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Indian Missiles - News, Developments, Tests, and Discussions

INDIAN ARMY SAMS

1. 2K12 Kub

Sa6_1.jpg


The 2K12 "Kub" (Russian: 2К12 "Куб"; English: cube) mobile surface-to-air missile system is a Soviet low to medium-level air defence system designed to protect ground forces from air attack. "2К12" is the GRAU designation of the system. Kub is known in the west by its NATO reporting name "Gainful" as well as the US Department of Defense designation SA-6.

Each 2K12 battery consists of a number of similar tracked vehicles, one of which carries the 1S91 (SURN vehicle, NATO designation "Straight Flush") 25 kW G/H band radar (range 75 km/47 miles) equipped with a continuous wave illuminator, in addition to an optical sight. The battery usually also includes 4 triple-missile transporter erector launchers (TELs) and 4 trucks each carrying 3 spare missiles and a crane. TEL is based on a GM-578 chassis, while the 1S91 radar vehicle on a GM-568, all developed and produced by MMZ.

2. 9K35



The 9K35 Strela-10 (Russian: 9К35 «Стрела-10»; English: arrow) is a highly mobile, visually-aimed, optical/infra-red guided, low-altitude, short-range surface to air missile system. "9K35" is its GRAU designation; its NATO reporting name is SA-13 "Gopher".

3. 9K33

Bulgarian_SA-8.jpg

The 9K33 OSA (Russian: Оса; English: wasp) is a highly mobile, low-altitude, short-range tactical surface-to-air missile system. "9K33" is its GRAU designation. Its NATO reporting name is SA-8 Gecko.
 
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Thanks XINIX for your all Feel series... I am really "feel"-ing proud :bounce:... waiting for few more feel series on-
1) Greatest M&A from Indian companies ( Tata-Corus, Tata-J&R, Bharati-Zain etc..)
2) Feel the IT/ITes might (TCS, Wipro, Infy etc.)
3) Feel the Manufacturing strength (L&T, Reliance, Birla etc)

And on the similar way... I can try but I am not as good as you are in this...:cheers:
 
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Thanks XINIX for your all Feel series... I am really "feel"-ing proud :bounce:... waiting for few more feel series on-
1) Greatest M&A from Indian companies ( Tata-Corus, Tata-J&R, Bharati-Zain etc..)
2) Feel the IT/ITes might (TCS, Wipro, Infy etc.)
3) Feel the Manufacturing strength (L&T, Reliance, Birla etc)

And on the similar way... I can try but I am not as good as you are in this...:cheers:
Just have a slight Patience... Your Wishes will be fulfilled...
Over n Out..
 
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April 6, 2010: India has agreed to buy two more BrahMos missile regiments for the army, and to supply the BrahMos for the air force as well. The new regiments will have a more advanced block II missiles, which are more accurate and reliable at hitting pinpoint targets (like headquarters or technical installations) in crowded urban environments. The air launched version weighs 2.5 tons, the army and navy ones weigh three tons or more. The air force wants an even smaller, and lighter version of BrahMos, and the government has agreed to fund that work as well.
India and Russia developed the weapon together, and now offer the BrahMos for export. The high price of each missile, about $2-3 million (depending on the version), restricts the number of countries that can afford it. The weapon entered service with the Indian navy in 2005.

Two years ago, India ordered 800 more of the new PJ-10 BrahMos missiles. Russia has not yet ordered any BrahMos, while India is also working on lighter versions for use by aircraft and submarines. The 3.2 ton BrahMos has a range of 300 kilometers and a 660 pound warhead. Perhaps the most striking characteristic is its high speed, literally faster (at up to 3,000 feet per second) than a rifle bullet. The maximum speed of 3,000 kilometers an hour makes it harder to intercept, and means it takes five minutes or less to reach its target. Guidance is GPS or inertial to reach the general area of the target (usually a ship or other small target), then radar that will identify the specific target and hit it. The warhead weighs 660 pounds, and the high speed at impact causes additional damage (because of the weight of the entire missile.)

