David
Sat January 11, 2003 9:06pm
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USS New Orleans (1898-192
Arrives off the New York Navy Yard, April 1898, after crossing the Atlantic. Note oversize commissioning pennant flying from her main mast, and Brazilian Navy paint scheme. She had been purchased from Brazil on 16 March 1898, while still under construction in England.
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David
Sat January 11, 2003 9:06pm
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Capture of Fort San Anton
Capture of Fort San Antonio de Abad, Malate, Philippines, 13 August 1898 First U.S. flag is hoisted over the fort, which had been bombarded by U.S. warships, including USS Olympia, and captured by troops of the U.S. Army First Colorado Volunteer Regiment. Note extensive damage from shellfire.
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David
Sat January 11, 2003 9:49pm
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USS Petrel (PG-2)
At Hong Kong, 15 April 1898, shortly before the beginning of the Spanish-American War. Note crewmen aloft watching the rowing launches racing past in the foreground, also shipping and Chinese junks in the distance.
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David
Wed February 12, 2003 9:39pm
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Air Medal with Ribbon
AIR MEDAL
1. Description: A bronze compass rose 1 11/16 inches circumscribing diameter and charged with an eagle volant carrying two lightning flashes in its talons. A fleur-de-lis at the top point holds the suspension ring. The points of the compass rose on the reverse are modeled with the central portion plain for engraving the name of the recipient.
2. Ribbon: The ribbon is 1 3/8 inches wide and consists of the following stripes: 1/8 inch ultramarine blue 67118; ? inch golden orange 67109; center 5/8 inch ultramarine blue; ? inch golden orange; and 1/8 inch ultramarine blue.
3. Criteria: The Air Medal is awarded to any person who, while serving in any capacity in or with the armed forces of the United States, shall have distinguished himself by meritorious achievement while participating in aerial flight. Awards may be made to recognize single acts of merit or heroism or for meritorious service. Award of the Air Medal is primarily intended to recognize those personnel who are on current crew member or non-crew member flying status which requires them to participate in aerial flight on a regular and frequent basis in the performance of their primary duties. However, it may also be awarded to certain other individuals whose combat duties require regular and frequent flying in other than a passenger status or individuals who perform a particularly noteworthy act while performing the function of a crew member but who are not on flying status. These individuals must make a discernible contribution to the operational land combat mission or to the mission of the aircraft in flight. Examples of personnel whose combat duties require them to fly include those in the attack elements of units involved in air-land assaults against an armed enemy and those directly involved in airborne command and control of combat operations. Involvement in such activities, normally at the brigade/group level and below, serves only to establish eligibility for award of the Air Medal; the degree of heroism, meritorious achievement or exemplary service determines who should receive the award. Awards will not be made to individuals who use air transportation solely for the purpose of moving from point to point in a combat zone.
4. Components: The following are authorized components of the Air Medal and the applicable specifications for each:
a. Decoration (regular size): MIL-D-3943/23. NSN for decoration set is 8455-00-269-5747. For replacement medal NSN 8455-00-246-3837.
b. Decoration (miniature size): MIL-D-3943/23. NSN 8455-00-996-5002.
c. Ribbon: MIL-R-11589/7. NSN 8455-00-252-9963.
d. Lapel Button: MIL-L-11484/17. NSN 8455-00-257-4308.
5. Background: a. In a letter from the Secretary of War to the Director, Bureau of Budget, dated 9 March 1942, the Secretary submitted a proposed executive order establishing the Air Medal for award to any person who, while serving in any capacity of the Army of the United States, distinguishes himself by meritorious achievement while participating in an aerial flight The Secretary of War, in his request, stated "The Distinguished Flying Cross is available only for heroism or extraordinary achievement while participating in aerial flight?It is desired not to cheapen the Distinguished Flying Cross by awarding it for achievement not bordering on the heroic. It is, however, important to reward personnel for meritorious service."
b. The Air Medal was authorized by President Roosevelt by Executive Order 9158, dated 11 May 1942, and established the award for "any person who, while serving in any capacity in the Army, Navy, Marine Corps or Coast Guard of the United States subsequent to September 8, 1939, distinguishes, or has distinguished, himself by meritorious achievement while participating in an aerial flight." Authorization was announced in War Department Bulletin No. 25, dated 25 May 1942. Executive Order 9242-A, dated 11 September 1942 amended the previous Executive Order to read "in any capacity in or with the Army".
c. In July 1942, the Office of The Quartermaster General (OQMG), forwarded a letter to twenty-two artists offering an opportunity to submit designs for consideration. The design selected was submitted by Walker Hancock and approved by the Secretary of War on 31 December 1942. The designer, Walker Hancock, had been inducted into the Army and assigned to Camp Livingston, Louisiana. He was ordered to temporary duty effective 16 November 1942 to G1 War Department to work on the medal. The Chief of Staff approved the ribbon design prepared by OQMG on 26 August 1942.
d. Oak leaf clusters were initially used to denote subsequent awards of the Air Medal. The number of additional awards were so great that the oak leaf clusters did not fit on the ribbon. As a result, the policy was changed in September 1968 to require the use of numbers to indicate subsequent awards of the Air Medal.
e. The Air Medal may be awarded for service during peacetime; however, approval authority for peacetime awards is not delegated to field commanders.
f. Order of precedence and wear of decorations is contained in Army Regulation (AR) 670-1. Policy for awards, approving authority, supply, and issue of decorations is contained in AR 600-8-22.
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MORTARDUDE
Tue February 25, 2003 6:59pm
Rating: 10
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( MORTARDUDE) My grandfat
This is a newspaper article about my grandfather who served in WW1. It says :
Toone, TN. Aug 10 ( 1963 ). Styles have changed since 1919 and so has the United States Army uniform. However, Lawrence Willoughby of Toone is still proud to wear his Army uniform of World War 1 vintage.
Mr Willoughby wore a size 38 when he was in the Army and today at 75, he can still wear his uniform.
Returning from the Army in 1919, Mr Willoughby carefully packed away his uniform. But through the years, he has occasionally put it on just for the fun of it.
Mr Willoughby entered service on 6/6/1918, and six weeks later was sent to Germany as a member of the 33rd Infantry Division.
He participated in the battle of the Argonne Forest and was on the Hindenberg line
the morning a German soldier jumped up from the trenches and blew his horn, indicating their surrender.
"I was less than two city blocks from him and I'll tell you that was the sweetest
music.", Mr. Willoughby said.
Mr Willoughby attended a meeting of Hardeman Co.
TN. WW1 veterans in Bolivar two years ago. There were 52 present and he was the oldest.
Mr. Willoughby is a retired farmer. His hobbies are gardening. and growing truck crops.
>>>
My note : he died in 1972 at age 84. I was named after him, and loved him dearly.
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David
Fri March 21, 2003 6:17am
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High-power microwave (HPM
High-power microwave (HPM) sources have been under investigation for several years as potential weapons for a variety of combat, sabotage, and terrorist applications. Due to classification restrictions, details of this work are relatively unknown outside the military community and its contractors. A key point to recognize is the insidious nature of HPM. Due to the gigahertz-band frequencies (4 to 20 GHz) involved, HPM has the capability to penetrate not only radio front-ends, but also the most minute shielding penetrations throughout the equipment. At sufficiently high levels, as discussed, the potential exists for significant damage to devices and circuits. For these reasons, HPM should be of interest to the broad spectrum of EMC practitioners.
Electromagnetic Pulse (EMP) and High Powered Microwave (HMP) Weapons offer a significant capability against electronic equipment susceptible to damage by transient power surges. This weapon generates a very short, intense energy pulse producing a transient surge of thousands of volts that kills semiconductor devices. The conventional EMP and HMP weapons can disable non-shielded electronic devices including practically any modern electronic device within the effective range of the weapon.
The effectiveness of an EMP device is determined by the power generated and the characteristic of the pulse. The shorter pulse wave forms, such as microwaves, are far more effective against electronic equipment and more difficult to harden against. Current efforts focus on converting the energy from an explosive munitions to supply the electromagnetic pulse. This method produces significant levels of directionally focused electromagnetic energy.
