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Words near each other
・ Shahab Khodro
・ Shahab Lilam
・ Shahab od Din, Afghanistan
・ Shahab od-Din Sadr
・ Shahab ol Din
・ Shahab ol Din, Ardabil
・ Shahab ol Din, Kurdistan
・ Shahab ol Din, Mazandaran
・ Shahab Paranj
・ Shahab Sheikh Nuri
・ Shahab Uddin
・ Shahab Yampi
・ Shahab Zahedi
・ Shahab-1
・ Shahab-2
Shahab-3
・ Shahab-4
・ Shahab-5
・ Shahab-6
・ Shahababad
・ Shahababad, Fars
・ Shahababad, Kerman
・ Shahabad
・ Shahabad (Lok Sabha constituency)
・ Shahabad district
・ Shahabad Markanda
・ Shahabad, Alwar
・ Shahabad, Gulbarga
・ Shahabad, Hardoi
・ Shahabad, Iran


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Shahab-3 : ウィキペディア英語版
Shahab-3

The Shahab-3 ((ペルシア語:Ŝahāb 3); ''shahâb'' means "meteor") is a medium-range ballistic missile (MRBM) developed by Iran and based on the North Korean Nodong-1. The Shahab-3 has a range of ; a MRBM variant can now reach .〔Federation of American Scientists. (Shahab-3 / Zelzal-3 ) fas.org〕 It was tested from 1998 to 2003 and added to the military arsenal on July 7, 2003, with an official unveiling by Khamenei on July 20.
The forerunners to this missile include the Shahab-1 and Shahab-2. The then-Iranian Defense Minister Admiral Shamkhani has denied that Iran plans to develop a Shahab-4. Some successors to the Shahab have longer range and are also more maneuverable.〔(【引用サイトリンク】url=http://missilethreat.com/missiles/ghadr-1/ )
Operating under the Sanam Industrial Group (Department 140), which is part of the Defense Industries Organization of Iran, the Shahid Hemmat Industrial Group (SHIG), led the development of the Shahab missile.
==Shahab-3B==
The Shahab-3B differs from the basic production variant. It has improvements to its guidance system and warhead, a few small changes on the missile body, and a new re-entry vehicle whose terminal guidance system and rocket-nozzle steering method are completely different from the Shahab-3A's spin-stabilized re-entry vehicle.
The new re-entry vehicle uses a triconic aeroshell geometry (or "baby bottle" design) which improves the overall lift to drag ratio for the re-entry vehicle. This allows greater range maneuverability which can result in better precision. The triconic design also reduces the overall size of the warhead from an estimated to .
The rocket-nozzle control system allows the missile to change its trajectory several times during re-entry and even terminal phase, effectively preventing interceptor guidance via trajectory prediction by early warning radar—a method nearly all long range ABM systems use. As a high-speed ballistic missile and pre-mission fueling capability, the Shahab-3 has an extremely short launch/impact time ratio. This means that the INS/gyroscope guidance would also remain relatively accurate until impact (important, given the fact that the gyroscopes tend to lose accuracy with longer flights). The CEP is estimated to be at or less.〔(【引用サイトリンク】Shahab 3: an Advanced IRBM )〕 However, the accuracy of the missile is largely speculative and cannot be confidently predicted for wartime situations.
These improvements would increase the Shahab-3B's survivability against ABM systems such as Israel's Arrow 2 missile (though it's ability to overcome Arrow is very questionable) as well as being used for precision attacks against high-value targets such as command, control, and communications centres.

File:shahab_3_engine.jpg|Shahab 3 engine


抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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