Agni V Missile test launch

Status
Not open for further replies.

JAISWAL

New Member
Joined
Mar 13, 2010
Messages
1,527
Likes
1,027
AGNI- V : What next ?? | idrw.org
++
AGNI- V : What next ??

.
.
.

.
.India dashed into Elite Group of Countries , in terms of Missile technology and current Agni -V put India into the big league , but what next is the question been asked , well current plans for the DRDO will be to have two more test of Agni-V variant with one year period time and next launch as per sources will be a canisterised based Agni-V .
Most crucial test which come after 2014 that will feature Agni-V with Multiple Independent Re-entry Vehicles (MIRVs) with each missile being capable of carrying 3-10 separate nuclear warheads.
MIRVs ensure a credible second strike capability even with few missiles.
Next Big thing in Indian Missile arsenal will be development of K-X series by DRDO, K-X, named after former President of India Dr. APJ Abdul Kalam, is the next significant development under the K-X series by DRDO, K-X missiles will be India's Submarine launched missiles , under development for INS Arihant class nuclear submarines . Under K-X series , DRDO is said to be developing three class of missiles under this secret project , that involves development of K-15 aka Sagarika , which is a submarine missile based on Shourya missile (Surface based) will range of 750 km and DRDO also have declared that more then 15 test of this missiles have been carried out in last few years .
K-4 is another missile supposedly based on Agni- III/IV missiles with range of 3500km to 4500km , and has been in key focus after successful testing
of K-15, another missile known as K-5 SLBM again alleged to be based on Agni-V is also under
consideration and development will start after Agni-V development is completed .

Next Major thing after Agni-V , might be another Missile coming from Agni Family , that will be Agni-VI , DRDO News letter of May 2011 had hinted about Agni- VI , Some reports claime that the ICBM is already named "Surya" and code named AGNI-VI, but no confirmation has been put forward by DRDO , but DRDO news letter mentioned that Shri Avinash Chander, current development head of Agni-IV and Agni-V will head three projects and third Project mentioned was 6000 km A6 system with multiple warheads (MIRV) capable of launching both from the ground and underwater.
 

Yusuf

GUARDIAN
New Member
Joined
Mar 24, 2009
Messages
24,330
Likes
11,874
Country flag
Decoys dont have to be as large nor do they have to weigh the same bu they take one spot on the MIRV.

Mad Indian, testing more nukes is a never ending argument that I have with my good friend Yusuf. We dont agree on anything when it comes to our nuclear program and have had countless debates, though I must say that status quo on our nuclear posture means that in the real world he is winning all the debates. :)
Chaffa to throw off radars dont take any weight.

Yes we will agree to disagree on the nuclear issue :D
 

Yusuf

GUARDIAN
New Member
Joined
Mar 24, 2009
Messages
24,330
Likes
11,874
Country flag
Maybe they will be tested on supercomputers??
The tests we did in 98 gave us a lot of data. But it depends on super computing power. If other world powers were testing now, India could well have tested more. But then times are not favorable right now. We need to get stronger economically and militarily.

Once the rest of the world are at a point of no return with India, we could test. But then, at that time we may not need to test at all!
 

JAISWAL

New Member
Joined
Mar 13, 2010
Messages
1,527
Likes
1,027
Business Line : Industry & Economy / Economy : Production of Agni-V to begin in a year: DRDO chief
+++
Production of Agni- V to begin in a year: DRDO chief
.
.