Future advances may provide the compactness needed to weaponize the capability in a bomb or missile warhead. Currently, the radius of the weapon is not as great as nuclear EMP effects. Open literature sources indicate that effective radii of “hundreds of meters or more” are possible. EMP and HPM devices can disable a large variety of military or infrastructure equipment over a relatively broad area. This can be useful for dispersed targets.
A difficulty is determining the appropriate level of energy to achieve the desired effects. This will require detailed knowledge of the target equipment and the environment (walls, buildings). The obvious counter-measure is the shielding or hardening of electronic equipment. Currently, only critical military equipment is hardened e.g., strategic command and control systems. Hardening of existing equipment is difficult and adds significant weight and expense. As a result, a large variety of commercial and military equipment will be susceptible to this type of attack.
The US Navy reportedly used a new class of highly secret, non-nuclear electromagnetic pulse warheads during the opening hours of the Persian Gulf War to disrupt and destroy Iraqi electronics systems. The warheads converted the energy of a conventional explosion into a pulse of radio energy. The effect of the microwave attacks on Iraqi air defense and headquarters was difficult to determine because the effects of the HPM blasts were obscured by continuous jamming, the use of stealthy F-117 aircraft, and the destruction of Iraq's electrical grid. The warheads used during the Gulf War were experimental warheads, not standard weapons deployed with fielded forces.
Col. William G. Heckathorn, commander of the Phillips Research Site and the deputy director of the Directed Energy Directorate of the Air Force Research Laboratory, was presented the Legion of Merit medal during special retirement ceremonies in May 1998. In a citation accompanying the medal, Col. Heckathorn was praised for having provided superior vision, leadership, and direct guidance that resulted in the first high-power microwave weapon prototypes delivered to the warfighter. The citation noted that "Col. Heckathorn united all directed energy development within Army, Navy and Air Force, which resulted in an efficient, focused, warfighter-oriented tri-service research program." In December of 1994 he came to Kirtland to become the director of the Advanced Weapons and Survivability Directorate at the Phillips Laboratory. Last year he became the commander of the Phillips Laboratory while still acting as the director of the Advanced Weapons and Survivability Directorate.
As with a conventional munition, a microwave munition is a "single shot" munition that has a similar blast and fragmentation radius. However, while the explosion produces a blast, the primary mission is to generate the energy that powers the microwave device. Thus, for a microwave munition, the primary kill mechanism is the microwave energy, which greatly increases the radius and the footprint by, in some cases, several orders of magnitude. For example, a 2000-pound microwave munition will have a minimum radius of approximately 200 meters, or footprint of approximately 126,000 square meters.
Studies have examined the incorporation of a high power microwave weapon into the weapons bay of a conceptual uninhabited combat aerial vehicle. The CONOPS, electromagnetic compatibility and hardening (to avoid a self-kill), power requirements and potential power supplies, and antenna characteristics have been analyzed. Extensive simulations of potential antennas have been performed. The simulations examined the influence of the aircraft structure on the antenna patterns and the levels of leakage through apertures in the weapons bay. Other investigations examined issues concerning the electromagnetic shielding effectiveness of composite aircraft structures.
Collateral damage from E-bombs is dependent on the size and design of the specific bomb. An E-bomb that utilizes explosive power to obtain its damaging microwaves will result in typical blast and shrapnel damage. Ideally, an E-Bomb would be designed to minimize and dissipate most of the mechanical collateral damage. Human exposure to microwave radiation is hazardous within several meters of the epicenter. However, there is a relatively low risk of bodily damage at further distances.
Any non-military electronics within range of the E-bomb that have not been protected have a high probability of being damaged or destroyed. The best way to defend against E-bomb attack is to destroy the platform or delivery vehicle in which the E-bomb resides. Another method of protection is to keep all essential electronics within an electrically conductive enclosure, called a Faraday cage. This prevents the damaging electromagentic field from interacting with vital equipment. The problem with Faraday cages is that most vital equipment needs to be in contact with the outside world. This contact point can allow the electromagentic field to enter the cage, which ultimately renders the enclosure useless. There are ways to protect against these Faraday cage flaws, but the fact remains that this is a dangerous weakpoint. In most circumstances E-bombs are categorized as 'non-lethal weapons' because of the minimal collateral damage they create. The E-bomb's 'non-lethal' categorization gives military commanders more politically-friendly options to choose from.
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David
Fri March 21, 2003 7:38am
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BGM-71 / M-220 Tube-launc
The TOW anti-tank missile of Iran-Contra fame was introduced for service in the US Army in 1970. Current versions are capable of penetrating more than 30 inches of armor, or "any 1990s tank," at a maximum range of more than 3,000 meters. It can be fired by infantrymen using a tripod, as well from vehicles and helicopters, and can launch 3 missiles in 90 seconds. It is primarily used in antitank warfare, and is a command to line of sight, wire-guided weapon. TOW is used to engage and destroy enemy armored vehicles, primarily tanks. Secondary mission is to destroy other point targets such as non-armored vehicles, crew-served weapons and launchers. This system is designed to attack and defeat tanks and other armored vehicles. The system will operate in all weather conditions and on the "dirty" battlefield.
In May 1972, U.S. soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. During the Gulf War, in Saudi Arabia the system was represented by the HMMWV with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version. The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat it was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Early reports focused on the problems being experienced by US Army and Marine Corps units in hitting targets during live-fire exercises because soldiers [lacked experience firing the weapon, as well as Iraqi use of "dazzlers" intended to interfere with the guidance of Army TOW missiles and other antitank missiles. But the TOW during ODS was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It did not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that U.S. Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability. The Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Even without these rather unusual and certainly unexpected displays of its effectiveness, the TOW did better than expected. The system's deadly accuracy proved to be unstoppable even out to its maximum effective range and under degraded visibility conditions. TOW was real powerful hitting because you could tell as soon as it hit, the vehicle was dead. TOW missiles were able to kill targets while the Bradley was on the move.
The basic TOW Weapon System was fielded in 1970. Manufactured by Hughes Aircraft Company, the TOW is the most widely distributed anti-tank guided missile in the world with over 500,000 built and in service in the U.S. and 36 other countries. The TOW has extensive combat experience in Vietnam and the Middle East. Iran may have obtained 1,750 or more TOWs and used TOWs against Iraqi tanks in the 1980s. The TOW 2 launcher is the most recent launcher upgrade. It is compatible with all TOW missiles. The TOW 2 Weapon System is composed of a reusable launcher, a missile guidance set, and sight system. The system can be tripod mounted. However because it is heavy, it is generally employed from the HMMWV. The missile has a 20-year maintenance-free storage life. All versions of the TOW missile can be fired from the current launcher.
The TOW is a crew portable, vehicle-mounted, heavy anitarmor weapon system consisting of a launcher and one of five versions of the TOW missile. It is designed to defeat armored vehicles and other targets such as field fortifications from ranges up to 3,750 meters. After firing the missile, the gunner must keep the cross hairs of the sight centered on the target to ensure a hit. The system will operate in all weather conditions in which the gunner can see a target throughout the missile flight by using either a day or night sight.
The TOW Sight Improvement Program (TSIP) effort began in 199 However, on 15 October 1991 The Secretary of the Army cancelled the TSIP because of declining budget & funding issues. The Assistant Secretary of the Army for Research, Development and Acquisition directed the PEO, Tactical Missiles to coordinate the development of an affordable alternative. The latter effort subsequently became known as the Improved Target Acquisition System (ITAS) being developed for the Army's light forces.
The TOW Improved Target Acquisition System (ITAS) is a materiel change to the The ITAS is a material change to the current TOW2 ground launcher and M966 HMMWV TOW2 acquisition and fire control subsystems for first-to-deploy light forces. ITAS aides in firing all versions of TOW and builds the bridge to TOW F&F. The TOW tripod and launch tube remain unchanged. ITAS significantly increases target acquisition and engagement ranges, while retaining the capability to fire all configurations of the TOW missile. ITAS uses a second-generation forward-looking infrared system, digital components, and an eyesafe laser range finder. ITAS has an improved design with BIT/ BITES for increased maintainability and reduced logistics requirements. It also features an improved man-machine interface that improves system engagement performance. The ITAS modification kit consists of an integrated (Day/ Night Sight with Laser Rangefinder) Target Acquisition Subsystem (TAS), Fire Control Subsystem (FCS), Battery Power Source (BPS), and Modified Traversing Unit (TU). The ITAS will operate from the High Mobility Multi- Purpose Wheeled Vehicle (HMMWV) and the dismount tripod platform. The ITAS will be fielded at battalion level, replacing TOW 2 in light infantry units. The TOW Improved Target Acquisition System low- rate initial production (LRIP) I contract was awarded September 30, 1996, with a production quantity of twenty- five units. LRIP II was awarded March 1998 for a quantity of seventy-three systems for the 1st BDE Fielding in September 1999. First unit equipped (FUE) was conducted in September 1998.