The 9.4 meter (29 foot) long, 670mm diameter missile is an upgraded version of the Russian SS-NX-26 (Yakhont) missile, which was still in development when the Cold War ended in 1991. Lacking money to finish development and begin production, the Russian manufacturer eventually made a deal with India to finish the job. India put up most of the $240 million needed to finally complete two decades of development. The PJ-10 is being built in Russia and India, with the Russians assisting India in setting up manufacturing facilities for cruise missile components. Efforts are being made to export up to 2,000, but no one has placed an order yet. Russia and India are encouraged enough to invest in BrahMos 2, which will use a scramjet, instead of a ramjet, in the second stage. This would double speed, and make the missile much more difficult to defend against.

India plans to make the missile a major weapon system. The BrahMos can carry a nuclear warhead, but is designed mainly to go after high value targets that require a large warhead and great accuracy. The BrahMos could take out enemy headquarters, or key weapons systems (especially those employing electronic or nuclear weapons.)
 
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A truism in many sports holds that offence gets headlines, but defence wins championships. Although it is only roughly analogous to sport, war and military technology exhibits the same skew in media coverage, as the evolution of India's strategic missile capability shows. Judging by recent test results, the second half of the equation may hold as well.

The defence doesn't rest: programmatic outperformance

Sandwiched between successful 2009 trials of the BrahMos cruise missile on 5 March and the Prithvi II nuclear-capable SRBM in mid-April, the 7 March test of an indigenous ABM missile was equally successful in terms of test objectives (although it received a fraction of the coverage, judging from Google hit statistics). Taken in programmatic context, however, the ABM test is much more impressive in three ways: success rate, development speed and technical challenge.

Success rate

So far India has gone three for three in ABM interceptor flight trials, each of which had a different test profile. In the first trial, a two-stage interceptor missile later named the Pradyumna incapacitated the target, an incoming Prithvi-II missile, at the upper edge of the stratosphere, 48km up. A year later, a single-stage missile developed under the advanced air defence (AAD) programme defeated another Prithvi-II 15km up (the altitude of many transcontinental plane flights). In the most recent test, another Pradyumna sporting improvements such as a gimballed directional warhead achieved an explosive kill of its target at an altitude of 75km, well into the mesosphere.

In contrast, the Prithvi SRBM itself failed three of its first six trials, and the newer Agni-III MRBM failed its first test. Failure rates of 50% in the first few tests of new weapons are neither unusual nor portents of ultimate futility, but this makes the Indian BMD track record even more impressive.

Development speed

India's Defence Research and Development Organisation (DRDO) publicly revealed its BMD programme right after the first test in November 2006, less than three years ago.

At that time, Indian programme managers conceded that BMD research had been underway 'for years', but given that DRDO had tried diligently to make the Trishul SAM work in ABM mode for years, as well, the Pradyumna programme couldn't have been DRDO's primary initiative.[I was saying in another discussion that Trishul served as basic block for the other programme] In any event, ABM weapon testing could be completed by 2010 given current rates of progress, according to VK Saraswat, head of missile development at DRDO.

In contrast, DRDO has pursued offensive ballistic missile development since 1983, when it initiated the integrated guided missile development programme (IGMDP). Even now, according to one Indian commentator, the Agni-I is the only fully operational nuclear-capable ballistic missile in India's arsenal. Most of this protracted development cycle has consisted of post-testing production and field integration delays, which should quell undue optimism about the young BMD programme, but even so, both ABM interceptors are ahead of all previous IGMDP timetables.

Technical challenge

Judging technical difficulty of a mission by the number of nations that can execute it, BMD is the most challenging military task, as only the US and Russia have independently fielded fully indigenous BMD systems (the Israeli Arrow is a US-Israel joint venture). The anti-satellite task is actually second (US, Russia, and China), and long-range ballistic missiles currently run third, although this club seems to be in the process of doubling.

If any nation can benefit from BMD, it's India

Indeed, ballistic missile proliferation in Asia makes India's BMD programme even more significant in the long term than its offensive nuclear ballistic missile programmes.

First and foremost, the November 2008 Mumbai attack and the current spread of Taliban influence in Pakistan have raised the spectre of Pakistani missiles and/or nuclear warheads falling into the hands of terrorists, against whom traditional deterrence is at best uncertain.

Beyond the Pakistani threat, whether national or subnational, India's offensive ballistic missile programme lags behind that of its main regional rival, China. Although DRDO has improved its success rate for offensive tests recently, China has just as much momentum and occupies a more advanced position, especially in terms of long-range ICBMs either operational or in the pipeline.

