a10 thunderbolt tank killer

[Beckwith]

[BlakeJr]

I hope to god that's an A10 pilot you posted up there Beck... Otherwise that could be considered to be off topic you know



...ahem... ops:

[Heydude235]

Beckwith']

Now the fucken devs are spaming what has this world come to!!!

[Eddie Baker]

Heydude- calm down.

[BlakeJr]

Now the fucken devs are spaming what has this world come to!!!

Again, you are right, but do you have a smidgen of understanding of the term "Cool it"?
The use of smilies will also make it easier to see if you are joking or not.
Besides, Beck's NOT a dev.

Last warning for this thread.
Back on topic! Including devs and mods, understood?

[Heydude235]

to all devs and other people that came in here after i told people to get on topic FUCK OFF! go spam on some other thred.

Now to stay on topic

The A-10 and OA-10 Thunderbolt IIs are the first Air Force aircraft specially designed for close air support of ground forces. They are simple, effective and survivable twin-engine jet aircraft that can be used against all ground targets, including tanks and other armored vehicles.

The primary mission of the A-10 is to provide day and night close air combat support for friendly land forces and to act as forward air controller (FAC) to coordinate and direct friendly air forces in support of land forces. The A-10 has a secondary mission of supporting search and rescue and Special Forces operations. It also possesses a limited capability to perform certain types of interdiction. All of these missions may take place in a high or low threat environment.

The A/OA-10 aircraft was specifically developed as a close air support aircraft with reliability and maintainability as major design considerations. The Air Force requirements documents emphasized payload, low altitude flying capability, range and loiter capability, low speed maneuverability and weapons delivery accuracy. The aircraft is capable of worldwide deployment and operation from austere bases with minimal support equipment.

Specific survivability features include titanium armor plated cockpit, redundant flight control system separated by fuel tanks, manual reversion mode for flight controls, foam filled fuel tanks, ballistic foam void fillers, and a redundant primary structure providing “get home” capability after being hit. Design simplicity, ease of access and left to right interchangeable components make the A/OA-10 aircraft readily maintainable and suitable for deployment at advanced bases.

The A-10/OA-10 have excellent maneuverability at low air speeds and altitude, and are highly accurate weapons-delivery platforms. They can loiter near battle areas for extended periods of time and operate under 1,000-foot ceilings (303.3 meters) with 1.5-mile (2.4 kilometers) visibility. Their wide combat radius and short takeoff and landing capability permit operations in and out of locations near front lines. Using night vision goggles, A-10/ OA-10 pilots can conduct their missions during darkness.

The A/OA-10 is a single place, pressurized, low wing and tail aircraft with two General Electric TF-34-100/A turbo-fan engines, each with a sea level static thrust rating of approximately 9000 pounds. The engines are installed in nacelles mounted on pylons extending from the fuselage just aft of and above the wing. Two vertical stabilizers are located at the outboard tips of the horizontal stabilizers. The forward retracting tricycle landing gear incorporates short struts and a wide tread. The nose wheel retracts fully into the fuselage nose. The main gear retracts into streamlined fairing on the wing with the lower portion of the wheel protruding to facilitate emergency gear-up landings. The General Electric Aircraft Armament Subsystem A/A49E-6 (30 millimeter Gun System) is located in the forward nose section of the fuselage. The gun system consists of the 30mm Gatling gun mechanism, double-ended linkless ammunition feed, storage assembly and hydraulic drive system.

Avionics equipment includes communications, inertial navigation systems, fire control and weapons delivery systems, target penetration aids and night vision goggles. Their weapons delivery systems include head-up displays that indicate airspeed, altitude and dive angle on the windscreen, a low altitude safety and targeting enhancement system (LASTE) which provides constantly computing impact point freefall ordnance delivery; and Pave Penny laser-tracking pods under the fuselage. The aircraft also have armament control panels, and infrared and electronic countermeasures to handle surface-to-air-missile threats.

The Thunderbolt II's 30mm GAU-8/A Gatling gun can fire 3,900 rounds a minute and can defeat an array of ground targets to include tanks. Some of their other equipment includes an inertial navigation system, electronic countermeasures, target penetration aids, self-protection systems, and AGM-65 Maverick and AIM-9 Sidewinder missiles.

Thunderbolt IIs have Night Vision Imaging Systems (NVIS), compatible single-seat cockpits forward of their wings and a large bubble canopy which provides pilots all-around vision. The pilots are encircled by titanium armor that also protects parts of the flight-control system. The redundant primary structural sections allow the aircraft to enjoy better survivability during close air support than did previous aircraft. The aircraft can survive direct hits from armor-piercing and high-explosive projectiles up to 23mm. Their self-sealing fuel cells are protected by internal and external foam. Their redundant hydraulic flight-control systems are backed up by manual systems. This permits pilots to fly and land when hydraulic power is lost.