Increased funding for Stryker and Future Combat Systems (FCS) came as a result of Army decisions in 2002 to terminate or restructure some 48 systems in the FY ?04-?09 Program Objective Memorandum (POM) long-term spending plan. Among the systems terminated were: United Defense?s Crusader self-propelled howitzer and the A3 upgrade for the Bradley Fighting vehicle, GD?s M1A2 Abrams System Enhancement Program, Lockheed Martin?s Army Tactical Missile System Block II and the associated pre-planned product improvement version of Northrop Grumman?s Brilliant Anti-armor (BAT) munition, Raytheon?s Stinger missile and Improved Target Acquisition System, and Textron?s Wide Area Mine.
The TOW system is used on the HMMWV, the M151 jeep, the armored personnel carrier, the Bradley Fighting Vehicle (BFV) COBRA helicopters, the ITV, and the US Marine Corps light armored vehicle.
Considerable improvements have been made to the missile since 1970. There are six missiles available for the TOW. Three of the five TOW missile versions--Basic TOW, Improved TOW and TOW 2--are no longer being produced for US forces. However, these versions are still used by 40 allied countries.
In May 1972, US soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. In Saudi Arabia the system was represented by [the HMMWV] with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version.
The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat. It was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the 101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Despite early reports of the problems being experienced by U.S. Army and Marine Corps units in hitting targets during live-fire exercises because soldiers lacked experience firing the weapon as well as Iraqi use of 'dazzlers' intended to interfere with the guidance of Army TOW missiles and other antitank missiles," the TOW during Operation Desert Storm was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It's a well known technology that does not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that US Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability: the Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Primary function: Guided missile weapon system.
Manufacturer: Hughes (missiles); Hughes and Kollsman (night sights); Electro Design Mfg. (launchers)
Size:
TOW 2A Missile:
Diameter: 5.87 inches (14.91 cm)
Length: 50.40 inches (128.02 cm)
TOW 2B Missile:
Diameter: 5.8 inches (14.9 centimeters)
Length: 48.0 inches (121.9 centimeters)
Warhead weight 12.4 kg Maximum effective range: 2.33 miles (3.75 kilometers)
Armor penetration: T-80 + / 800+ mm [>700 mm]
Time of flight to maximum effective range:
2A: 20 seconds
2B: 21 seconds
Weight:
Launcher w/TOW 2 Mods: 204.6 pounds (92.89 kilograms)
Missile Guidance Set: 52.8 pounds (23.97 kilograms)
TOW 2 Missile: 47.4 pounds (21.52 kilograms)
TOW 2A Missile: 49.9 pounds (22.65 kilograms)
TOW 2B Missile: 49.8 pounds (22.60 kilograms)
Introduction date: 1970
Unit Replacement Cost: $180,000
Launching Platforms Man portable crew of 4
HMMWV
M2/M3 Bradley Fighting Vehicle
Marine Corps Inventory: TOW launchers - 1247
Characteristics of the TOW missile family
CHARACTERISTICS
BASIC
TOW
I-TOW
TOW 2
TOW 2A
TOW 2B
Missile weight (lb)
41.5
42
47.3
49.9
49.8
Weight in container (lb)
56.3
56.5
61.8
64
64
Prelaunch length (in)
45.8
45.8
45.9
45.9
46
Standoff probe (in)
NA
14.6
17.4
17.4
NA
Max velocity (fps/mps)
981/299
970/296
1079/329
1079/ 329
1010/309
Warhead diameter (in)
5
5
6
5
5(2x)
Explosive filler (lb)
5.4
4.6
6.9
6.9
-
Max range (m)
3000
3750
3750
3750
3750
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David
Fri March 21, 2003 7:38am
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BGM-71 / M-220 Tube-launc
The TOW anti-tank missile of Iran-Contra fame was introduced for service in the US Army in 1970. Current versions are capable of penetrating more than 30 inches of armor, or "any 1990s tank," at a maximum range of more than 3,000 meters. It can be fired by infantrymen using a tripod, as well from vehicles and helicopters, and can launch 3 missiles in 90 seconds. It is primarily used in antitank warfare, and is a command to line of sight, wire-guided weapon. TOW is used to engage and destroy enemy armored vehicles, primarily tanks. Secondary mission is to destroy other point targets such as non-armored vehicles, crew-served weapons and launchers. This system is designed to attack and defeat tanks and other armored vehicles. The system will operate in all weather conditions and on the "dirty" battlefield.
In May 1972, U.S. soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. During the Gulf War, in Saudi Arabia the system was represented by the HMMWV with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version. The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat it was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Early reports focused on the problems being experienced by US Army and Marine Corps units in hitting targets during live-fire exercises because soldiers [lacked experience firing the weapon, as well as Iraqi use of "dazzlers" intended to interfere with the guidance of Army TOW missiles and other antitank missiles. But the TOW during ODS was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It did not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that U.S. Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability. The Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Even without these rather unusual and certainly unexpected displays of its effectiveness, the TOW did better than expected. The system's deadly accuracy proved to be unstoppable even out to its maximum effective range and under degraded visibility conditions. TOW was real powerful hitting because you could tell as soon as it hit, the vehicle was dead. TOW missiles were able to kill targets while the Bradley was on the move.
The basic TOW Weapon System was fielded in 1970. Manufactured by Hughes Aircraft Company, the TOW is the most widely distributed anti-tank guided missile in the world with over 500,000 built and in service in the U.S. and 36 other countries. The TOW has extensive combat experience in Vietnam and the Middle East. Iran may have obtained 1,750 or more TOWs and used TOWs against Iraqi tanks in the 1980s. The TOW 2 launcher is the most recent launcher upgrade. It is compatible with all TOW missiles. The TOW 2 Weapon System is composed of a reusable launcher, a missile guidance set, and sight system. The system can be tripod mounted. However because it is heavy, it is generally employed from the HMMWV. The missile has a 20-year maintenance-free storage life. All versions of the TOW missile can be fired from the current launcher.
The TOW is a crew portable, vehicle-mounted, heavy anitarmor weapon system consisting of a launcher and one of five versions of the TOW missile. It is designed to defeat armored vehicles and other targets such as field fortifications from ranges up to 3,750 meters. After firing the missile, the gunner must keep the cross hairs of the sight centered on the target to ensure a hit. The system will operate in all weather conditions in which the gunner can see a target throughout the missile flight by using either a day or night sight.
The TOW Sight Improvement Program (TSIP) effort began in 199 However, on 15 October 1991 The Secretary of the Army cancelled the TSIP because of declining budget & funding issues. The Assistant Secretary of the Army for Research, Development and Acquisition directed the PEO, Tactical Missiles to coordinate the development of an affordable alternative. The latter effort subsequently became known as the Improved Target Acquisition System (ITAS) being developed for the Army's light forces.
