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Hyper Velocity Gliding Projectile (HVGP) (島嶼防衛用高速滑空弾, Tōsyobōeiyō-kōsoku-kakkūdan) is a Japanese hypersonic glide vehicle being intended to be used as a hypersonic weapon in defending of remote islands. [1] [2]
China. Chinese DF-ZF hypersonic glide vehicle mounted on the DF-17 ballistic missile.. DF-ZF (developed and deployed) / Mach 5–10 [5]; GDF-600 (concept) In addition to a unified payload the Guangdong Aerodynamic Research Academy claims to be exploring fitting the conceptual weapon with various submunitions including what it calls a patrol projectile.
Comparison of Ballistic Missile and Hypersonic Glide Vehicle (C-HGB) Flight Trajectories for the LRHW Program Scramjet-powered hypersonic cruise missile. A hypersonic weapon is a weapon capable of travelling at hypersonic speed, defined as above Mach 5, or above 5 times the speed of sound.
The Common-Hypersonic Glide Body was tested in March 2020. [11] [12] LRHW subsystems were tested at Project Convergence 2022 (PC22). [25] [26] On 28 June 2024, the DoD announced a successful recent end-to-end test of the US Army's Long-Range Hypersonic Weapon all-up round (AUR) and the US Navy's Conventional Prompt Strike.
NTK/Sumitomo Type 62 machine gun: General purpose machine gun: 7.62×51mm NATO Japan: Made by Sumitomo. It has been largely superseded by the Minimi, but it is still used for infantry support as a medium machine gun, and in certain vehicle-mounted roles. [11] NTK/Sumitomo Type 74 In-vehicle machine gun: In-vehicle machine gun: 7.62×51mm NATO Japan
The AGM-183 ARRW ("Air-Launched Rapid Response Weapon") is [5] a hypersonic air-to-ground ballistic missile planned for use by the United States Air Force.Developed by Lockheed Martin, the boost-glide vehicle is propelled to a maximum speed of more than Mach 5 [6] by a rocket motor before gliding toward its target.
Both these missions are funded by the US Defense Advanced Research Projects Agency to help develop hypersonic technologies and to demonstrate its effectiveness. [6] Under the original plan, HTV-1 was to feature a hypersonic lift-to-drag ratio of 2.5, increasing to 3.5-4 for the HTV-2 and 4-5 for the HTV-3. The actual lift-to-drag ratio of HTV-2 ...
The Advanced Hypersonic Weapon (AHW) performs its first flight in 2011 on a STARS missile from the Pacific Missile Range Facility at Kauai in Hawaii. On 18 November 2011, the first advanced hypersonic weapon (AHW) glide vehicle was successfully tested by the U.S. Army Space and Missile Defense Command as part of the Prompt Global Strike program.