BMD is therefore India's most likely countervailing asset in the foreseeable future. China's high-altitude SAMs can engage some ballistic missiles, but only to a 30km ceiling, and evidently China has no R&D effort comparable to India's BMD programme at this time. In this respect, China's ASAT capability doesn't really count, as ballistic missiles are to satellites as fighter aircraft are to armoured personnel carriers. Last but not least, India is significantly better than China at software development and programming, which are critical to BMD system effectiveness.

Finally, India itself lags in deploying submarine-launched ballistic missiles, the most survivable leg of the nuclear triad. Should India's naval missile programme follow the same timetable as India's other strategic naval and missile programmes, a BMD capability could add significant survivability to India's nuclear deterrent.

Can failure breed success?

To be fair, India's offensive ballistic missiles don't deserve direct managerial comparison to the BMD programme. As noted previously, the BMD programme hasn't yet reached the point where Indian R&D usually derails; as Saraswat himself cautioned, deployment rates are 'not in [DRDO's] hands'.

More important, early failures pave the way to ultimate success: as Thomas Edison said in response to derision at the thousandth failure of the prototype light bulb: 'now we know a thousand ways that it won't work'. Current BMD development benefits from the advances and setbacks of IGMDP, which included the Akash and Prithul SAM projects as well as the Agni and Prithvi. In fact, the Pradyumna ABM was originally called the Prithvi air defence (PAD) missile because it used the generic Prithvi missile design. Conversely, the DRDO strenuously attempted to give the Prithul ABM capability before ultimately admitting failure.

However, other factors may underpin programmatic BMD outperformance. In no particular order:

The one way in which interceptor missiles are less complex than offensive ballistic missiles is that modern versions of the former don't carry nuclear warheads. [India doesnt have such problem, it can if needed very much augment Interceptor missiles warheads with N warhead, case in point is Akash]
The BMD was not developed under the auspices of IGMPD, suggesting that the latter may have been (or would become) too bureaucratic.
The BMD programme not only post-dated the IGMPD, but also probably started during, and quite possibly because of, the ramping up of Pakistan's missile capability. In this regard, the 1999 Kargil conflict occurred just a year after Pakistan detonated its first nuclear munition.
Is true danger the mother of efficiency?

There is in fact an exact historical precedent for the correlation of serious perceived threat and speedy weapons development: the first generation of US strategic nuclear missiles.

By 1952, nuclear warheads had become small enough to put on missiles, but the US missile programmes did not really kick into high gear until 1957, when the Sputnik launch, along with faster-than-expected Soviet development of its first ICBM (the SS-6), created fears of a Soviet-US 'missile gap'. Consequently, the USAF and USN made development of ICBM and SLBM systems their top priority, creating all-star teams of scientists and engineers with essentially unlimited resources.

The effect of concentrating talent, subordinating bureaucratic processes to a tight deadline, enabled by top-level political support and underpinned by strong psychological fear, produced results. A 1958 US catch-up plan called for full operational deployment of nine Atlas squadrons and four Titan squadrons by March 1963. By October 1961, the Strategic Air Command subsequently activated 13 Atlas and six Titan squadrons – 18 months early. The Polaris SLBM project was similarly successful: the first successful test launch was in 1960, just four years from project initiation, and IOC occurred in 1961.

"India's ballistic missile programme lags behind that of its main regional rival – China."In contrast, the second generation of US strategic nuclear weapons systems came in behind schedule, over budget, and arguably under promised capability – at a time when nuclear weapons had become much more survivable and effective in their deterrent role.

If past is prologue, then India's long record of military procurement frustration might be ending – at least in the strategic nuclear weapons space. Indeed, the DRDO is on a roll with its recent tests of offensive missiles; even the January 2009 BrahMos test failure was rectified within weeks.

In the end, the best military procurement principle may have come from essayist Samuel Johnson: 'nothing so wonderfully concentrates the mind as the prospect of hanging in the morning'.
India?s Missiles Head up the Learning Curve - Air Force Technology
 
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Good article, though India needs lots of ABM batteries to cover both the western and northern fronts.
 
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India’s Missiles Fly Up the Learning Curve idrw.org

india_abm.png


A truism in many sports holds that offence gets headlines, but defence wins championships. Although it is only roughly analogous to sport, war and military technology exhibits the same skew in media coverage, as the evolution of India’s strategic missile capability shows. Judging by recent test results, the second half of the equation may hold as well.

