air shock wave
简明释义
1. 冲击波; 2. 空气激波;
英英释义
例句
1.The explosion produced a powerful air shock wave, causing windows to shatter miles away.
爆炸产生了强大的空气冲击波,导致数英里外的窗户破碎。
2.The air shock wave from the rocket launch was felt several kilometers away.
火箭发射产生的空气冲击波在几公里外都能感受到。
3.During the test, the air shock wave caused significant damage to nearby structures.
在测试过程中,空气冲击波对附近的建筑造成了重大损害。
4.Engineers must account for the air shock wave effects when designing buildings near airports.
工程师在设计靠近机场的建筑时必须考虑空气冲击波的影响。
5.Aircraft flying at supersonic speeds create an air shock wave that can be heard as a sonic boom.
以超音速飞行的飞机会产生空气冲击波,可以听到音爆声。
作文
The phenomenon of air shock wave is a fascinating aspect of physics that has significant implications in various fields, including aerodynamics, acoustics, and even medicine. A air shock wave occurs when an object travels through the air at a speed greater than the speed of sound, which is approximately 343 meters per second at sea level. This creates a sudden change in pressure that propagates through the air, resulting in a shock wave. These waves are not just limited to high-speed aircraft; they can also occur in explosions or any rapid release of energy. Understanding air shock waves is crucial for engineers designing supersonic jets. When an aircraft exceeds the speed of sound, it generates a series of shock waves that can lead to a phenomenon known as 'sonic boom.' This loud noise is a result of the pressure waves created by the aircraft's movement and can cause disturbances on the ground, impacting communities near flight paths. Engineers must consider these effects when designing aircraft to minimize their impact and ensure compliance with regulations regarding noise pollution.In the field of acoustics, air shock waves are studied to understand how sound travels and interacts with different environments. For instance, researchers examine how these waves can be manipulated to improve sound quality in concert halls or recording studios. By controlling the way air shock waves reflect and refract within a space, acousticians can enhance the auditory experience for audiences.Moreover, air shock waves play a role in medical applications, particularly in the use of focused ultrasound therapy. This technique uses high-frequency sound waves to target specific tissues in the body, creating localized heating and leading to therapeutic effects. The principles behind air shock waves help scientists understand how to generate and control these waves to effectively treat conditions such as tumors or kidney stones without invasive surgery.In conclusion, the study of air shock waves encompasses a wide range of applications and implications across different disciplines. From aviation to acoustics and medicine, understanding how these shock waves behave allows us to harness their power for innovation and improvement in technology and healthcare. As our knowledge of physics continues to grow, the potential for new discoveries related to air shock waves remains vast, promising exciting advancements in the future.
‘空气冲击波’这一现象是物理学的一个迷人方面,在气动学、声学甚至医学等多个领域具有重要意义。当一个物体以超过声速的速度穿过空气时,就会发生‘空气冲击波’,在海平面上,声速大约为每秒343米。这会导致压力的突然变化,并在空气中传播,从而产生冲击波。这些波不仅限于高速飞机;它们还可以发生在爆炸或任何快速释放能量的情况下。理解‘空气冲击波’对设计超音速喷气机的工程师至关重要。当一架飞机超过声速时,它会产生一系列冲击波,这可能导致一种被称为“音爆”的现象。这种响亮的噪音是由飞机运动创造的压力波造成的,可能会对地面造成干扰,影响飞行路径附近的社区。工程师在设计飞机时必须考虑这些影响,以尽量减少它们的影响并确保遵守有关噪音污染的法规。在声学领域,研究人员研究‘空气冲击波’以了解声音如何传播并与不同环境互动。例如,研究人员考察这些波如何被操控以改善音乐厅或录音室的声音质量。通过控制‘空气冲击波’在空间内的反射和折射方式,声学家可以增强观众的听觉体验。此外,‘空气冲击波’在医学应用中也发挥着作用,特别是在聚焦超声治疗的使用中。这种技术利用高频声波针对身体特定组织,产生局部加热并导致治疗效果。‘空气冲击波’背后的原理有助于科学家理解如何产生和控制这些波,以有效治疗肿瘤或肾结石等疾病,而无需进行侵入性手术。总之,‘空气冲击波’的研究涵盖了不同学科的广泛应用和影响。从航空到声学再到医学,理解这些冲击波的行为使我们能够利用它们的力量来推动技术和医疗保健的创新和改善。随着我们对物理学知识的不断增长,与‘空气冲击波’相关的新发现的潜力仍然巨大,预示着未来令人兴奋的进展。
