t. von dir kamen ja nur mutmaßungen, nichts handfestes. von irgendwelchen quellenangaben mal ganz zu schweigen.F-16 Fighting FalconF-16 Fighting Falcon F-16 History F-16 Design F-16 Losses F-16A/B Fighting Falcon F-16C/D Fighting Falcon F-16E/F/XL F-16 Foreign Military Sales F-16 Service Life F-16 Mission Missile Configurations F-16 Specifications F-16XL Specifications F-16 Pictures F-16 References The F-16 Fighting Falcon is a compact, multirole fighter aircraft. It is highly maneuverable and has proven itself in air-to-air combat and air-to-surface attack. It provides a relatively low-cost, high-performance weapon system for the United States and allied nations. In an air combat role, the F-16's maneuverability and combat radius (distance it can fly to enter air combat, stay, fight and return) exceed that of all potential threat fighter aircraft. It can locate targets in all weather conditions and detect low flying aircraft in radar ground clutter. In an air-to-surface role, the F-16 can fly more than 500 miles (860 kilometers), deliver its weapons with superior accuracy, defend itself against enemy aircraft, and return to its starting point. An all-weather capability allows it to accurately deliver ordnance during non-visual bombing conditions. The F-16 is being built under an unusual agreement creating a consortium between the United States and four NATO countries: Belgium, Denmark, the Netherlands and Norway. These countries jointly produced with the United States an initial 348 F-16s for their air forces. Final airframe assembly lines were located in Belgium and the Netherlands. The consortium's F-16s are assembled from components manufactured in all five countries. Belgium also provides final assembly of the F100 engine used in the European F-16s. The long-term benefits of this program will be technology transfer among the nations producing the F-16, and a common-use aircraft for NATO nations. This program increases the supply and availability of repair parts in Europe and improves the F-16's combat readiness. USAF F-16 multi-mission fighters were deployed to the Persian Gulf in 1991 in support of Operation Desert Storm, where more sorties were flown than with any other aircraft. These fighters were used to attack airfields, military production facilities, Scud missiles sites and a variety of other targets. Originally conceived as a simple air-superiority day fighter, the aircraft was armed for that mission with a single six-barrel Vulcan 20-mm cannon and two Sidewinder missiles, one mounted at each wingtip. Over the years, however, the mission capability of the aircraft has been extended to include ground-attack and all-weather operations With full internal fuel, the aircraft can carry up to 12 000 pounds of external stores including various types of ordnance as well as fuel tanks. The original F-16 was designed as a lightweight air-to-air day fighter. Air-to-ground responsibilities transformed the first production F-16s into multirole fighters. The empty weight of the Block 10 F-16A is 15,600 pounds. The empty weight of the Block 50 is 19,200 pounds. The A in F-16A refers to a Block 1 through 20 single-seat aircraft. The B in F-16B refers to the two-seat version. The letters C and D were substituted for A and B, respectively, beginning with Block 25. Block is an important term in tracing the F-16's evolution. Basically, a block is a numerical milestone.The block number increases whenever a new production configuration for the F-16 is established. Not all F-16s within a given block are the same. They fall into a number of block subsets called miniblocks. These sub-block sets are denoted by capital letters following the block number (Block 15S, for example). From Block 30/32 on, a major block designation ending in 0 signifies a General Electric engine; one ending in 2 signifies a Pratt & Whitney engine. F-15 EagleF-15 Eagle F-15 Design F-15 History F-15 Variants F-15E Strike Eagle F-15 Management F-15 Service Life F-15 Foreign Military Sales F-15 Specifications F-15 Pictures F-15 References HistoryThe Eagle’s history is long and distinguished. It began as a Air Force fighter study in the early 1960s and was known as the Fighter Experimental (FX). By 1967 the Air Force began development of a new high performance fighter aircraft that would be extremely agile and would be capable of gaining and maintaining air superiority through air-to-air combat. The new design had to be optimized for combat with the power and agility to overcome any current or projected Soviet threat. The F-15 was the first air-to-air fighter requested by the Air Force since the F-86 Sabre. The resulting F-15 Eagle had an unequaled combination of performance, firepower, and avionics. It was the benchmark--the plane to beat. Experience in the Vietnam conflict showed the F-4 Phantom II to have maneuvering performance inferior to that of the Soviet-built MiG21. In response to this finding, the USAF developed a set of requirements for a dedicated air-superiority fighter with a maneuvering capability greater than any existing or foreseeable-future fighter aircraft. Using lessons learned in Vietnam, the USAF sought to develop and procure a new, dedicated