DIA reports that China has deployed a hypersonic missile capable of striking US military bases in the Pacific. According to the DIA, this missile technology has surpassed that of Russia

On 15th November 2021, the US Defense Intelligence Agency (DIA) revealed that China had deployed the world's first operational hypersonic missile. This missile can travel at a speed of more than 15 times the speed of sound, making it a formidable weapon in modern warfare. The missile is known as the DF-17, and it has been described as "invincible" by Chinese media. The deployment of this missile is a significant development in China's military capabilities and has been viewed by many experts as a major challenge to the United States' global military dominance. This article will explore the characteristics of China's invincible hypersonic missile, compare it with Russia's hypersonic missile technology and the United States, and analyze the implications of China's technological advancements. The Characteristics of China's Hypersonic Missile

The DF-17 is a land-based missile that can be launched from a mobile platform. It is powered by a rocket engine and uses a gliding warhead to maneuver in flight, making it difficult to track and intercept. The missile has a range of approximately 1,500 miles and can carry both conventional and nuclear warheads. It is capable of traveling at a speed of Mach 15, which is more than 11,000 miles per hour. At this speed, the missile can reach the US bases in the Pacific within minutes, giving the US military very little time to react. The DF-17 missile is an improvement on China's earlier hypersonic missile, the DF-ZF. The DF-ZF was a ballistic missile that could travel at a speed of Mach 5 and had a range of approximately 1,250 miles. However, the DF-17 is more advanced than the DF-ZF, as it uses a glide vehicle instead of a ballistic trajectory. This means that it can maneuver in flight, making it much harder to intercept. Comparing China's Hypersonic Missile Technology with Russia and the United States China's hypersonic missile technology has been compared to that of Russia and the United States. Russia has been developing hypersonic missiles for several years and has already deployed the Avangard hypersonic missile. The Avangard missile can travel at a speed of Mach 27 and is capable of carrying a nuclear warhead. The missile has a range of approximately 1,600 miles and can maneuver in flight, making it difficult to intercept.

The United States has also been developing hypersonic missile technology, but it has not yet deployed an operational hypersonic missile. The US has been testing several hypersonic missiles, including the AGM-183A Air-launched Rapid Response Weapon (ARRW) and the Hypersonic Conventional Strike Weapon (HCSW). The ARRW is an air-launched missile that can travel at a speed of Mach 20, while the HCSW is a ground-launched missile that can travel at a speed of Mach 17. Both missiles are still in the testing phase, and it is unclear when they will be deployed. In terms of hypersonic missile technology, China has surpassed Russia and the United States. While Russia has deployed an operational hypersonic missile, the Avangard, it has limited range and cannot be maneuvered in flight. The United States is still in the testing phase of its hypersonic missiles, and it is unclear when they will be deployed. In contrast, China has already deployed an operational hypersonic missile, the DF-17, that can travel at a speed of Mach 15 and has a range of approximately 1,500 miles. Implications of China's Technological Advancements China's technological advancements have significant implications for global military power. China's development of the DF-17 hypersonic missile has challenged the United States' global military dominance. The missile's speed and range make China's technological advancements have significant implications for global military power. China's development of the DF-17 hypersonic missile has challenged the United States' global military dominance. The missile's speed and range make it a formidable weapon that could potentially target US bases in the Pacific, which are critical to the US military's presence in the region. China's investment in hypersonic missile technology has been part of its larger efforts to modernize its military and assert its influence in the Asia-Pacific region. The DF-17 missile is part of China's broader strategy to develop a more advanced military capable of projecting power beyond its borders. China's hypersonic missile technology could also be used to counter US military capabilities in the region and deter potential adversaries. China's technological advancements in hypersonic missile technology have also raised concerns among US policymakers and military officials. The speed and maneuverability of hypersonic missiles make them difficult to detect and intercept, raising the risk of a potential arms race in this area of technology. This has prompted the US to accelerate its efforts to develop hypersonic missile technology and invest in missile defense systems. The development of hypersonic missile technology by China, Russia, and the United States has also led to concerns about the destabilization of global strategic stability. Hypersonic missiles, due to their speed and maneuverability, could potentially reduce the warning time for decision-makers to react to a potential attack, increasing the risk of miscalculation and unintended conflict. The deployment of hypersonic missiles could also lead to a new arms race and potentially undermine existing arms control agreements. China's deployment of the DF-17 hypersonic missile has marked a significant advancement in hypersonic missile technology and challenged the United States' global military dominance. China's investment in hypersonic missile technology is part of its broader strategy to modernize its military and assert its influence in the Asia-Pacific region. The development of hypersonic missile technology by China, Russia, and the United States has also raised concerns about the destabilization of global strategic stability and the potential for a new arms race. It is essential for policymakers to address these concerns and explore ways to mitigate the risks associated with the deployment of hypersonic missiles. Certainly, the United States has also been investing in hypersonic missile technology in response to China and Russia's developments. Here are some examples of US hypersonic missile projects: AGM-183A Air-Launched Rapid Response Weapon (ARRW): This hypersonic missile is being developed by Lockheed Martin for the US Air Force. The ARRW is designed to be carried by B-52H and B-2A bombers and will be able to strike targets anywhere in the world within minutes of launch. The missile is expected to have a speed of Mach 20 or more. Common Hypersonic Glide Body (C-HGB): This is a joint project between the US Army, Navy, and Air Force. The C-HGB is designed to be launched from a variety of platforms, including ground-based launchers, submarines, and surface ships. It is expected to have a speed of Mach 5 or higher. Hypersonic Conventional Strike Weapon (HCSW): This hypersonic missile is being developed by the US Air Force and is designed to be launched from B-52H and B-1B bombers. The HCSW is expected to have a speed of Mach 5 or higher and will be able to strike targets anywhere in the world within minutes of launch. Arrow: This is a hypersonic missile being developed by Raytheon for the US Army. The missile is designed to be launched from ground-based launchers and will have a speed of Mach 5 or higher. Advanced Hypersonic Weapon (AHW): This was a hypersonic missile project that was being developed by the US Army, but it was cancelled in 2014 due to technical problems. It is worth noting that the development of hypersonic missiles is a highly competitive field, and the United States, China, and Russia are all striving to be leaders in this technology. The development of hypersonic missiles has significant implications for global strategic stability and arms control, and it is essential for policymakers to carefully consider the risks and benefits of this technology.