kilometric wave
简明释义
波长为1000~10000米的无线电波
英英释义
A kilometric wave refers to a type of electromagnetic wave with a wavelength on the order of kilometers, typically found in the radio frequency spectrum. | 千米波是指一种电磁波,其波长在千米级别,通常出现在无线电频谱中。 |
例句
1.Understanding the behavior of a kilometric wave 千米波 is crucial for predicting coastal erosion.
理解
2.Engineers designed a new buoy that can withstand the force of a kilometric wave 千米波 during extreme weather events.
工程师们设计了一种新的浮标,可以承受极端天气事件中
3.The researchers measured the kilometric wave 千米波 propagation in the ocean to study its effects on marine life.
研究人员测量了海洋中
4.During the storm, we observed a kilometric wave 千米波 forming off the coast, which indicated severe weather conditions.
在暴风雨期间,我们观察到海岸附近形成了
5.The data collected from the sensor showed unusual patterns in the kilometric wave 千米波 activity last summer.
从传感器收集的数据表明去年夏天
作文
In the realm of physics and wave dynamics, the term kilometric wave refers to a type of wave that has a wavelength measuring in kilometers. This concept is significant, especially when discussing various natural phenomena such as ocean waves, seismic waves, and even electromagnetic waves in certain contexts. Understanding the properties and implications of kilometric waves can deepen our appreciation for the complexities of the universe.To illustrate the importance of kilometric waves, let’s consider ocean waves. These waves are primarily generated by wind blowing across the surface of the sea. Depending on the strength of the wind and the distance it travels over the water, ocean waves can vary greatly in size. Some of these waves can stretch over several kilometers, making them a prime example of kilometric waves. The energy carried by these waves is immense, and they play a crucial role in coastal erosion, marine navigation, and even climate regulation.Another fascinating example of kilometric waves can be found in the study of seismic activity. Earthquakes generate seismic waves that travel through the Earth’s crust. These waves can have wavelengths that extend into the kilometers, depending on the magnitude of the earthquake and the geological conditions. By studying these kilometric waves, scientists can gain valuable insights into the structure of the Earth and the dynamics of tectonic plates. This understanding is vital for predicting earthquakes and mitigating their impacts on human populations.Moreover, in the field of telecommunications, kilometric waves also play a significant role, particularly in the context of radio waves. Radio waves can have wavelengths that span from a few millimeters to several kilometers. The ability to transmit information over long distances using kilometric waves has revolutionized communication technology. For instance, AM radio stations often operate at frequencies that correspond to kilometric wave lengths, allowing them to broadcast signals over vast areas, reaching listeners far and wide.The study of kilometric waves is not only relevant in theoretical physics but also has practical applications in various fields. Engineers and scientists utilize the principles behind these waves to design better structures that can withstand the forces of nature, such as tsunamis and earthquakes. Additionally, advancements in technology enable us to harness the power of kilometric waves for renewable energy sources, such as wave energy converters that capture the energy from ocean waves.In conclusion, the concept of kilometric waves is multifaceted and deeply intertwined with various aspects of our lives. From the natural world to technological innovations, understanding these waves enhances our knowledge and capability to interact with our environment. As we continue to explore the mysteries of physics, the significance of kilometric waves will undoubtedly grow, leading to new discoveries and applications that can benefit humanity as a whole.
在物理学和波动力学的领域中,术语千米波指的是一种波,其波长以公里为单位。这一概念尤其重要,特别是在讨论各种自然现象时,例如海洋波浪、地震波,甚至在某些情况下的电磁波。理解千米波的特性及其影响,可以加深我们对宇宙复杂性的欣赏。为了说明千米波的重要性,让我们考虑海洋波浪。这些波浪主要是由风吹过海面产生的。根据风的强度和它在水面上移动的距离,海洋波浪的大小可以大相径庭。其中一些波浪可以延伸数公里,这使它们成为千米波的典型例子。这些波浪携带的能量巨大,并在海岸侵蚀、海洋导航,甚至气候调节中发挥着至关重要的作用。另一个引人入胜的千米波例子可以在地震活动的研究中找到。地震会产生穿过地壳的地震波。这些波浪的波长可能延伸到公里级别,具体取决于地震的规模和地质条件。通过研究这些千米波,科学家可以获得关于地球结构和构造板块动态的宝贵见解。这种理解对于预测地震和减轻其对人类影响至关重要。此外,在电信领域,千米波也发挥着重要作用,特别是在无线电波的上下文中。无线电波的波长可以从几毫米到几公里不等。利用千米波进行远距离信息传输的能力彻底改变了通信技术。例如,AM广播电台通常在与千米波长度对应的频率下运行,使它们能够在广阔的区域内广播信号,覆盖远处的听众。千米波的研究不仅在理论物理中相关,而且在各个领域具有实际应用。工程师和科学家利用这些波背后的原理来设计更好的结构,以抵御自然力量的影响,例如海啸和地震。此外,技术的进步使我们能够利用千米波的力量用于可再生能源,例如捕捉海洋波浪能量的波能转换器。总之,千米波的概念是多方面的,与我们生活的各个方面密切相关。从自然界到技术创新,理解这些波增强了我们与环境互动的知识和能力。随着我们继续探索物理学的奥秘,千米波的重要性无疑将不断增长,导致新的发现和应用,这些发现和应用可以惠及整人类。
