Iraq Gps Map
The Tomahawk missile family consists of a number of subsonic, jet enginepowered missiles designed to attack a variety of surface targets. Although a number of launch. Going somewhere Go with Maps, the official app you can rely on for realtime GPS navigation, traffic, transit, and details about millions of places, such. For the latest updates to Global Public Square, including show information and Fareeds Take, visit the new GPS site on CNN. Mobile Phone GPS Tracking Technology A free web site allows users to track the location of any cell phone Download Free Iraq ArcGIS Shapefile Map LayersFree GIS Maps ArcGIS ShapefilesDownload Free World ArcGIS Shapefiles. Iraq Buildings 3K zip file. Russias searchengine giant Yandex says Sakhalin Island briefly fell victim to a bug in its map. Tomahawk missile Wikipedia. Tomahawk. A BGM 1. Tomahawk flying in November 2. Type. Long range, all weather, subsonic cruise missile. Place of origin. United States. Service history. In service. Used by. United States Navy. Royal Navy. Production history. Manufacturer. General Dynamics initiallyMc. Donnell Douglas. Hughes Aircraft Corporation. Raytheon. Unit cost1. MFY2. 01. 71 Block IVSpecifications. Iraq_kurdistan_region.png' alt='Iraq Gps Map' title='Iraq Gps Map' />Weight. Length. Without booster 1. With booster 2. 0 ft 6 in 6. Diameter. 20. 4 in 0. Warhead. Nuclear W8. Conventional 1,0. High explosive or Submunitions dispenser with BLU 9. Before contacting us Please check our site map, search feature, or our site navigation on the left to locate the information you seek. We do not routinely. Maps/baghdad.gif' alt='Iraq Gps Map Download' title='Iraq Gps Map Download' />Iraq Gps Map For IphoneB Combined Effects Bomb or PBXNDetonationmechanism. FMU 1. 48 since TLAM Block III, others for special applications. Engine. Williams International. F1. 07 WR 4. 02turbofanusing TH dimer fueland a solid fuel rocket booster. Magix Video Pro X7 Serial on this page. Wingspan. 8 ft 9 in 2. Operationalrange. Block II TLAM A 1,3. Block III TLAM C, Block IV TLAM E 9. Block III TLAM D 7. Flight altitude. 305. AGL4Speed. Subsonic about 5. Guidancesystem. GPS, INS, TERCOM, DSMAC, active radar homing RGMUGM 1. BLaunchplatform. Vertical Launch System VLS and horizontal submarine torpedo tubes known as TTL torpedo tube launchThe Tomahawk US or UK Land Attack Missile TLAM is a long range, all weather, subsoniccruise missile that is primarily used by the United States Navy and Royal Navy in ship and submarine based land attack operations. Introduced by General Dynamics in the 1. Since then, it has been upgraded several times with guidance systems for precision navigation. From 1. 99. 2 1. Mc. Donnell Douglas Corporation was the sole supplier of Tomahawk Missiles and produced Block II and Block III Tomahawk missiles and remanufactured many Tomahawks to Block III specifications. In 1. Hughes outbid Mc. Donnell Douglas Aerospace to become the sole supplier of Tomahawk missiles. It is now manufactured by Raytheon. In 2. U. S. Department of Defense purchased 1. Tomahawk Block IV missiles for 2. The missile is named after the tomahawk, a one handed axe used by the Native Americans. VariantseditThere have been several variants of the BGM 1. Tomahawk employing various types of warheads. Ground launched cruise missiles GLCM and their truck like launch vehicles were employed at bases in Europe they were withdrawn from service to comply with the 1. Intermediate Range Nuclear Forces Treaty. Many of the anti ship versions were converted into TLAMs at the end of the Cold War. The Block III TLAMs that entered service in 1. Global Positioning System GPS receivers to strike more precisely. Block III TLAM Cs retain the DSMAC II navigation system, allowing GPS only missions, which allow for rapid mission planning, with some reduced accuracy, DSMAC only missions, which take longer to plan but terminal accuracy is somewhat better, and GPS aided missions which combine both DSMAC II and GPS navigation which provides the greatest accuracy. Block IV TLAMs are completely redesigned with an improved turbofan engine. The F1. 07 4. 