The TOW Improved Target Acquisition System (ITAS) is a materiel change to the The ITAS is a material change to the current TOW2 ground launcher and M966 HMMWV TOW2 acquisition and fire control subsystems for first-to-deploy light forces. ITAS aides in firing all versions of TOW and builds the bridge to TOW F&F. The TOW tripod and launch tube remain unchanged. ITAS significantly increases target acquisition and engagement ranges, while retaining the capability to fire all configurations of the TOW missile. ITAS uses a second-generation forward-looking infrared system, digital components, and an eyesafe laser range finder. ITAS has an improved design with BIT/ BITES for increased maintainability and reduced logistics requirements. It also features an improved man-machine interface that improves system engagement performance. The ITAS modification kit consists of an integrated (Day/ Night Sight with Laser Rangefinder) Target Acquisition Subsystem (TAS), Fire Control Subsystem (FCS), Battery Power Source (BPS), and Modified Traversing Unit (TU). The ITAS will operate from the High Mobility Multi- Purpose Wheeled Vehicle (HMMWV) and the dismount tripod platform. The ITAS will be fielded at battalion level, replacing TOW 2 in light infantry units. The TOW Improved Target Acquisition System low- rate initial production (LRIP) I contract was awarded September 30, 1996, with a production quantity of twenty- five units. LRIP II was awarded March 1998 for a quantity of seventy-three systems for the 1st BDE Fielding in September 1999. First unit equipped (FUE) was conducted in September 1998.
Increased funding for Stryker and Future Combat Systems (FCS) came as a result of Army decisions in 2002 to terminate or restructure some 48 systems in the FY ?04-?09 Program Objective Memorandum (POM) long-term spending plan. Among the systems terminated were: United Defense?s Crusader self-propelled howitzer and the A3 upgrade for the Bradley Fighting vehicle, GD?s M1A2 Abrams System Enhancement Program, Lockheed Martin?s Army Tactical Missile System Block II and the associated pre-planned product improvement version of Northrop Grumman?s Brilliant Anti-armor (BAT) munition, Raytheon?s Stinger missile and Improved Target Acquisition System, and Textron?s Wide Area Mine.
The TOW system is used on the HMMWV, the M151 jeep, the armored personnel carrier, the Bradley Fighting Vehicle (BFV) COBRA helicopters, the ITV, and the US Marine Corps light armored vehicle.
Considerable improvements have been made to the missile since 1970. There are six missiles available for the TOW. Three of the five TOW missile versions--Basic TOW, Improved TOW and TOW 2--are no longer being produced for US forces. However, these versions are still used by 40 allied countries.
In May 1972, US soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. In Saudi Arabia the system was represented by [the HMMWV] with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version.
The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat. It was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the 101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Despite early reports of the problems being experienced by U.S. Army and Marine Corps units in hitting targets during live-fire exercises because soldiers lacked experience firing the weapon as well as Iraqi use of 'dazzlers' intended to interfere with the guidance of Army TOW missiles and other antitank missiles," the TOW during Operation Desert Storm was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It's a well known technology that does not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that US Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability: the Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Primary function: Guided missile weapon system.
Manufacturer: Hughes (missiles); Hughes and Kollsman (night sights); Electro Design Mfg. (launchers)
Size:
TOW 2A Missile:
Diameter: 5.87 inches (14.91 cm)
Length: 50.40 inches (128.02 cm)
TOW 2B Missile:
Diameter: 5.8 inches (14.9 centimeters)
Length: 48.0 inches (121.9 centimeters)
Warhead weight 12.4 kg Maximum effective range: 2.33 miles (3.75 kilometers)
Armor penetration: T-80 + / 800+ mm [>700 mm]
Time of flight to maximum effective range:
2A: 20 seconds
2B: 21 seconds
Weight:
Launcher w/TOW 2 Mods: 204.6 pounds (92.89 kilograms)
Missile Guidance Set: 52.8 pounds (23.97 kilograms)
TOW 2 Missile: 47.4 pounds (21.52 kilograms)
TOW 2A Missile: 49.9 pounds (22.65 kilograms)
TOW 2B Missile: 49.8 pounds (22.60 kilograms)
Introduction date: 1970
Unit Replacement Cost: $180,000
Launching Platforms Man portable crew of 4
HMMWV
M2/M3 Bradley Fighting Vehicle
Marine Corps Inventory: TOW launchers - 1247
Characteristics of the TOW missile family
CHARACTERISTICS
BASIC
TOW
I-TOW
TOW 2
TOW 2A
TOW 2B
Missile weight (lb)
41.5
42
47.3
49.9
49.8
Weight in container (lb)
56.3
56.5
61.8
64
64
Prelaunch length (in)
45.8
45.8
45.9
45.9
46
Standoff probe (in)
NA
14.6
17.4
17.4
NA
Max velocity (fps/mps)
981/299
970/296
1079/329
1079/ 329
1010/309
Warhead diameter (in)
5
5
6
5
5(2x)
Explosive filler (lb)
5.4
4.6
6.9
6.9
-
Max range (m)
3000
3750
3750
3750
3750
|
|
David
Fri March 21, 2003 7:38am
|
BGM-71 / M-220 Tube-launc
The TOW anti-tank missile of Iran-Contra fame was introduced for service in the US Army in 1970. Current versions are capable of penetrating more than 30 inches of armor, or "any 1990s tank," at a maximum range of more than 3,000 meters. It can be fired by infantrymen using a tripod, as well from vehicles and helicopters, and can launch 3 missiles in 90 seconds. It is primarily used in antitank warfare, and is a command to line of sight, wire-guided weapon. TOW is used to engage and destroy enemy armored vehicles, primarily tanks. Secondary mission is to destroy other point targets such as non-armored vehicles, crew-served weapons and launchers. This system is designed to attack and defeat tanks and other armored vehicles. The system will operate in all weather conditions and on the "dirty" battlefield.
In May 1972, U.S. soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. During the Gulf War, in Saudi Arabia the system was represented by the HMMWV with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version. The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat it was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Early reports focused on the problems being experienced by US Army and Marine Corps units in hitting targets during live-fire exercises because soldiers [lacked experience firing the weapon, as well as Iraqi use of "dazzlers" intended to interfere with the guidance of Army TOW missiles and other antitank missiles. But the TOW during ODS was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It did not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that U.S. Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability. The Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Even without these rather unusual and certainly unexpected displays of its effectiveness, the TOW did better than expected. The system's deadly accuracy proved to be unstoppable even out to its maximum effective range and under degraded visibility conditions. TOW was real powerful hitting because you could tell as soon as it hit, the vehicle was dead. TOW missiles were able to kill targets while the Bradley was on the move.
The basic TOW Weapon System was fielded in 1970. Manufactured by Hughes Aircraft Company, the TOW is the most widely distributed anti-tank guided missile in the world with over 500,000 built and in service in the U.S. and 36 other countries. The TOW has extensive combat experience in Vietnam and the Middle East. Iran may have obtained 1,750 or more TOWs and used TOWs against Iraqi tanks in the 1980s. The TOW 2 launcher is the most recent launcher upgrade. It is compatible with all TOW missiles. The TOW 2 Weapon System is composed of a reusable launcher, a missile guidance set, and sight system. The system can be tripod mounted. However because it is heavy, it is generally employed from the HMMWV. The missile has a 20-year maintenance-free storage life. All versions of the TOW missile can be fired from the current launcher.
The TOW is a crew portable, vehicle-mounted, heavy anitarmor weapon system consisting of a launcher and one of five versions of the TOW missile. It is designed to defeat armored vehicles and other targets such as field fortifications from ranges up to 3,750 meters. After firing the missile, the gunner must keep the cross hairs of the sight centered on the target to ensure a hit. The system will operate in all weather conditions in which the gunner can see a target throughout the missile flight by using either a day or night sight.
The TOW Sight Improvement Program (TSIP) effort began in 199 However, on 15 October 1991 The Secretary of the Army cancelled the TSIP because of declining budget & funding issues. The Assistant Secretary of the Army for Research, Development and Acquisition directed the PEO, Tactical Missiles to coordinate the development of an affordable alternative. The latter effort subsequently became known as the Improved Target Acquisition System (ITAS) being developed for the Army's light forces.