The Thunderbolt II can be serviced and operated from bases with limited facilities near battle areas. Many of the aircraft's parts are interchangeable left and right, including the engines, main landing gear and vertical stabilizers

Primary Function A-10 -- close air support, OA-10 - airborne forward air control
Contractor Fairchild Republic Co.
Power Plant Two General Electric TF34-GE-100 turbofans
Thrust 9,065 pounds each engine
Length 53 feet, 4 inches (16.16 meters)
Height 14 feet, 8 inches (4.42 meters)
Wingspan 57 feet, 6 inches (17.42 meters)
Speed 420 miles per hour (Mach 0.56)
Ceiling 45,000 feet (13,636 meters)
Maximum Takeoff Weight 51,000 pounds (22,950 kilograms)
Range 800 miles (695 nautical miles)

Im sure this will help the devs to make the a-10 and put it into the mod

Also here are some cool pictures

[BlakeJr]

to all devs and other people that came in here after i told people to get on topic FUCK OFF! go spam on some other thred.

You do NOT want to go down this road... Trust me.
You don't want this thread locked and I don't want to lock it.
So lay off the caustic remarks!

Now are we clear?
The next post from you Heydude235, will be "Yes, Sir" and nothing else!

[Heydude235]

BlakeJr']You do NOT want to go down this road... Trust me.
You don't want this thread locked and I don't want to lock it.
So lay off the caustic remarks!

Now are we clear?
The next post from you Heydude235, will be "Yes, Sir" and nothing else!

Fuck off i dont give a shit about you! Close it i will just make another. I have ran down the road and kicked you in the balls

[BlakeJr]

Less than Ideal response really. Go read your PM.

[Resjah]

Fuck off i dont give a shit about you! Close it i will just make another. I have ran down the road and kicked you in the balls

REALLY REALLY Bad move man, your not going to be able to make a new thread after that, u know why?

Cuz they are probably going to ban you for saying $H!t like that

[Heydude235]

Omg spam much get lost

[Heydude235]

Here is some cool info on the a-10

The A-10 and OA-10 Thunderbolt IIs are the first Air Force aircraft specially designed for close air support of ground forces. They are simple, effective and survivable twin-engine jet aircraft that can be used against all ground targets, including tanks and other armored vehicles.

The primary mission of the A-10 is to provide day and night close air combat support for friendly land forces and to act as forward air controller (FAC) to coordinate and direct friendly air forces in support of land forces. The A-10 has a secondary mission of supporting search and rescue and Special Forces operations. It also possesses a limited capability to perform certain types of interdiction. All of these missions may take place in a high or low threat environment.

The A/OA-10 aircraft was specifically developed as a close air support aircraft with reliability and maintainability as major design considerations. The Air Force requirements documents emphasized payload, low altitude flying capability, range and loiter capability, low speed maneuverability and weapons delivery accuracy. The aircraft is capable of worldwide deployment and operation from austere bases with minimal support equipment.

Specific survivability features include titanium armor plated cockpit, redundant flight control system separated by fuel tanks, manual reversion mode for flight controls, foam filled fuel tanks, ballistic foam void fillers, and a redundant primary structure providing “get home” capability after being hit. Design simplicity, ease of access and left to right interchangeable components make the A/OA-10 aircraft readily maintainable and suitable for deployment at advanced bases.

The A-10/OA-10 have excellent maneuverability at low air speeds and altitude, and are highly accurate weapons-delivery platforms. They can loiter near battle areas for extended periods of time and operate under 1,000-foot ceilings (303.3 meters) with 1.5-mile (2.4 kilometers) visibility. Their wide combat radius and short takeoff and landing capability permit operations in and out of locations near front lines. Using night vision goggles, A-10/ OA-10 pilots can conduct their missions during darkness.

The A/OA-10 is a single place, pressurized, low wing and tail aircraft with two General Electric TF-34-100/A turbo-fan engines, each with a sea level static thrust rating of approximately 9000 pounds. The engines are installed in nacelles mounted on pylons extending from the fuselage just aft of and above the wing. Two vertical stabilizers are located at the outboard tips of the horizontal stabilizers. The forward retracting tricycle landing gear incorporates short struts and a wide tread. The nose wheel retracts fully into the fuselage nose. The main gear retracts into streamlined fairing on the wing with the lower portion of the wheel protruding to facilitate emergency gear-up landings. The General Electric Aircraft Armament Subsystem A/A49E-6 (30 millimeter Gun System) is located in the forward nose section of the fuselage. The gun system consists of the 30mm Gatling gun mechanism, double-ended linkless ammunition feed, storage assembly and hydraulic drive system.