02 engine provided the new BLK III with a throttle control, allowing in flight speed changes. This engine also provided better fuel economy. The Block IV TLAMs have enhanced deep strike capabilities and are equipped with a real time targeting system for striking fleeing targets. Additionally, the BLOCK IV missiles have the capabilities to be retargeted inflight, and the ability to transmit, via satcom, an image immediately prior to impact to assist in determining if the missile was attacking the target and the likely damage from the attack. DescriptioneditThe Tomahawk missile family consists of a number of subsonic, jet engine powered missiles designed to attack a variety of surface targets. Although a number of launch platforms have been deployed or envisaged, only sea both surface ship and submarine launched variants are currently in service. Tomahawk has a modular design, allowing a wide variety of warhead, guidance, and range capabilities. The Tomahawk project was originally awarded to Applied Physics Laboratory near Laurel, Maryland by the US Navy. James H. Walker led a team of scientists to design and build this new long range missile. The original design, updated with advanced technology, is still used today. Upgradesedit. UGM 1. Tomahawk missile detonates above a test target, 1. A major improvement to the Tomahawk is network centric warfare capabilities, using data from multiple sensors aircraft, UAVs, satellites, foot soldiers, tanks, ships to find its target. It will also be able to send data from its sensors to these platforms. It will be a part of the networked force being implemented by the Pentagon. Tomahawk Block II8 variants were all tested during January 1. October 1. 98. 3. Deployed in 1. 98. Digital Scene Matching Area Corellator DSMAC. Tomahawk Block III79 introduced in 1. Digital Scene Matching Area Correlator DSMAC and jam resistant GPS, smaller, lighter WDU 3. Tactical Tomahawk Weapons Control System TTWCS1. It can be reprogrammed in flight to attack predesignated targets with GPS coordinates stored in its memory or to any other GPS coordinates. Also, the missile can send data about its status back to the commander. It entered service with the US Navy in late 2. The Tactical Tomahawk Weapons Control System TTWCS added the capability for limited mission planning on board the firing unit FRU. Tomahawk Block IV1. This targeting flexibility includes the capability to loiter over the battlefield awaiting a more critical target. The missile can also transmit battle damage indication imagery and missile health and status messages via the two way satellite data link. Firing platforms now have the capability to plan and execute GPS only missions. Block IV also has an improved anti jam GPS receiver for enhanced mission performance. Block IV includes Tomahawk Weapons Control System TTWCS, and Tomahawk Command and Control System TC2. S. On 1. 6 August 2. Navy completed the first live test of the Joint Multi Effects Warhead System JMEWS, a new warhead designed to give the Tomahawk the same blast fragmentation capabilities while introducing enhanced penetration capabilities in a single warhead. In the static test, the warhead detonated and created a hole large enough for the follow through element to completely penetrate the concrete target. In February 2. 01. U. S. Central Command sponsored development and testing of the JMEWS, analyzing the ability of the programmable warhead to integrate onto the Block IV Tomahawk, giving the missile bunker buster effects to better penetrate hardened structures. In 2. 01. 2, the USN studied applying Advanced Anti Radiation Guided Missile AARGManti radiation missile technology into the Tactical Tomahawk. In 2. 01. 4, Raytheon began testing Block IV improvements to attack sea and moving land targets. The new passive radar seeker will pick up the electromagnetic radar signature of a target and follow it, and actively send out a signal to bounce off potential targets before impact to discriminate its legitimacy before impact. Mounting the multi mode sensor on the missiles nose would remove fuel space, but company officials believe the Navy would be willing to give up space for the sensors new technologies.