The defence doesn’t rest: programmatic outperformance

Sandwiched between successful 2009 trials of the BrahMos cruise missile on 5 March and the Prithvi II nuclear-capable SRBM in mid-April, the 7 March test of an indigenous ABM missile was equally successful in terms of test objectives (although it received a fraction of the coverage, judging from Google hit statistics). Taken in programmatic context, however, the ABM test is much more impressive in three ways: success rate, development speed and technical challenge.

Success rate

So far India has gone three for three in ABM interceptor flight trials, each of which had a different test profile. In the first trial, a two-stage interceptor missile later named the Pradyumna incapacitated the target, an incoming Prithvi-II missile, at the upper edge of the stratosphere, 48km up. A year later, a single-stage missile developed under the advanced air defence (AAD) programme defeated another Prithvi-II 15km up (the altitude of many transcontinental plane flights). In the most recent test, another Pradyumna sporting improvements such as a gimballed directional warhead achieved an explosive kill of its target at an altitude of 75km, well into the mesosphere.

In contrast, the Prithvi SRBM itself failed three of its first six trials, and the newer Agni-III MRBM failed its first test. Failure rates of 50% in the first few tests of new weapons are neither unusual nor portents of ultimate futility, but this makes the Indian BMD track record even more impressive.

Development speed

India’s Defence Research and Development Organisation (DRDO) publicly revealed its BMD programme right after the first test in November 2006, less than three years ago.

At that time, Indian programme managers conceded that BMD research had been underway ‘for years’, but given that DRDO had tried diligently to make the Trishul SAM work in ABM mode for years, as well, the Pradyumna programme couldn’t have been DRDO’s primary initiative.[I was saying in another discussion that Trishul served as basic block for the other programme] In any event, ABM weapon testing could be completed by 2010 given current rates of progress, according to VK Saraswat, head of missile development at DRDO.

In contrast, DRDO has pursued offensive ballistic missile development since 1983, when it initiated the integrated guided missile development programme (IGMDP). Even now, according to one Indian commentator, the Agni-I is the only fully operational nuclear-capable ballistic missile in India’s arsenal. Most of this protracted development cycle has consisted of post-testing production and field integration delays, which should quell undue optimism about the young BMD programme, but even so, both ABM interceptors are ahead of all previous IGMDP timetables.

Technical challenge

Judging technical difficulty of a mission by the number of nations that can execute it, BMD is the most challenging military task, as only the US and Russia have independently fielded fully indigenous BMD systems (the Israeli Arrow is a US-Israel joint venture). The anti-satellite task is actually second (US, Russia, and China), and long-range ballistic missiles currently run third, although this club seems to be in the process of doubling.

If any nation can benefit from BMD, it’s India

Indeed, ballistic missile proliferation in Asia makes India’s BMD programme even more significant in the long term than its offensive nuclear ballistic missile programmes.

First and foremost, the November 2008 Mumbai attack and the current spread of Taliban influence in Pakistan have raised the spectre of Pakistani missiles and/or nuclear warheads falling into the hands of terrorists, against whom traditional deterrence is at best uncertain.

Beyond the Pakistani threat, whether national or subnational, India’s offensive ballistic missile programme lags behind that of its main regional rival, China. Although DRDO has improved its success rate for offensive tests recently, China has just as much momentum and occupies a more advanced position, especially in terms of long-range ICBMs either operational or in the pipeline.

BMD is therefore India’s most likely countervailing asset in the foreseeable future. China’s high-altitude SAMs can engage some ballistic missiles, but only to a 30km ceiling, and evidently China has no R&D effort comparable to India’s BMD programme at this time. In this respect, China’s ASAT capability doesn’t really count, as ballistic missiles are to satellites as fighter aircraft are to armoured personnel carriers. Last but not least, India is significantly better than China at software development and programming, which are critical to BMD system effectiveness.

Finally, India itself lags in deploying submarine-launched ballistic missiles, the most survivable leg of the nuclear triad. Should India’s naval missile programme follow the same timetable as India’s other strategic naval and missile programmes, a BMD capability could add significant survivability to India’s nuclear deterrent.

Can failure breed success?