Avionics equipment includes communications, inertial navigation systems, fire control and weapons delivery systems, target penetration aids and night vision goggles. Their weapons delivery systems include head-up displays that indicate airspeed, altitude and dive angle on the windscreen, a low altitude safety and targeting enhancement system (LASTE) which provides constantly computing impact point freefall ordnance delivery; and Pave Penny laser-tracking pods under the fuselage. The aircraft also have armament control panels, and infrared and electronic countermeasures to handle surface-to-air-missile threats.

The Thunderbolt II's 30mm GAU-8/A Gatling gun can fire 3,900 rounds a minute and can defeat an array of ground targets to include tanks. Some of their other equipment includes an inertial navigation system, electronic countermeasures, target penetration aids, self-protection systems, and AGM-65 Maverick and AIM-9 Sidewinder missiles.

Thunderbolt IIs have Night Vision Imaging Systems (NVIS), compatible single-seat cockpits forward of their wings and a large bubble canopy which provides pilots all-around vision. The pilots are encircled by titanium armor that also protects parts of the flight-control system. The redundant primary structural sections allow the aircraft to enjoy better survivability during close air support than did previous aircraft. The aircraft can survive direct hits from armor-piercing and high-explosive projectiles up to 23mm. Their self-sealing fuel cells are protected by internal and external foam. Their redundant hydraulic flight-control systems are backed up by manual systems. This permits pilots to fly and land when hydraulic power is lost.

The Thunderbolt II can be serviced and operated from bases with limited facilities near battle areas. Many of the aircraft's parts are interchangeable left and right, including the engines, main landing gear and vertical stabilizers.

The first production A-10A was delivered to Davis-Monthan Air Force Base, Ariz., in October 1975. It was designed specially for the close air support mission and had the ability to combine large military loads, long loiter and wide combat radius, which proved to be vital assets to America and its allies during Operation Desert Storm. In the Gulf War, A-10s, with a mission capable rate of 95.7 percent, flew 8,100 sorties and launched 90 percent of the AGM-65 Maverick missiles.

Service Life
The original service life of the A/OA-10 was 8,000 hours, equating to approximately to FY2005. The revised service life was projected out to 12,000 hours, equating to approximately FY2016. The most recent long range plan has the A/OA-10 in the fleet through FY2028, which equates to approximately 18,000-24,000 hours.

A/OA-10 modifications are aimed at improving the A/OA-10 throughout the its service life. All modifications are integrated between ACC, AFRC, and ANG, with the Guard and Reserve often funding non-recurring engineering efforts for the modifications and ACC opting for follow-on production buys. Budgetary constraints are often best overcome by this type of arrangement. Two types of modifications are conducted on the A/OA-10, those to systems, structures and engines, and those to avionics. Structure, system and engine modifications aim at improving reliability, maintainability and supportability of the A/OA-10 and reducing the cost of ownership. Avionics modifications continue the metamorphosis of the A/OA-10 from a day visual flight rules (VFR) fighter to a night-capable integrated weapon system.

A/OA-10 avionics modifications provide for greater interoperability between the Army and Air Force by improving situational awareness, tactical communication, navigation and weapon system accuracy, and providing additional capabilities in the areas of threat detection and avoidance, low-level flight safety, stores management and employment of “smart” weapons. In addition, modifications are sought to reduce cost of ownership and to remove supportability quagmires such as obsolete parts. Modifications to the A/OA-10 are nearly always interdependent—interdependence maximizes combat capability of the A/OA-10 by interconnecting modifications in distributed avionics architecture. Integral to the improvement of the A/OA-10 is a new acquisition strategy centered on a recently acquired prime contractor for the weapon system. The prime contractor will be the integrator of all major weapon system modifications and provide the continuity necessary to accommodate the downward trend in organic manpower and relocation of the System Program Office.

A large portion of the systems sustaining engineering is for contingency use throughout the fiscal year and is utilized to investigate mishaps, resolve system deficiencies, develop engineering change proposals, or to establish new operational limits. Specific requirements cannot be forecast, but general needs can be predicted based on actual occurrences since the A/OA-10 program management responsibility transferred to SM-ALC in 1982. The objectives of the sustaining engineering and configuration management programs are to reduce spares utilization, reduce hazard potentials and to increase the weapon system's effectiveness. Sustaining Engineering is mission critical and will be used to obtain the non-organic engineering services needed to maintain and improve the design and performance.

