian company to reach the moon is expected to do so just before Republic Day, 2018.
 
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http://www.deccanherald.com/content/614089/isro-braces-tame-monster-rocket.html

An indigenous rocket as heavy as 200 full-grown Asian elephants could well be the one taking "Indians into space from Indian soil" as the country inches closer to joining the big boy's space club.

Standing tall on the rocket port at Sriharikota in Andhra Pradesh is the country's latest rocket called the Geosynchronous Satellite Launch Vehicle Mark III (GSLV Mk- III), the heaviest rocket ever made by India that is capable of carrying the heaviest satellites till now.

The Indian Space Research Organisation (ISRO) enters into a bold new world muscling its way to make its mark in the world's heavy weight multi-billion dollar launch market. "We are pushing ourselves to the limits to ensure that this new fully self-reliant Indian rocket succeeds in its maiden launch," ISRO chairman A S Kiran Kumar said.

It is the maiden experimental launch of GSLV-Mk III earlier named Launch Vehicle Mark-3, but if all goes on well in a decade or after a slew of at least half a dozen successful launches, this rocket could be India's vehicle of choice to launch "Indians into space, from Indian soil using Indian rockets".

This heavy lift rocket is capable of placing up to 8 tons in a low Earth orbit, enough to carry India's crew module. ISRO has already prepared plans of hoisting a 2-3 member human crew into space as soon as the government gives it a sanction of about 3-4 billion dollars.

If the human venture materialises, India would become only the fourth country after Russia, the US and China to have a human space flight program. Incidentally ISRO asserts the first Indian to go into space could well be a woman!

"In principle, it will be the GSLV Mk-3 or its variant that will be human rated in future," Kumar confirms.

In the intense pre-monsoon heat, India's rocket port is buzzing with feverish activity as engineers from the Indian space agency get set to launch an all new indigenously-made rocket. It is the heaviest fully-functional rocket to reach the launch pad weighing 640 tons or almost 5 times the weight of a fully loaded Jumbo Jet airplane.

The new rocket is capable of carrying satellites of four ton class into the geosynchronous orbit and opens a whole new window through which ISRO can now explore the universe. It is estimated that the new rocket costs a whopping Rs 300 crore but the country would end up saving almost as much when an Indian launcher is used to place New Delhi's communication satellites.

Today India uses the French Ariane-5 rocket launched from Kourou in South America to place its heavy 4 ton class of communication satellites. Kumar asserts that the GSLV-Mk III is a rocket designed and made in India from scratch and hence engineers from ISRO are very keen to tame this new monster in its very first attempt.

Not an easy task, since India's track record suggests that maiden launches of its rockets often end up in failure.

The Polar Satellite Launch Vehicle (PSLV) failed on its maiden launch in 1993 and since then it has had 38 consecutively successful launches and the Geosynchronous Satellite Launch Vehicle Mk-1 (GSLV Mk-1) failed in 2001 and since then it has 11 launches with half of them successful.

Space fairing is a very risky business and all nations the US, France and Japan and even the new private companies have had failures in recent times like the spectacular Falcon-9 rocket in 2016. Hopefully, the GSLV-Mk III will break that jinx.

India already has two operational rockets -- the workhorse PSLV that can hoist satellites of 1.5 tons into space and was the preferred vehicle for India's maiden mission to Moon and Mars.

The second -- the Geosynchronous Satellite Launch Vehicle Mark II can hoist 2 ton class of satellites and because of its repeated failures it was dubbed 'the naughty boy of ISRO'.

Between them, ISRO has done 50 launches and recently even earned a world record by successfully placing 104 satellites in orbit. The new GSLV-Mk III is an all new vehicle designed and developed in India and in 2014 a sub-orbital successful test of this vehicle was conducted to understand how it performs in the atmosphere.

The rocket never went into space but helped test India's future astronaut capsule. It had a dummy cryogenic engine and was a single stage vehicle.

Even though the GSLV-Mk III is 43-m-tall, making it the shortest of the three big Indian rockets, it carries a huge punch as it weighs almost 1.5 times heavier than India's next biggest rocket the GSLV Mk-2 and almost twice as heavy as India's PSLV. This monster rocket has an elegant design and is capable of carrying loads equal to the weight of two sports utility vehicles or SUVs into space.

The massive first stage along with strap-on boosters weighs 610 tons and comprises multiple engines all firing nearly simultaneously. It is the second stage which is all together a new animal for this mammoth rocket, it is a novel Indian cryogenic engine that weighs about 30 tons.