The TOW Improved Target Acquisition System (ITAS) is a materiel change to the The ITAS is a material change to the current TOW2 ground launcher and M966 HMMWV TOW2 acquisition and fire control subsystems for first-to-deploy light forces. ITAS aides in firing all versions of TOW and builds the bridge to TOW F&F. The TOW tripod and launch tube remain unchanged. ITAS significantly increases target acquisition and engagement ranges, while retaining the capability to fire all configurations of the TOW missile. ITAS uses a second-generation forward-looking infrared system, digital components, and an eyesafe laser range finder. ITAS has an improved design with BIT/ BITES for increased maintainability and reduced logistics requirements. It also features an improved man-machine interface that improves system engagement performance. The ITAS modification kit consists of an integrated (Day/ Night Sight with Laser Rangefinder) Target Acquisition Subsystem (TAS), Fire Control Subsystem (FCS), Battery Power Source (BPS), and Modified Traversing Unit (TU). The ITAS will operate from the High Mobility Multi- Purpose Wheeled Vehicle (HMMWV) and the dismount tripod platform. The ITAS will be fielded at battalion level, replacing TOW 2 in light infantry units. The TOW Improved Target Acquisition System low- rate initial production (LRIP) I contract was awarded September 30, 1996, with a production quantity of twenty- five units. LRIP II was awarded March 1998 for a quantity of seventy-three systems for the 1st BDE Fielding in September 1999. First unit equipped (FUE) was conducted in September 1998.
Increased funding for Stryker and Future Combat Systems (FCS) came as a result of Army decisions in 2002 to terminate or restructure some 48 systems in the FY ?04-?09 Program Objective Memorandum (POM) long-term spending plan. Among the systems terminated were: United Defense?s Crusader self-propelled howitzer and the A3 upgrade for the Bradley Fighting vehicle, GD?s M1A2 Abrams System Enhancement Program, Lockheed Martin?s Army Tactical Missile System Block II and the associated pre-planned product improvement version of Northrop Grumman?s Brilliant Anti-armor (BAT) munition, Raytheon?s Stinger missile and Improved Target Acquisition System, and Textron?s Wide Area Mine.
The TOW system is used on the HMMWV, the M151 jeep, the armored personnel carrier, the Bradley Fighting Vehicle (BFV) COBRA helicopters, the ITV, and the US Marine Corps light armored vehicle.
Considerable improvements have been made to the missile since 1970. There are six missiles available for the TOW. Three of the five TOW missile versions--Basic TOW, Improved TOW and TOW 2--are no longer being produced for US forces. However, these versions are still used by 40 allied countries.
In May 1972, US soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. In Saudi Arabia the system was represented by [the HMMWV] with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version.
The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat. It was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the 101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Despite early reports of the problems being experienced by U.S. Army and Marine Corps units in hitting targets during live-fire exercises because soldiers lacked experience firing the weapon as well as Iraqi use of 'dazzlers' intended to interfere with the guidance of Army TOW missiles and other antitank missiles," the TOW during Operation Desert Storm was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It's a well known technology that does not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that US Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability: the Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Primary function: Guided missile weapon system.
Manufacturer: Hughes (missiles); Hughes and Kollsman (night sights); Electro Design Mfg. (launchers)
Size:
TOW 2A Missile:
Diameter: 5.87 inches (14.91 cm)
Length: 50.40 inches (128.02 cm)
TOW 2B Missile:
Diameter: 5.8 inches (14.9 centimeters)
Length: 48.0 inches (121.9 centimeters)
Warhead weight 12.4 kg Maximum effective range: 2.33 miles (3.75 kilometers)
Armor penetration: T-80 + / 800+ mm [>700 mm]
Time of flight to maximum effective range:
2A: 20 seconds
2B: 21 seconds
Weight:
Launcher w/TOW 2 Mods: 204.6 pounds (92.89 kilograms)
Missile Guidance Set: 52.8 pounds (23.97 kilograms)
TOW 2 Missile: 47.4 pounds (21.52 kilograms)
TOW 2A Missile: 49.9 pounds (22.65 kilograms)
TOW 2B Missile: 49.8 pounds (22.60 kilograms)
Introduction date: 1970
Unit Replacement Cost: $180,000
Launching Platforms Man portable crew of 4
HMMWV
M2/M3 Bradley Fighting Vehicle
Marine Corps Inventory: TOW launchers - 1247
Characteristics of the TOW missile family
CHARACTERISTICS
BASIC
TOW
I-TOW
TOW 2
TOW 2A
TOW 2B
Missile weight (lb)
41.5
42
47.3
49.9
49.8
Weight in container (lb)
56.3
56.5
61.8
64
64
Prelaunch length (in)
45.8
45.8
45.9
45.9
46
Standoff probe (in)
NA
14.6
17.4
17.4
NA
Max velocity (fps/mps)
981/299
970/296
1079/329
1079/ 329
1010/309
Warhead diameter (in)
5
5
6
5
5(2x)
Explosive filler (lb)
5.4
4.6
6.9
6.9
-
Max range (m)
3000
3750
3750
3750
3750
|
|
David
Fri March 21, 2003 7:38am
|
BGM-71 / M-220 Tube-launc
The TOW anti-tank missile of Iran-Contra fame was introduced for service in the US Army in 1970. Current versions are capable of penetrating more than 30 inches of armor, or "any 1990s tank," at a maximum range of more than 3,000 meters. It can be fired by infantrymen using a tripod, as well from vehicles and helicopters, and can launch 3 missiles in 90 seconds. It is primarily used in antitank warfare, and is a command to line of sight, wire-guided weapon. TOW is used to engage and destroy enemy armored vehicles, primarily tanks. Secondary mission is to destroy other point targets such as non-armored vehicles, crew-served weapons and launchers. This system is designed to attack and defeat tanks and other armored vehicles. The system will operate in all weather conditions and on the "dirty" battlefield.
In May 1972, U.S. soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. During the Gulf War, in Saudi Arabia the system was represented by the HMMWV with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version. The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat it was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Early reports focused on the problems being experienced by US Army and Marine Corps units in hitting targets during live-fire exercises because soldiers [lacked experience firing the weapon, as well as Iraqi use of "dazzlers" intended to interfere with the guidance of Army TOW missiles and other antitank missiles. But the TOW during ODS was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It did not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that U.S. Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability. The Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Even without these rather unusual and certainly unexpected displays of its effectiveness, the TOW did better than expected. The system's deadly accuracy proved to be unstoppable even out to its maximum effective range and under degraded visibility conditions. TOW was real powerful hitting because you could tell as soon as it hit, the vehicle was dead. TOW missiles were able to kill targets while the Bradley was on the move.
The basic TOW Weapon System was fielded in 1970. Manufactured by Hughes Aircraft Company, the TOW is the most widely distributed anti-tank guided missile in the world with over 500,000 built and in service in the U.S. and 36 other countries. The TOW has extensive combat experience in Vietnam and the Middle East. Iran may have obtained 1,750 or more TOWs and used TOWs against Iraqi tanks in the 1980s. The TOW 2 launcher is the most recent launcher upgrade. It is compatible with all TOW missiles. The TOW 2 Weapon System is composed of a reusable launcher, a missile guidance set, and sight system. The system can be tripod mounted. However because it is heavy, it is generally employed from the HMMWV. The missile has a 20-year maintenance-free storage life. All versions of the TOW missile can be fired from the current launcher.
The TOW is a crew portable, vehicle-mounted, heavy anitarmor weapon system consisting of a launcher and one of five versions of the TOW missile. It is designed to defeat armored vehicles and other targets such as field fortifications from ranges up to 3,750 meters. After firing the missile, the gunner must keep the cross hairs of the sight centered on the target to ensure a hit. The system will operate in all weather conditions in which the gunner can see a target throughout the missile flight by using either a day or night sight.
The TOW Sight Improvement Program (TSIP) effort began in 199 However, on 15 October 1991 The Secretary of the Army cancelled the TSIP because of declining budget & funding issues. The Assistant Secretary of the Army for Research, Development and Acquisition directed the PEO, Tactical Missiles to coordinate the development of an affordable alternative. The latter effort subsequently became known as the Improved Target Acquisition System (ITAS) being developed for the Army's light forces.