The A/OA-10 weapon system was originally designed for manual pilot operation and control. In 1990, the aircraft was modified to incorporate the Low Altitude Safety and Targeting Enhancements (LASTE) System. This system provided computer-aided capabilities including a Ground Collision Avoidance System (GCAS) to issue warnings of impending collision with the ground, an Enhanced Attitude Control (EAC) function for aircraft stabilization during gunfire and a Low Altitude Autopilot system, and computed weapon delivery solutions for targeting improvements. The LASTE computer system installation added the requirement for an Operational Flight Program (OFP) to provide the computer control software necessary to perform the above functions.

Commencing in 1999, the A/OA-10 fleet was additionally upgraded with the installation of an Embedded Global Positioning System/Inertial Navigation System (EGI). In conjunction with this aircraft modification, a replacement Control Display Unit (CDU) will be installed with its own separate OFP software.

Operational capability changes, mission changes, latent system deficiencies, and additional user requirements dictate the necessity of periodic OFP block change cycles (BCC) to maintain the weapon system operational requirements. The current BCC includes the LASTE OFP changes, but will additionally require the CDU OFP updates to be accomplished concurrently following the installations of EGI/IDM Modification. Following installation of the original LASTE System, corrections to original system deficiencies, added user requirements, and now the pending EGI modification program have increased the total requirements for the LASTE computer hardware to its maximum design capability. Implementation of the current OFP software change will result in maximum utilization of the computer's memory and throughput, precluding any further operational change requirements from being implemented. In anticipation of this hardware limitation, engineering Reliability and Maintainability (R&M) project was initiated in 1993 to develop options to correct this deficiency. This project is developing an engineering hardware unit, along with an updated OFP software program, for test and evaluation.

The addition of the LASTE system and the pending installation of the EGI/CDU system have greatly increased the complexity of the A/OA-10 weapon system, including the troubleshooting and maintenance requirements. Also, the implementation of the 2-level maintenance system, eliminating the intermediate-level maintenance capabilities at the operating units, has necessitated improved troubleshooting capabilities at the unit levels to maintain the aircraft operational readiness requirements. An Operational Test System (OTS) has been developed to provide a computer test aid for the organizational maintenance units to expedite their maintenance actions. The OTS contains a software test program that requires periodic updates to maintain compatibility with the LASTE and CDU systems, as well as other A/OA-10 avionics systems.

TF-34 engines are essentially two level maintenance via user Queen Bee sites at Barksdale, Davis-Monthan and Shaw AFBs. All ACC aircraft TF-34 engines are repaired at Davis-Monthan or Shaw AFB. Shaw AFB also supports USAFE. PACAF uses a combination of two and three level maintenance; Osan AB utilizes regional support provided at Kadena AB, while Eielson AFB performs Jet Engine Intermediate Maintenance (JEIM) on-sight. Barksdale AFB regionally supports AFRC. The ANG remains entirely supported by base field JEIM shops. Depot level engine maintenance is accomplished by the Navy at Jacksonville NAS, FL. The A/OA-10 has 51 avionics line replaceable units that transitioned to two level maintenance.
Primary Function A-10 -- close air support, OA-10 - airborne forward air control
Contractor Fairchild Republic Co.
Power Plant Two General Electric TF34-GE-100 turbofans
Thrust 9,065 pounds each engine
Length 53 feet, 4 inches (16.16 meters)
Height 14 feet, 8 inches (4.42 meters)
Wingspan 57 feet, 6 inches (17.42 meters)
Speed 420 miles per hour (Mach 0.56)
Ceiling 45,000 feet (13,636 meters)
Maximum Takeoff Weight 51,000 pounds (22,950 kilograms)
Range 800 miles (695 nautical miles)

Now the pictures











Look how big that beast is in the 3rd pic.

[BlakeJr]

Lock removed because I promised Heydude this thread would stay open if it doesn't crash and burn.

Last chance, the VERY last chance for this thread is hereby reopened.

[Rg]

IMO, we certainly don't need more bombers. I'm trying to get rid of the ones we have now, lol.

[Beckwith]

whats wrong with bombers?

if you have a problem with BF2's fighter/bombers thats one thing but i would hate to see them removed altogether

[Cerberus]

The A-10 is perfect for PR

[Heydude235]

I love bomber. The a-10 is my fav bomber

[Rg]

Beckwith']whats wrong with bombers?

if you have a problem with BF2's fighter/bombers thats one thing but i would hate to see them removed altogether

They don’t really help the game. Killing a few soldiers or 1 tank/apc here and there doesn’t really help the goal. Respawns are absurdly fast (for soldiers) and unlimited.
Also, it doesn’t get much g**** then the flyover rearm/repair. They should have to land, and it should take time to rearm/repair.

[Cerberus]

It's not a bomber, it's an attack aircraft

[Heydude235]

Im not sure about landing. I like the fly over. I think in the full pr mod the spwan for tanks/apcs will be longer. The bomber could help alot for taking an outpost.