The new cryogenic engine is being tested on a fully functional rocket for the first time and it is the development of this technology that uses liquid oxygen and liquid hydrogen as propellant is what took more than 15 years for Indians to master.

There is a lot of excitement at the rocket port as Kumar says "a whole new rocket and an entirely new class of a high through put satellite system is all set to be launched".
 
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29THGSLVNEW

The GSLV-Mk III at the Satish Dhawan Space Centre, in Sriharikota. | Photo Credit: PTI
http://www.thehindu.com/sci-tech/sc...gslv-mk-iii/article18614412.ece?homepage=true

The GSLV-Mk III-D1 launcher would carry GSAT-19 satellite which has a mass of 3,200 kg.
The Geosynchronous Satellite Launch Vehicle-Mark III (GSLV-Mk III), the heaviest rocket ever made by India and capable of carrying large payloads, is set for launch from the Satish Dhawan Space Centre in Sriharikota on June 5, 2017.

Here are a few facts you need to know about the rocket.

1. GSKV-Mk III is capable of launching four-tonne satellites in the Geosynchronous Transfer Orbit (GTO).

2. The rocket is also capable of placing up to eight tonnes in a Low Earth Orbit (LEO), enough to carry a manned module.

3. GSLV-Mk III’s first developmental flight, D1, will carry on June 5 the GSAT-19 satellite — developed to help improve telecommunication and broadcasting areas.

4. This is India’s first fully functional rocket to be tested with a cryogenic engine that uses liquid propellants — liquid oxygen and liquid hydrogen.


5. It took about 25 years, 11 flights and over 200 tests on different components of the rocket for it to be fully realised.

6. The 640-tonne rocket, equal to the weight of 200 fully-grown Asian elephants, is the country’s heaviest but shortest rocket with a height of 43 metre.

7. GSLV-Mk III is a three-stage vehicle with two solid motor strap-ons (S200), a liquid propellant core stage (L110) and a cryogenic stage (C-25).

8. ISRO successfully conducted the static test of its largest solid booster S200 at the Satish Dhawan Space Centre (SDSC), Sriharikota on January 24, 2010. The successful test of S200, which forms the strap-on stage for the GSLV, makes it the third largest solid booster in the world. The static test of liquid core stage (L110) of GSLV-Mk III launch vehicle was done at ISRO's Liquid Propulsion Systems Centre test facility as early as March 2010.

9. C-25, the large cryogenic upper stage of the GSLV, is the most difficult component of the launch vehicle to be developed. ISRO successfully ground-tested the indigenously developed C-25 on February 18, 2017.

10. If successful, the GSLV-Mk III — earlier named as Launch Vehicle Mark-3 or LVM-3 — could be India’s vehicle of choice to launch people into space.
 
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Rather than people into space , it should be used to augment the number of transponders in space as we are 100s short.
No need to pay ESA 650 cr rupees to launch our communication sats.
 
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The Indian Space Research Organisation (ISRO) is expected to launch the Geosynchronous Satellite Launch Vehicle(GSLV) Mark-III in the first week of June. GSLV Mark-III will be India’s most powerful launch vehicle built to lift the heaviest Indian communications satellites to space. It can put satellites weighing 4 tonnes in space, double the weight that the current GSLV-Mark-II can lift. (courtesy-ISRO)
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A side view of the fully integrated GSLV-Mark III carrying GSAT-19 at the second launch pad.The new rocket is capable of carrying two times more weight into space than its predecessors. (courtesy-ISRO)
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Seen above, the GSLV rocket at the cyrogenic stage inside a preparation facility. A Cryogenic rocket stage is more efficient and provides more thrust for every kilogram of propellant it burns. (courtesy-ISRO)
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Mastering the cyrogenic technology, which relies on liquid oxygen and liquid hydrogen, took more than 15 years for Indian scientists. (courtesy-ISRO)
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The Geosynchronous Satellite Launch Vehicle Mark III (GSLV Mk-3) is the heaviest rocket the space center has made, weighing about 705 tonnes. (courtesy-ISRO)
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The GSLV undergoing tests inside a compact facility. Isro earned a world record in February after successfully placing 104 satellites in orbit. (courtesy-ISRO)
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The under progress rocket at a developmental facility. The new rocket is estimated to have cost around Rs 300 crores but could also result in equally high savings in the future. (courtesy-ISRO)
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Isro has already prepared plans for sending a human crew into space as soon as the government approves a budget of 3-4 billion dollars. India would then become only the fourth country after Russia, the US, and China to have successfully launched a human space flight program. (courtesy-ISRO)
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