The TOW Improved Target Acquisition System (ITAS) is a materiel change to the The ITAS is a material change to the current TOW2 ground launcher and M966 HMMWV TOW2 acquisition and fire control subsystems for first-to-deploy light forces. ITAS aides in firing all versions of TOW and builds the bridge to TOW F&F. The TOW tripod and launch tube remain unchanged. ITAS significantly increases target acquisition and engagement ranges, while retaining the capability to fire all configurations of the TOW missile. ITAS uses a second-generation forward-looking infrared system, digital components, and an eyesafe laser range finder. ITAS has an improved design with BIT/ BITES for increased maintainability and reduced logistics requirements. It also features an improved man-machine interface that improves system engagement performance. The ITAS modification kit consists of an integrated (Day/ Night Sight with Laser Rangefinder) Target Acquisition Subsystem (TAS), Fire Control Subsystem (FCS), Battery Power Source (BPS), and Modified Traversing Unit (TU). The ITAS will operate from the High Mobility Multi- Purpose Wheeled Vehicle (HMMWV) and the dismount tripod platform. The ITAS will be fielded at battalion level, replacing TOW 2 in light infantry units. The TOW Improved Target Acquisition System low- rate initial production (LRIP) I contract was awarded September 30, 1996, with a production quantity of twenty- five units. LRIP II was awarded March 1998 for a quantity of seventy-three systems for the 1st BDE Fielding in September 1999. First unit equipped (FUE) was conducted in September 1998.
Increased funding for Stryker and Future Combat Systems (FCS) came as a result of Army decisions in 2002 to terminate or restructure some 48 systems in the FY ?04-?09 Program Objective Memorandum (POM) long-term spending plan. Among the systems terminated were: United Defense?s Crusader self-propelled howitzer and the A3 upgrade for the Bradley Fighting vehicle, GD?s M1A2 Abrams System Enhancement Program, Lockheed Martin?s Army Tactical Missile System Block II and the associated pre-planned product improvement version of Northrop Grumman?s Brilliant Anti-armor (BAT) munition, Raytheon?s Stinger missile and Improved Target Acquisition System, and Textron?s Wide Area Mine.
The TOW system is used on the HMMWV, the M151 jeep, the armored personnel carrier, the Bradley Fighting Vehicle (BFV) COBRA helicopters, the ITV, and the US Marine Corps light armored vehicle.
Considerable improvements have been made to the missile since 1970. There are six missiles available for the TOW. Three of the five TOW missile versions--Basic TOW, Improved TOW and TOW 2--are no longer being produced for US forces. However, these versions are still used by 40 allied countries.
In May 1972, US soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. In Saudi Arabia the system was represented by [the HMMWV] with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version.
The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat. It was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the 101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Despite early reports of the problems being experienced by U.S. Army and Marine Corps units in hitting targets during live-fire exercises because soldiers lacked experience firing the weapon as well as Iraqi use of 'dazzlers' intended to interfere with the guidance of Army TOW missiles and other antitank missiles," the TOW during Operation Desert Storm was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It's a well known technology that does not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that US Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability: the Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Primary function: Guided missile weapon system.
Manufacturer: Hughes (missiles); Hughes and Kollsman (night sights); Electro Design Mfg. (launchers)
Size:
TOW 2A Missile:
Diameter: 5.87 inches (14.91 cm)
Length: 50.40 inches (128.02 cm)
TOW 2B Missile:
Diameter: 5.8 inches (14.9 centimeters)
Length: 48.0 inches (121.9 centimeters)
Warhead weight 12.4 kg Maximum effective range: 2.33 miles (3.75 kilometers)
Armor penetration: T-80 + / 800+ mm [>700 mm]
Time of flight to maximum effective range:
2A: 20 seconds
2B: 21 seconds
Weight:
Launcher w/TOW 2 Mods: 204.6 pounds (92.89 kilograms)
Missile Guidance Set: 52.8 pounds (23.97 kilograms)
TOW 2 Missile: 47.4 pounds (21.52 kilograms)
TOW 2A Missile: 49.9 pounds (22.65 kilograms)
TOW 2B Missile: 49.8 pounds (22.60 kilograms)
Introduction date: 1970
Unit Replacement Cost: $180,000
Launching Platforms Man portable crew of 4
HMMWV
M2/M3 Bradley Fighting Vehicle
Marine Corps Inventory: TOW launchers - 1247
Characteristics of the TOW missile family
CHARACTERISTICS
BASIC
TOW
I-TOW
TOW 2
TOW 2A
TOW 2B
Missile weight (lb)
41.5
42
47.3
49.9
49.8
Weight in container (lb)
56.3
56.5
61.8
64
64
Prelaunch length (in)
45.8
45.8
45.9
45.9
46
Standoff probe (in)
NA
14.6
17.4
17.4
NA
Max velocity (fps/mps)
981/299
970/296
1079/329
1079/ 329
1010/309
Warhead diameter (in)
5
5
6
5
5(2x)
Explosive filler (lb)
5.4
4.6
6.9
6.9
-
Max range (m)
3000
3750
3750
3750
3750
|
|
David
Fri March 21, 2003 7:38am
|
BGM-71 / M-220 Tube-launc
The TOW anti-tank missile of Iran-Contra fame was introduced for service in the US Army in 1970. Current versions are capable of penetrating more than 30 inches of armor, or "any 1990s tank," at a maximum range of more than 3,000 meters. It can be fired by infantrymen using a tripod, as well from vehicles and helicopters, and can launch 3 missiles in 90 seconds. It is primarily used in antitank warfare, and is a command to line of sight, wire-guided weapon. TOW is used to engage and destroy enemy armored vehicles, primarily tanks. Secondary mission is to destroy other point targets such as non-armored vehicles, crew-served weapons and launchers. This system is designed to attack and defeat tanks and other armored vehicles. The system will operate in all weather conditions and on the "dirty" battlefield.
In May 1972, U.S. soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. During the Gulf War, in Saudi Arabia the system was represented by the HMMWV with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version. The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat it was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Early reports focused on the problems being experienced by US Army and Marine Corps units in hitting targets during live-fire exercises because soldiers [lacked experience firing the weapon, as well as Iraqi use of "dazzlers" intended to interfere with the guidance of Army TOW missiles and other antitank missiles. But the TOW during ODS was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It did not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that U.S. Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability. The Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Even without these rather unusual and certainly unexpected displays of its effectiveness, the TOW did better than expected. The system's deadly accuracy proved to be unstoppable even out to its maximum effective range and under degraded visibility conditions. TOW was real powerful hitting because you could tell as soon as it hit, the vehicle was dead. TOW missiles were able to kill targets while the Bradley was on the move.
The basic TOW Weapon System was fielded in 1970. Manufactured by Hughes Aircraft Company, the TOW is the most widely distributed anti-tank guided missile in the world with over 500,000 built and in service in the U.S. and 36 other countries. The TOW has extensive combat experience in Vietnam and the Middle East. Iran may have obtained 1,750 or more TOWs and used TOWs against Iraqi tanks in the 1980s. The TOW 2 launcher is the most recent launcher upgrade. It is compatible with all TOW missiles. The TOW 2 Weapon System is composed of a reusable launcher, a missile guidance set, and sight system. The system can be tripod mounted. However because it is heavy, it is generally employed from the HMMWV. The missile has a 20-year maintenance-free storage life. All versions of the TOW missile can be fired from the current launcher.
The TOW is a crew portable, vehicle-mounted, heavy anitarmor weapon system consisting of a launcher and one of five versions of the TOW missile. It is designed to defeat armored vehicles and other targets such as field fortifications from ranges up to 3,750 meters. After firing the missile, the gunner must keep the cross hairs of the sight centered on the target to ensure a hit. The system will operate in all weather conditions in which the gunner can see a target throughout the missile flight by using either a day or night sight.
The TOW Sight Improvement Program (TSIP) effort began in 199 However, on 15 October 1991 The Secretary of the Army cancelled the TSIP because of declining budget & funding issues. The Assistant Secretary of the Army for Research, Development and Acquisition directed the PEO, Tactical Missiles to coordinate the development of an affordable alternative. The latter effort subsequently became known as the Improved Target Acquisition System (ITAS) being developed for the Army's light forces.