To be fair, India’s offensive ballistic missiles don’t deserve direct managerial comparison to the BMD programme. As noted previously, the BMD programme hasn’t yet reached the point where Indian R&D usually derails; as Saraswat himself cautioned, deployment rates are ‘not in [DRDO's] hands’.

More important, early failures pave the way to ultimate success: as Thomas Edison said in response to derision at the thousandth failure of the prototype light bulb: ‘now we know a thousand ways that it won’t work’. Current BMD development benefits from the advances and setbacks of IGMDP, which included the Akash and Prithul SAM projects as well as the Agni and Prithvi. In fact, the Pradyumna ABM was originally called the Prithvi air defence (PAD) missile because it used the generic Prithvi missile design. Conversely, the DRDO strenuously attempted to give the Prithul ABM capability before ultimately admitting failure.

However, other factors may underpin programmatic BMD outperformance. In no particular order:

The one way in which interceptor missiles are less complex than offensive ballistic missiles is that modern versions of the former don’t carry nuclear warheads. [India doesnt have such problem, it can if needed very much augment Interceptor missiles warheads with N warhead, case in point is Akash]
The BMD was not developed under the auspices of IGMPD, suggesting that the latter may have been (or would become) too bureaucratic.
The BMD programme not only post-dated the IGMPD, but also probably started during, and quite possibly because of, the ramping up of Pakistan’s missile capability. In this regard, the 1999 Kargil conflict occurred just a year after Pakistan detonated its first nuclear munition.

Is true danger the mother of efficiency?

There is in fact an exact historical precedent for the correlation of serious perceived threat and speedy weapons development: the first generation of US strategic nuclear missiles.

By 1952, nuclear warheads had become small enough to put on missiles, but the US missile programmes did not really kick into high gear until 1957, when the Sputnik launch, along with faster-than-expected Soviet development of its first ICBM (the SS-6), created fears of a Soviet-US ‘missile gap’. Consequently, the USAF and USN made development of ICBM and SLBM systems their top priority, creating all-star teams of scientists and engineers with essentially unlimited resources.

The effect of concentrating talent, subordinating bureaucratic processes to a tight deadline, enabled by top-level political support and underpinned by strong psychological fear, produced results. A 1958 US catch-up plan called for full operational deployment of nine Atlas squadrons and four Titan squadrons by March 1963. By October 1961, the Strategic Air Command subsequently activated 13 Atlas and six Titan squadrons – 18 months early. The Polaris SLBM project was similarly successful: the first successful test launch was in 1960, just four years from project initiation, and IOC occurred in 1961.

“India’s ballistic missile programme lags behind that of its main regional rival – China.”In contrast, the second generation of US strategic nuclear weapons systems came in behind schedule, over budget, and arguably under promised capability – at a time when nuclear weapons had become much more survivable and effective in their deterrent role.

If past is prologue, then India’s long record of military procurement frustration might be ending – at least in the strategic nuclear weapons space. Indeed, the DRDO is on a roll with its recent tests of offensive missiles; even the January 2009 BrahMos test failure was rectified within weeks.

In the end, the best military procurement principle may have come from essayist Samuel Johnson: ‘nothing so wonderfully concentrates the mind as the prospect of hanging in the morning’.
 
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Is everyone here blind?

Do you not see the sticky threads set up for particular subjects?

I will just start deleting threads instead of merging them - either that or new threads will have restrictions on them in this section. They will stay pending until moderators approve them.
 
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One missile to rule them all - Views - livemint.com

Developing intercontinental ballistic missiles is crucial if India is to have a credible deterrence and power-projection force as it aspires to become a global power

With China engaged in ambitious missile force modernization and the US building new intercontinental ballistic missiles (ICBMs) as part of its “Prompt Global Strike” programme, the question we need to ask is: When will India develop its first ICBM? Without such capability, India has little hope of emerging as a major power.



ICBMs are the idiom of power in international relations. Even as economic might plays a greater role in shaping international power equations, hard power remains central both for national deterrence and for power-projection force capability. For example, all countries armed with intercontinental-range weaponry hold permanent seats in the United Nations Security Council, and all aspirants for new permanent seats have regionally confined military capabilities.