air superiority fighter. Such an aircraft was desperately needed, as no USAF aircraft design solely conceived as an air superiority fighter had become reality since the F-86 Sabre. The intervening twenty years saw a number of aircraft performing the air-to-air role as a small part of their overall mission, such as the primarily air-to-ground F-4 Phantom and the F-102, F-104 and F-106 interceptor designs. The result of the FX study was a requirement for a fighter design combining unparalleled maneuverability with state-of-the-art avionics and weaponry. McDonnell Douglas, North American Rockwell, and Fairchild-Republic submitted proposals in the ensuing design competition. Many of the basic design features of U.S. fighter aircraft have resulted from technology pioneered at NASA's Langley Research Center. In 1967, Langley disseminated the results of in-house studies of a fighter configuration known as LFAX-8, which incorporated several features that would later be evident in the F-15 aircraft. Some of these features were Short propulsion package to minimize weight Engines placed forward for balance Horizontal ramp engine inlets for good performance at high angles of attack Horizontal tails located far aft on booms for increased stability and control Tailored twin-engine aft-end spacing and interfairing for efficient subsonic cruise conditions In 1968, the Department of Defense requested that NASA respond to the F-15 request for proposals (RFP) in a manner similar to the industry contractors. The key person behind the NASA participation was Dr. John Foster, Director of the Defense Department Research and Engineering organization. He requested the participation for two reasons. First, Foster felt that NASA’s aircraft designs for the F-15 mission would embody advanced technology and serve as the upper limit of technology for industry proposals. Second, NASA and its problem-solving expertise could minimize risks and problems later in the development program. Four fighter concepts were studied in great detail: LFAX-4—a variable-sweep configuration LFAX-8— a fixed-sweep version of LFAX-4 LFAX-9—wing-mounted twin-engine configuration LFAX-10—similar in external shape to Soviet MiG-25 Foxbat Industry design teams visited Langley during the efforts and were continually updated on the advantages, disadvantages, and technical maturity of the configurations. The NASA team also briefed high ranking DOD officials. The LFAX-4 and LFAX-8 embodied features that would subsequently be evident in the McDonnell Douglas F-15 and Northrop Grumman F-14 aircraft. The LFAX-8 design made an indelible impression on the McDonnell Douglas design team, which embraced the fundamental layout of the NASA configuration. The cranked-wing design of the LFAX-8 had to be modified by McDonnell Douglas as the requirements for transonic maneuvering became more important. Another modification to the LFAX-8 involved the installation of a larger radar dish in the nose than the NASA team had allowed for in their design. The installation required a larger diameter nose cone, and although the NASA researchers deplored the increased supersonic drag caused by the larger nose, the final design incorporated the larger dish. An industry-wide competition ended on December 23, 1969 when McDonnell Douglas was awarded the contract for the F-15. Previous experiences with the F-111 and other advanced fighter concepts indicated that an extremely large portion of the subsonic cruise drag of modern twin-engine fighters is contributed by the aft end of the configuration (approaches 50 percent for some configurations). Careful tailoring of the engine inter-fairings and tail surfaces could prevent excessive aft-end drag. Configuration changes to the initial F-15 design significantly reduced the subsonic cruise drag of the aircraft. Specifically, the ventral fins were removed and the height of the vertical tails was increased to compensate for the resulting loss of directional stability. quelle: globalsecurity.org (ist ein Thinktank des Verteidigungsministeriums).also, wann kommst du mal mit fakten rüber? bei dir kommt immer nur polemik und pöbeln. was handfestes hat man von dir hier noch nicht gesehen.aber da du ja alles weißt, kannst du sicherlich auch erklären, wie 1981, zu einem zeitpunkt wo der kalte krieg ziemlich hot war, so ein paar f15 unbemerkt nach israel kommen. immerhin war es ja nicht so, das sich der warschauer pakt die eier gekrault hat, wenn irgendwo in der nördlichen hemisphere kampfbflugzeuge am himmel rumschwirrten. und die lybier waren ja auch unheimlich friedvoll und haben nicht registriert was so im mittelmeer rumschwirrt. und es war ja auch nicht so, dass der irak damals wichtigster verbündeter der usa gegen die ayatollahs im iran war. achja, und die ägypter haben natürlich auch ihr radar abgestellt als die f15 nach israel verlegt wurden, genau so wie die syrer, die saudis, die jordanier und wer nicht noch alles damals mit der modernsten russischen technik ausgerüstet war um hilfsdienste für die russen zu leisten. und jetzt komm nicht, dass die flieger zerlegt in nem uboot nach israel geschmuggelt wurden.
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