The TOW Improved Target Acquisition System (ITAS) is a materiel change to the The ITAS is a material change to the current TOW2 ground launcher and M966 HMMWV TOW2 acquisition and fire control subsystems for first-to-deploy light forces. ITAS aides in firing all versions of TOW and builds the bridge to TOW F&F. The TOW tripod and launch tube remain unchanged. ITAS significantly increases target acquisition and engagement ranges, while retaining the capability to fire all configurations of the TOW missile. ITAS uses a second-generation forward-looking infrared system, digital components, and an eyesafe laser range finder. ITAS has an improved design with BIT/ BITES for increased maintainability and reduced logistics requirements. It also features an improved man-machine interface that improves system engagement performance. The ITAS modification kit consists of an integrated (Day/ Night Sight with Laser Rangefinder) Target Acquisition Subsystem (TAS), Fire Control Subsystem (FCS), Battery Power Source (BPS), and Modified Traversing Unit (TU). The ITAS will operate from the High Mobility Multi- Purpose Wheeled Vehicle (HMMWV) and the dismount tripod platform. The ITAS will be fielded at battalion level, replacing TOW 2 in light infantry units. The TOW Improved Target Acquisition System low- rate initial production (LRIP) I contract was awarded September 30, 1996, with a production quantity of twenty- five units. LRIP II was awarded March 1998 for a quantity of seventy-three systems for the 1st BDE Fielding in September 1999. First unit equipped (FUE) was conducted in September 1998.
Increased funding for Stryker and Future Combat Systems (FCS) came as a result of Army decisions in 2002 to terminate or restructure some 48 systems in the FY ?04-?09 Program Objective Memorandum (POM) long-term spending plan. Among the systems terminated were: United Defense?s Crusader self-propelled howitzer and the A3 upgrade for the Bradley Fighting vehicle, GD?s M1A2 Abrams System Enhancement Program, Lockheed Martin?s Army Tactical Missile System Block II and the associated pre-planned product improvement version of Northrop Grumman?s Brilliant Anti-armor (BAT) munition, Raytheon?s Stinger missile and Improved Target Acquisition System, and Textron?s Wide Area Mine.
The TOW system is used on the HMMWV, the M151 jeep, the armored personnel carrier, the Bradley Fighting Vehicle (BFV) COBRA helicopters, the ITV, and the US Marine Corps light armored vehicle.
Considerable improvements have been made to the missile since 1970. There are six missiles available for the TOW. Three of the five TOW missile versions--Basic TOW, Improved TOW and TOW 2--are no longer being produced for US forces. However, these versions are still used by 40 allied countries.
In May 1972, US soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. In Saudi Arabia the system was represented by [the HMMWV] with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version.
The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat. It was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the 101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Despite early reports of the problems being experienced by U.S. Army and Marine Corps units in hitting targets during live-fire exercises because soldiers lacked experience firing the weapon as well as Iraqi use of 'dazzlers' intended to interfere with the guidance of Army TOW missiles and other antitank missiles," the TOW during Operation Desert Storm was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It's a well known technology that does not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that US Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability: the Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Primary function: Guided missile weapon system.
Manufacturer: Hughes (missiles); Hughes and Kollsman (night sights); Electro Design Mfg. (launchers)
Size:
TOW 2A Missile:
Diameter: 5.87 inches (14.91 cm)
Length: 50.40 inches (128.02 cm)
TOW 2B Missile:
Diameter: 5.8 inches (14.9 centimeters)
Length: 48.0 inches (121.9 centimeters)
Warhead weight 12.4 kg Maximum effective range: 2.33 miles (3.75 kilometers)
Armor penetration: T-80 + / 800+ mm [>700 mm]
Time of flight to maximum effective range:
2A: 20 seconds
2B: 21 seconds
Weight:
Launcher w/TOW 2 Mods: 204.6 pounds (92.89 kilograms)
Missile Guidance Set: 52.8 pounds (23.97 kilograms)
TOW 2 Missile: 47.4 pounds (21.52 kilograms)
TOW 2A Missile: 49.9 pounds (22.65 kilograms)
TOW 2B Missile: 49.8 pounds (22.60 kilograms)
Introduction date: 1970
Unit Replacement Cost: $180,000
Launching Platforms Man portable crew of 4
HMMWV
M2/M3 Bradley Fighting Vehicle
Marine Corps Inventory: TOW launchers - 1247
Characteristics of the TOW missile family
CHARACTERISTICS
BASIC
TOW
I-TOW
TOW 2
TOW 2A
TOW 2B
Missile weight (lb)
41.5
42
47.3
49.9
49.8
Weight in container (lb)
56.3
56.5
61.8
64
64
Prelaunch length (in)
45.8
45.8
45.9
45.9
46
Standoff probe (in)
NA
14.6
17.4
17.4
NA
Max velocity (fps/mps)
981/299
970/296
1079/329
1079/ 329
1010/309
Warhead diameter (in)
5
5
6
5
5(2x)
Explosive filler (lb)
5.4
4.6
6.9
6.9
-
Max range (m)
3000
3750
3750
3750
3750
|
|
David
Fri March 21, 2003 7:38am
|
BGM-71 / M-220 Tube-launc
The TOW anti-tank missile of Iran-Contra fame was introduced for service in the US Army in 1970. Current versions are capable of penetrating more than 30 inches of armor, or "any 1990s tank," at a maximum range of more than 3,000 meters. It can be fired by infantrymen using a tripod, as well from vehicles and helicopters, and can launch 3 missiles in 90 seconds. It is primarily used in antitank warfare, and is a command to line of sight, wire-guided weapon. TOW is used to engage and destroy enemy armored vehicles, primarily tanks. Secondary mission is to destroy other point targets such as non-armored vehicles, crew-served weapons and launchers. This system is designed to attack and defeat tanks and other armored vehicles. The system will operate in all weather conditions and on the "dirty" battlefield.
In May 1972, U.S. soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. During the Gulf War, in Saudi Arabia the system was represented by the HMMWV with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version. The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat it was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Early reports focused on the problems being experienced by US Army and Marine Corps units in hitting targets during live-fire exercises because soldiers [lacked experience firing the weapon, as well as Iraqi use of "dazzlers" intended to interfere with the guidance of Army TOW missiles and other antitank missiles. But the TOW during ODS was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It did not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that U.S. Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability. The Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Even without these rather unusual and certainly unexpected displays of its effectiveness, the TOW did better than expected. The system's deadly accuracy proved to be unstoppable even out to its maximum effective range and under degraded visibility conditions. TOW was real powerful hitting because you could tell as soon as it hit, the vehicle was dead. TOW missiles were able to kill targets while the Bradley was on the move.
The basic TOW Weapon System was fielded in 1970. Manufactured by Hughes Aircraft Company, the TOW is the most widely distributed anti-tank guided missile in the world with over 500,000 built and in service in the U.S. and 36 other countries. The TOW has extensive combat experience in Vietnam and the Middle East. Iran may have obtained 1,750 or more TOWs and used TOWs against Iraqi tanks in the 1980s. The TOW 2 launcher is the most recent launcher upgrade. It is compatible with all TOW missiles. The TOW 2 Weapon System is composed of a reusable launcher, a missile guidance set, and sight system. The system can be tripod mounted. However because it is heavy, it is generally employed from the HMMWV. The missile has a 20-year maintenance-free storage life. All versions of the TOW missile can be fired from the current launcher.
The TOW is a crew portable, vehicle-mounted, heavy anitarmor weapon system consisting of a launcher and one of five versions of the TOW missile. It is designed to defeat armored vehicles and other targets such as field fortifications from ranges up to 3,750 meters. After firing the missile, the gunner must keep the cross hairs of the sight centered on the target to ensure a hit. The system will operate in all weather conditions in which the gunner can see a target throughout the missile flight by using either a day or night sight.
The TOW Sight Improvement Program (TSIP) effort began in 199 However, on 15 October 1991 The Secretary of the Army cancelled the TSIP because of declining budget & funding issues. The Assistant Secretary of the Army for Research, Development and Acquisition directed the PEO, Tactical Missiles to coordinate the development of an affordable alternative. The latter effort subsequently became known as the Improved Target Acquisition System (ITAS) being developed for the Army's light forces.
