China's Long Sword 100 cruise missile soars in speed and is extremely accurate, surpassing the US Tomahawk!
Recently, China's self-developed Changjian 100 cruise missile has once again attracted widespread attention. According to expert analysis, the Changjian 100 far surpasses the US military's Tomahawk missiles in terms of speed and accuracy, and has become a major highlight of China's scientific and technological strength.
Tomahawk missiles have always faced a problem: they are slow and easy to intercept. The Longsword 100 successfully solves this problem with a unique power design. First, the first-stage solid rocket engine quickly sends the missile into the air, and then the second-stage ramjet engine cruises at Mach 3 at high altitude near space. In the end, the first waverider warhead descended in altitude with an irregular trajectory, increased its speed, and achieved a speed of more than Mach 4 until it hit the target. This unique design greatly increases the success rate of the Longsword 100's penetration.
Compared to subsonic cruise missiles, the Longsword 100 is not only faster, but also equally impressively accurate. According to the fighters of the Longsword 100 launcher, the accuracy of operating the Longsword 100 launcher can be described as jaw-dropping. He described that if the sword 10 can accurately hit a person, then the sword 10a is enough to hit the bread in the person's hand, and the sword 100 can accurately hit the fly on the bread!
The uniqueness of the Longsword 100 lies not only in its advanced technology, but also in its all-round performance. The high speed and high accuracy make the Longsword 100 show excellent adaptability in complex combat environments. This self-developed high-performance missile has not only strengthened China's national defense strength, but has also set a distinctive mark in the field of international military science and technology.
The successful research and development of Changjian 100 marks that we have made new breakthroughs in science and technology, and have made important contributions to the maintenance of stability and stability. In the future, we have reason to expect that we will make more remarkable achievements in more fields.