Indian aerospace research

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  • 1.IndiaIt is the 7th largest country in the world area wise(32,87,240 sq.km)2nd most populous country (1.18 billion).It has 29 states and 6 union territories.18 official languages, 114 languages, 216 mother tongues, 900 dialects.3rd highest GDP in the world with 4 trillion dollars and 128th position in per-capita income with 2941 dollars.

2. INDIAN AEROSPACERESEARCH ITS FLYING HIGH..!BY:PRUTHVI.(09MBI102)PRATHIMA(09MBI101)SUSRUTHA(09MBI100)NITHYA(09MBI099). 3. We are going to see thefollowInG.Introduction aerospace.Aerospace research in India.Space research.Missiles research and manufacture.Fighter planes research and manufacture.Conclusion.. 4. AEROSPACE:What is aerospace? Aerospace comprises the atmosphere of Earth and surrounding space. Typically the term is used to refer to the industry that researches, designs, manufactures, operates, and maintains vehicles moving through air and space. Aerospace is a very diverse field, with a multitude of commercial, industrial and military applications. 5. INDIAN AEROSPACE RESEARCH:The Indian aerospace research began as soon as 1958, when DRDO was established.It is now one of the most active aerospace research centers in India and it is one of Asias largest defence contractors .The organized Indian civil aerospace research dates back to 1969, when ISRO was formed.The Indian aerospace sector grew very fast under the abled scientists of ISRO, DRDO, HAL.etc 6. ConTInUEThe Indian aerospace research sector can be dividedinto parts: Space research. Missiles. Fighter planes research andmanufacturing. Manufacturing of normal planes. 7. SPACE RESEARCH OF INDIA:As in the previous slides, the Indian space research was started in the year 1969 with the establishment of ISRO.The father of Indian space research and the main person behind the establishment of ISRO is Dr. Vikram Ambalal Sarabhai.In his memory, the centre for the development of satellite launch vehicles and associated technologies was named after him Vikram Sarabhai Space Centre.India is one of the few countries to have its own space program. 8. OVERVIEW OF INDIAN SPACE EXPLORATION MISSIONS: Indian Space Program (ISP) Application Oriented - Telecom, Remote Sensing, Meteorology Strategic Framework Space Policy Goals Emerging Trend Space Exploration Missions Indian Space Exploration Program (ISEP) Mission Architecture Lunar Exploration Chandrayaan 1 (2008/09) & Chandrayaan 2 (2013) Space Astronomy Astrosat (2010), Aditya (2012) Microgravity Research Space Capsule Recovery Experiment: SRE 1 (2007) & SRE 2 (2010) Human Spaceflight Program first LEO mission by 2015-20 Planetary Exploration Future Missions to Mars (2014), Asteroids/ Comets (2016)and Outer Solar System (2018+) 9. INDIAN LAUNCH VEICHLES 10. Chandrayaan-1 MissionObjectives:Place an unmanned spacecraft in polar orbitaround the moonConduct mineralogical and chemical mappingof the entire lunar surface (95%)Upgrade technological base for futureplanetary missionsOrbit: Lunar Polar Orbit at 100 KM CircularLaunched by Indian PSLV XL.Timeline: Oct 22, 2008 - Aug 29, 2009Spacecraft:Basic architecture derived from the IRS satellitebus, Spacecraft weight 1380 kg.Single solar panel generated 700 W power.Onboard liquid engine with 440 N performedorbit raising maneuvers.Eleven Science Instruments (six foreign) 11. Chandrayaan-2 Mission: Objectives: Investigate the origin and evolution of the MoonChandrayaan-2 Indian Lunar Rover with improved versions of Chandrayaan-1 instruments for imaging, mineralogy and chemical analysis Study of lunar radiation environment with alpha and neutron spectrometers Timeline: 2013 (Launch by Indian PSLV/ GSLV) Spacecraft: Lunar Orbiter basic architecture derived from the IRS satellite bus. Russian Lunar Lander & Rover Indian Lunar Orbiter & Mini-Rover In-situ analysis of lunar regolith by instruments carried by rovers. 12. ASTROSAT Mission:Objectives: Simultaneous multi-wavelength monitoring ofintensity variations in a broad range of cosmic sourcesMulti-wavelength Indian (but not the best sensitivity/ resolution)Astronomy Satellite Monitoring the X-ray sky for new transientsSky surveys in the hard X-ray and UV bandsBroadband spectroscopic studies of X-ray binaries,AGN, SNRs, clusters of galaxies and stellar coronaeStudy of periodic and non-periodic variability of X-raysourcesTimeline: 2010-2015 (Launch by Indian PSLV)Orbit: 650 km altitude circular orbit, with an orbitalinclination of 8Spacecraft:Basic architecture consists of a three-axis stabilizedsatellite (1650 kg), with a capability for orientationmaneuvers and attitude control.Pointing accuracy of about one arc-second. 