India has emerged as a major missile power with the successful launch of Agni-V ballistic missile and the production of the weapon system would start in a year's time, DRDO chief, Dr V.K. Saraswat, has said.
"This launch has given a message to the entire world that India has the capability to design, develop, build and manufacture missiles of this class, and we are today a missile power," Dr Saraswat said today after the launch of the 5,000 km range surface-to-surface Inter Continental Ballistic Missile (ICBM).
The Defence Research and Development Organisation chief said that the missile launch was a major milestone in the defence preparedness of the country.
"We are going to conduct two more tests and that will be validation tests..., and then the production of this system will start. It is going to take a year maximum," he said.
Dr Saraswat said that he expected the missile to be inducted into the armed forces in the next two years. He said the successful launch of Agni-V was just the beginning of a new series of missiles.
"We go from here to many other missiles which will have the capability for MIRV (Multiple Independently Targetable Re-entry Vehicle) for anti-satellite system, which will also be built using this technology for launching micro, mini and nano satellites to meet the requirement of the armed forces on very, very short notice," he said.
Dr Saraswat said that barring some electronic components, the Agni-V was a completely indigenous product. "More than 80 per cent of the missile is indigenous, except for the electronic components which we import... Everything has been designed, developed and produced in our industry and our laboratory," he said.
 

trackwhack

New Member
Joined
Jul 20, 2011
Messages
3,757
Likes
2,590
Chaffa to throw off radars dont take any weight.

Yes we will agree to disagree on the nuclear issue :D
No it dosent, but it takes a spot on the MIRV. 5 decoys means 5 spots on the MIRV leaving 5 other for the real warheads.
 

Yusuf

GUARDIAN
New Member
Joined
Mar 24, 2009
Messages
24,330
Likes
11,874
Country flag
Physically, a ballistic missile is typically between 30 and 100 feet tall. It is powered by liquid fuel such as oxygen and kerosene or solid fuels such as combinations of powdered metals like zinc or magnesium. Because it must accelerate to 15,000 miles per hour while pushing several thousand pounds of payload, the missile is built to be light.
During its flight, the ballistic missile is boosted by its engines at an upward angle. During this boost phase, the engines burn for up to 300 seconds, propelling the missile until it is about 200 miles up. Within 50 seconds, the missile is above almost all of the earth's atmosphere and really begins to accelerate, reaching its top speed of some 15,000 miles per hour. The engines drop off and the boost phase of the flight ends.
With a single warhead ICBM, after the last stage drops off, the missile directs the warhead to its target. With a multiple warhead ICBM, after the last stage drops off, the missile begins to dispense its warheads one by one, directing them to separate targets. It may also spread decoys designed to defeat an anti-missile system. This is known as the post-boost phase and may last until the missile reaches the top of the trajectory some 800 miles above the earth. At this stage, the missile's path is affected only by the force of gravity.
The longest stage of the flight, lasting perhaps twenty minutes, begins after the last release maneuver. During this mid-course phase, decoys made of tinfoil travel alongside heavy warheads, undisturbed by air. Radars find it difficult to distinguish between decoy and warhead because their spaces reflect radio waves similarly. Moreover, radars have to contend with clouds of thin metallic foil strips called chaff. Infrared devices, for their part, have some difficulty distinguishing between warhead and decoys. But while tinfoil decoys quickly become cold as the surrounding space, warheads retain and radiate some heat. The Space Based Infra Red System (SBIRS-Low) currently being researched has the ability to distinguish between warhead and decoy with great accuracy.
Roughly speaking, the final five minutes of the flight constitute the terminal phase, during which the atmosphere affects the reentering warheads and decoys. By measuring variations in speed and movement, sophisticated radars and satellites can distinguish the warheads from most decoys.
At this point in the warhead's flight, there is little time to intercept it.
At this point, the warhead will explode either at a preset altitude, when a proximity fuse tells it that it has come as close to its target as it is going to, or when a salvage fuse tells it that it is being destroyed in the case of terminal phase interception by an anti-missile system. If a warhead explodes roughly twenty miles above the earth, for whatever reason, it will do no harm to life or property below. Below this, there will be damage.
In the best case anti-missile interception, the missile is destroyed during boost phase and its warhead or warheads will never reach terminal phase. Gravity will cause them to fall back, unexploded, either on the area whence they were launched, or on the North Polar regions in the event of a Russian or Chinese attack. Obviously, if we want to defend the United States against the ballistic missiles, the boost phase is the best point at which to do it. The challenge becomes greater the farther into its flight the missile travels.
—-
Boost Phase
Ballistic missiles are launched straight up. To lift many tons, a missile unleashes a massive, controlled explosion that creates flames hundreds of feet long and thousands of degrees hot. Missiles move relatively slowly through the lower atmosphere to minimize air resistance, and gather speed as they rise into thinner air and then into space. As the missile leaves the lower atmosphere, it tips in the direction of the target and gains speed. If the missile is being launched to maximum range, it will tip at an angle of 45 degrees, half its energy going to gain height (and therefore time aloft), the other to gain distance. The missile's range depends on the ratio between the thrust generated by the engines and the weight that the thrust must overcome—and of course on the duration of the thrust. This means that any given missile's range can vary tremendously. To lengthen the range of any given missile, just lighten the load. To shorten the range, either increase the load or fire the missile at an angle steeper than 45 degrees. If the missile has stages, the lower ones will drop off after they have burned their fuel, and lighten the load. At a designated point in space, the last engines shut off or burn out. The time between launch and engine burn out ranges from less than one minute to over five. Engine burn out ends Boost phase. From this point on, the laws of physics will carry what remains of the missile, as well as the payload, onto the vicinity of the target, no matter what.
As the missile floats to the top of its trajectory, the section that carries the payload, called the Post Boost Vehicle or 'Bus,' makes final adjustments to the course. During this time, missiles that carry multiple warheads spin off each warhead precisely in the direction of its individual target. They also deploy decoys—thin replicas of warheads, or foil balloons, the purpose of which is to give false targets to enemy radars. This is the Post-Boost phase. Multiple warheads mean that each missile can strike many targets and present many real threats with which ground based defenses must deal. Decoys force ground based defenses to face numerous false threats as well as real warheads. Post-boost vehicles can release large numbers of small sub munitions, instead of warheads and decoys. Each of these is a real threat to the target. High numbers of warheads overwhelm ground based defenses.
Midcourse Phase
As warheads, decoys, and the remains of the missile coast over the top of the ballistic arch, and until they reach the upper edges of the atmosphere above the target, they fall freely. As they do so they gradually spread apart along their individual ballistic paths. This, the longest part of the trajectory, is called Midcourse Phase. The warheads, etc. reach maximum speed at the end of midcourse phase, before atmospheric interference begins.
Terminal Phase
The terminal Phase begins as the first air molecules begin to slow down and then to heat and to burn up the thin decoys and the remains of the missile. The air slows and heats the warheads too. But they are armored against heat and pressure, so they get through the atmosphere. The range of the missile determines the angle at which warheads fall onto the target. Warheads from the longest range missiles arrive at shallow angles of little more than twenty degrees, while shorter range ones can come in at 45 degrees. The reason why warheads from the longest range missiles come in at the shallowest angles is that, because the earth over which they have traveled is curved, faraway targets lie on something like the reverse slope of a hill.