The TOW Improved Target Acquisition System (ITAS) is a materiel change to the The ITAS is a material change to the current TOW2 ground launcher and M966 HMMWV TOW2 acquisition and fire control subsystems for first-to-deploy light forces. ITAS aides in firing all versions of TOW and builds the bridge to TOW F&F. The TOW tripod and launch tube remain unchanged. ITAS significantly increases target acquisition and engagement ranges, while retaining the capability to fire all configurations of the TOW missile. ITAS uses a second-generation forward-looking infrared system, digital components, and an eyesafe laser range finder. ITAS has an improved design with BIT/ BITES for increased maintainability and reduced logistics requirements. It also features an improved man-machine interface that improves system engagement performance. The ITAS modification kit consists of an integrated (Day/ Night Sight with Laser Rangefinder) Target Acquisition Subsystem (TAS), Fire Control Subsystem (FCS), Battery Power Source (BPS), and Modified Traversing Unit (TU). The ITAS will operate from the High Mobility Multi- Purpose Wheeled Vehicle (HMMWV) and the dismount tripod platform. The ITAS will be fielded at battalion level, replacing TOW 2 in light infantry units. The TOW Improved Target Acquisition System low- rate initial production (LRIP) I contract was awarded September 30, 1996, with a production quantity of twenty- five units. LRIP II was awarded March 1998 for a quantity of seventy-three systems for the 1st BDE Fielding in September 1999. First unit equipped (FUE) was conducted in September 1998.
Increased funding for Stryker and Future Combat Systems (FCS) came as a result of Army decisions in 2002 to terminate or restructure some 48 systems in the FY ?04-?09 Program Objective Memorandum (POM) long-term spending plan. Among the systems terminated were: United Defense?s Crusader self-propelled howitzer and the A3 upgrade for the Bradley Fighting vehicle, GD?s M1A2 Abrams System Enhancement Program, Lockheed Martin?s Army Tactical Missile System Block II and the associated pre-planned product improvement version of Northrop Grumman?s Brilliant Anti-armor (BAT) munition, Raytheon?s Stinger missile and Improved Target Acquisition System, and Textron?s Wide Area Mine.
The TOW system is used on the HMMWV, the M151 jeep, the armored personnel carrier, the Bradley Fighting Vehicle (BFV) COBRA helicopters, the ITV, and the US Marine Corps light armored vehicle.
Considerable improvements have been made to the missile since 1970. There are six missiles available for the TOW. Three of the five TOW missile versions--Basic TOW, Improved TOW and TOW 2--are no longer being produced for US forces. However, these versions are still used by 40 allied countries.
In May 1972, US soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. In Saudi Arabia the system was represented by [the HMMWV] with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version.
The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat. It was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the 101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Despite early reports of the problems being experienced by U.S. Army and Marine Corps units in hitting targets during live-fire exercises because soldiers lacked experience firing the weapon as well as Iraqi use of 'dazzlers' intended to interfere with the guidance of Army TOW missiles and other antitank missiles," the TOW during Operation Desert Storm was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It's a well known technology that does not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that US Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability: the Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Primary function: Guided missile weapon system.
Manufacturer: Hughes (missiles); Hughes and Kollsman (night sights); Electro Design Mfg. (launchers)
Size:
TOW 2A Missile:
Diameter: 5.87 inches (14.91 cm)
Length: 50.40 inches (128.02 cm)
TOW 2B Missile:
Diameter: 5.8 inches (14.9 centimeters)
Length: 48.0 inches (121.9 centimeters)
Warhead weight 12.4 kg Maximum effective range: 2.33 miles (3.75 kilometers)
Armor penetration: T-80 + / 800+ mm [>700 mm]
Time of flight to maximum effective range:
2A: 20 seconds
2B: 21 seconds
Weight:
Launcher w/TOW 2 Mods: 204.6 pounds (92.89 kilograms)
Missile Guidance Set: 52.8 pounds (23.97 kilograms)
TOW 2 Missile: 47.4 pounds (21.52 kilograms)
TOW 2A Missile: 49.9 pounds (22.65 kilograms)
TOW 2B Missile: 49.8 pounds (22.60 kilograms)
Introduction date: 1970
Unit Replacement Cost: $180,000
Launching Platforms Man portable crew of 4
HMMWV
M2/M3 Bradley Fighting Vehicle
Marine Corps Inventory: TOW launchers - 1247
Characteristics of the TOW missile family
CHARACTERISTICS
BASIC
TOW
I-TOW
TOW 2
TOW 2A
TOW 2B
Missile weight (lb)
41.5
42
47.3
49.9
49.8
Weight in container (lb)
56.3
56.5
61.8
64
64
Prelaunch length (in)
45.8
45.8
45.9
45.9
46
Standoff probe (in)
NA
14.6
17.4
17.4
NA
Max velocity (fps/mps)
981/299
970/296
1079/329
1079/ 329
1010/309
Warhead diameter (in)
5
5
6
5
5(2x)
Explosive filler (lb)
5.4
4.6
6.9
6.9
-
Max range (m)
3000
3750
3750
3750
3750
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Marissa
Tue March 25, 2003 5:44pm
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Local residents take part
Local residents take part in a troop support rally in Bellevue hosted by Operation Support Our Troops March 22, 2003. The mission of Operation Support Our Troops is to provide a process and forum for Americans of diverse interests, backgrounds and walks of life to come together to demonstrate to members of the Armed Forces and their Commander in Chief that they are supported and deeply appreciated for their service. The goal is to ensure that they know that United We Stand and Divided We Fall are notempty words, but words to which we subscribe. According to Bellevue police, over nine thousand people showed up for a very peaceful rally.
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David
Fri April 18, 2003 11:21am
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An Iraqi displays Iraqi b
Thursday, April 10, 2003, An Iraqi displays Iraqi bank notes he looted from a bank in downtown Baghdad on Thursday. Looters surged across Baghdad, and government buildings were set on fire while U.S. troops battled pockets of resistance around the capital.
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David
Sat January 3, 2004 10:20pm
Rating: 10
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AK-47 Rifle
Function: All 7.62-mm Kalashnikov assault rifles are very dependable weapons. They produce a high volume of fire and are simple to maintain and produce.
Description: The "Avtomat Kalashnikova model 1947 g." or AK-47 is a gun designed by Mikhail Kalashnikov and produced by LZh, widely used by the USSR armed forces from the 1950s through the 1980s. It is classified as an assault rifle, a mid-caliber rifle (7.62 mm, which is approximately equal to .30 caliber) that can be fired semi-automatically, or in fully-automatic bursts. It is intentionally smaller and shorter-ranged than WWII battle rifles.
The AK47 was cheap, light to carry, and easy to clean and repair in the field. It was mostly reliable but the ejector pin sometimes broke. Derivative designs replaced the AK-47 during the 1980s.
It was favoured by non-Western powers because of its ease of use, robustness, and simplicity of manufacture. Copies were made by many factories in other countries including Israel, Finland, Hungary, China and Poland, where they remain in production today.
AK47 and AKM have been extensively modified and improved upon since their first designs. Standard Kalashnikovs include:
AK-47 1948-51, 7.62x39mm. The very earliest models had a stamped sheet metal receiver. Now rare.
AK-47 1952, 7.62x39mm: with a milled receiver and wooden buttstock and hand-guard. Barrel and chamber are chrome-plated to resist corrosion. Rifle weight 4.2Kg.
AKM 7.62x39mm: a revised, lower-cost version of the AK-47; receiver is precision-stamped sheet-metal. Rifle weight 3.61Kg.
AKS-74 5.45x39mm; note the new, much smaller ammunition.
AK-74M 5.45x39mm folding stock (for motorised infantry)
AKSU 5.45x39mm, tanker's self-defense weapon, folding stock, short barrel, altered sight and gas mechanism.
Later designations:
AK-101 5.56x45 mm round (NATO round)
AK-102 short stock 101
AK-103 7.62x39mm round
AK-104 short stock 103
AK-105 5.45x39mm round (short stock)
General Characteristics, AK-47 Rifle
Names:
AK, Kalashnikov
Date of Introduction:
1949/1961
Proliferation:
Widespread (over 50 million)
Weight (kg):
Loaded (with magazine): 3.8
Empty (w/o magazine): 4.3/3.14
Length (mm):
870/880
Rate of Fire (rounds/minute):
Cyclic: 600
Practical:
- Automatic: 100
- Semiautomatic: 40
Ceiling:
18,000 meters (59,055 feet)
Operation:
Gas
Feed:
30-round curved box magazine
Fire Mode:
Selective, automatic or semi-automatic
Sights:
INA
Type: Fore, pillar; rear, U-notch
Magnification: None
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