13. SRE 1 & 2 Missions: Objectives: Develop and demonstrate capability to recover an orbiting capsule back to earth and to carryout micro-Space Capsule Recovery gravity experiments in orbit.Experiment Timeline: SRE-1 (Jan. 10-22, 2007); Polar SSO at 635 km. Launched as a co-passenger on PSLV-C7. Recovered from Indian Ocean SRE-2 (2010); LV: PSLV Spacecraft: Technologies tested in SRE-1 include navigation, guidance and control systems, hypersonic aero- thermo dynamics, communication black-out management, deceleration and flotation systems. SRE-2: Three experiments to be conducted (1) Growth of E-coli cells in a bio-reactor (2) Effect of space radiation and micro-gravity on seeds of rice and medicinal plants (JAXA) (3) Study the effect of microgravity on photosynthesis on a culture of bacteria 14. Objectives: Human Spaceflight Program: Develop a fully autonomous manned spacevehicle to carry two crew to 400 km LEO andsafe return to earth after mission duration ofIndian Human Spaceflight Programfew orbits to 2 days extendable up to 7 days.(Phase 1 LEO Mission) Rendezvous and docking capability withspace station/ orbital platform, safetyprovisions and provision for extra vehicularactivity.Timeline: 2015-20 (Launch by Indian GSLV mk2)Technology Development:Human Rated GSLV mk2 & mk3Crew Module and escape system (for 2 to 3)Critical technology development areas,astronaut training, new launch pad for HSFMissionsCollaboration with Russia for a 2013 SoyuzMission with Indian cosmonaut and Technicalcooperation 15. Indian Space Program Economics: 16. IntroductionIndian troops rout the British. The Englishconfrontation with Indian rockets came in1780 at the Battle of Guntur. The closelymassed, normally unflinching Britishtroops broke and ran when the IndianArmy laid down a rocket barrage in theirmidst. 17. However, the modern missile sresearch or the technology waspioneered by our former presidentDr.A.P.J.Abdul Kalam, popularly knownas The Missile Man of India. The most prominent missile programof India is Integrated Guided MissileDevelopment Program. This programwas under the leadership ofDr.A.P.J.Abdul Kalam. The program aimed at developmentof a comprehensive range of missiles. 18. Integrated Guided Missile DevelopmentProgram:The Integrated Guided Missile Development Program (IGMDP) was an Indian Ministry of Defence program between the early 1980s and 2007 for the development of a comprehensive range of missiles.The program was managed by Defence Research and Development Organization (DRDO) in partnership with other Indian government labs and research centres.The project was started in early 1980s and resulted in the development of several key strategic missiles.The last major missile developed under the program was Agni-3 intermediate-range ballistic missile which was successfully tested on 9 July 2007.the DRDO announced that it will be closing the IGMDP program formally since most of the missiles in the program have been developed and inducted into Indian armed forces. 19. MISSILES DEVELOPED IN THE IGMDP:AakashAgniIAgni----IIAgni----IIIAgni----VPrithive---IPrithive---IIPrithive---IIITrishulNAG 20. Aakash(Surface to Air missile): Missile -- Aakash Type -- Surface- to-AirMissile Range -- Medium Speed -- Mach 2.5 Used in Indian Army. Developed under the IGMDP. 21. VARIENTS OF PRITHIVE MISSILES: The Prithvi missile project encompassed developing three variants for use by the Indian Army, Indian Air Force and the Indian Navy, outlined in the initial project framework of the IGMDP. Prithvi I - Army Version (150 km range with a payload of 1000 kg) Prithvi II - Air Force Version (200 km range with a payload of 500 kg) Prithvi III - Naval Version (350 km range with a payload of 500 kg) 22. VARIENTS OF AGNI MISSILES:The Agni missile is a family of Medium to Intercontinental range ballisticmissiles developed by India under the Integrated Guided Missile DevelopmentProgram. Agni-I short range ballistic missile, 500 700 km range. Agni-II medium range ballistic missile, 2,000- 2,500 km range. Agni-II Advanced 2,750- 3,000 km range. Agni-III intermediate range ballistic missile, 3,000 - 5,500 km range. Agni-V intercontinental ballistic missile, 5000 6000 km [ range 23. TRISHUL MISSILE:The missile is a short range surface-to-air missile developed by India as a part of the Integrated Guided Missile Development Program.The range of the missile is 12 km and is fitted with a 15 kg warhead. The weight of the missile is 130 kg. The length of the missile is 3.1 m. 24. NAG MISSILE:Nag is Indias third generation "Fire-and-forget" anti-tank missile. It is an allweather, top attack missile with arange of 3 to 7 km.Total length: 1.90 m (6.23 ft.)Diameter: 190 mm (7.5 in)Weight: 42 kg (93 lb.)Warhead Weight: 8 kg (17.6 lb.)Propellant: Tandem Propulsion solid(Nitra mine based smokeless extrudeddouble band sustainer propellant)Maximum effective range: 4 km 25. SUPERSONIC MISSILE-- BRAHMOS BrahMos is a supersonic cruise missile that can belaunched from submarines, ships, aircraft or land. It is ajoint venture between Indias DRDO and Russias NPOMashinostroeyenia who have together formed BrahMosAerospace Private Limited. It travels at speeds of Mach 2.5 to 2.8. It is the Indias supersonic cruise missile. 26. Shaurya Missile: The Shaurya missile is a short-r