http://www.missilethreat.com/overview/pageID.157/default.asp
 

sayareakd

New Member
Joined
Feb 17, 2009
Messages
17,734
Likes
18,953
Country flag
Hope that X band radar has worked perfectly and was able to track the A5 from launch to actual point of impact........... if this has happen then it will make way for the development of AD1 and AD2 at fast rate.
 

Blackwater

New Member
Joined
Jan 9, 2012
Messages
21,156
Likes
12,211
AGNI- V : What next ??

Lot of arse burning cases in Chinese hospital and lot of demand of Burnol

what else:lol::lol::lol::scared2::scared2:
 

sayareakd

New Member
Joined
Feb 17, 2009
Messages
17,734
Likes
18,953
Country flag
This fact shows that RV was on target.....................:cool2:

The fireball that erupted when the dummy payload hit the waters of the Indian Ocean was recorded by the cameras on board the ships stationed around the impact point.
The Hindu : News / National : Agni-V propels India into elite ICBM club
yeah if you can think it like this

when ISRO space capsule recovery experiment happen this is when it touch down




check it is red hot and

when the tiles cool down it looks like this



so an RV coming at fast pace getting red hot with re entry into atosphere can cause fireball when it hit water. :thumb:
 
Status
Not open for further replies.

Articles

Top