India has glaring deficiencies on both the deterrence and power-projection fronts. It urgently needs a delivery capability that can underpin its doctrine of minimum but credible nuclear deterrence. The current heavy reliance on long-range bomber aircraft is antithetical to a credible deterrence posture.

Such a posture bereft of long-range missile reach only helps typecast India as a subcontinental power. In fact, in the absence of “strategic” or long-range missile systems, India’s deterrent capability remains sub-strategic.

If India seriously desires to project power far beyond its shores in order to play an international role commensurate with its size, it cannot do without ICBMs. Indeed, the only way India can break out from the confines of its neighbourhood is to develop intercontinental-range weaponry. With its current type of military capabilities, India will continue to be seen as a regional power with great-power pretensions.

To embark on an ICBM programme, India needs to shed its strategic diffidence. The National Democratic Alliance government told Parliament: “India has the capability to design and develop ICBMs. However, in consonance with the threat perception, no ICBM development project has been undertaken.” That policy inexplicably remains unchanged under the United Progressive Alliance government, even as India faces a growing threat from the new ICBMs in China’s increasingly sophisticated missile armoury.

An ICBM has a range of 5,500km and more. Rather than aim for a technological leap through a crash ICBM programme, India remains stuck in the intermediate-range ballistic missile (IRBM) arena, where its frog-like paces have taken it—more than two decades after the first Agni test—to Agni III, a sub-strategic missile still not deployed. Even the Agni V project, now on the drawing board, falls short of the ICBM range.

No nation can be a major power without three key attributes:
(1) a high level of autonomous and innovative technological capability;
(2) a capacity to meet basic defence needs indigenously; and
(3) a capability to project power far beyond its borders, especially through intercontinental-range weaponry.

India is today the world’s largest importer of conventional weapons, ordering weapons worth at least $5 billion per year. Far from making the nation stronger, such large arms imports underscore the manner in which the country is depleting its meagre defence resources and eroding its conventional military edge. The Indian military today can achieve many missions, including repulsing an aggression and inflicting substantial losses on invaders. It can even carry out limited pre-emptive or punitive action and fend off counteraction. But it cannot do what any major military should be trained and equipped for—decisively win a war against an aggressor state.

The reason is not hard to find: Modernization outlays mainly go not to develop the country’s own armament production base, but to subsidize the military-industrial complex of others through import of weapons, some of questionable value. None of the weapon mega deals India has signed in recent years will arm its military with the leading edge it needs in an increasingly volatile and uncertain regional security environment.

Its military asymmetry with China has grown to the extent that it has fostered disturbing fecklessness in India’s China policy, best illustrated by external affairs minister S.M. Krishna’s recent Beijing visit. And in the absence of a reliable nuclear deterrent, India has become ever more dependent on conventional weapon imports. Among large states in the world, India is the only one that relies on imports to meet even basic defence needs.

Last year’s launch of the country’s first nuclear-powered submarine, INS Arihant, for underwater trials received a lot of media attention. A nuclear-powered, ballistic missile-carrying submarine (known as SSBN) is essential for India to bridge the yawning gap in its deterrent force against China. But even if everything goes well, India’s first SSBN will be deployed in the years ahead with a non-strategic weapon—a 700km submarine-launched ballistic missile now under development. That would further underpin the regional character of India’s deterrence.

Without hard power, India will continue to punch far below its weight and be mocked at by critics. One well-known India baiter, journalist Barbara Crossette, claims: “…today’s India is an international adolescent, a country of outsize ambition but anemic influence.” That India still does not have an ICBM project—even on the drawing board—is a troubling commentary about the lack of strategic prudence. China built its first ICBM even before Deng Xiaoping initiated economic modernization in 1978. A generation later, the Indian leadership has yet to grasp international power realities.
 
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haha do it, thats the only thing keeping us back from making one of our own

or maybe thats whats keeping india back from making one of their own ;)
 
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India can do it whenever they want to. It's just a matter of political will and more so for Pakistan. ICBMs are also part of their long term goals and does not address the immediate problems.

Both countries need an arsenal of capable cruise missile, they need long range air to air missiles, they need high ceiling SAMs. They don't immediately need range for a nuclear bomb delivery vehicle but all the rest for their conventional force.

The US goes around the world to pick fights, we pick fights within the region. The most likely scenario for them to be desperate to make ICBMs is if they foresee a fight with the US itself.
 
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