kilometric waves

简明释义

千米波

英英释义

例句

1.Researchers are using satellite imagery to track kilometric waves 千米波浪 in the open ocean.

研究人员正在使用卫星图像跟踪开放海洋中的千米波浪 kilometric waves。

2.During the storm, we observed how kilometric waves 千米波浪 could drastically change the shoreline.

在暴风雨期间，我们观察到千米波浪 kilometric waves如何剧烈改变海岸线。

3.Understanding kilometric waves 千米波浪 is crucial for predicting weather patterns and potential flooding.

理解千米波浪 kilometric waves对于预测天气模式和潜在洪水至关重要。

4.The oceanographer studied the patterns of kilometric waves 千米波浪 to understand their impact on coastal erosion.

海洋学家研究了千米波浪 kilometric waves的模式，以了解它们对海岸侵蚀的影响。

5.The energy produced by kilometric waves 千米波浪 can be harnessed for renewable power.

产生的千米波浪 kilometric waves能量可以被用于可再生能源。

作文

In the vast realm of physics and wave theory, the term kilometric waves refers to waves that have a wavelength on the order of kilometers. These types of waves are significant in various fields including radio communications, oceanography, and even in understanding natural phenomena such as tsunamis. The study of kilometric waves provides insight into how energy is transmitted over long distances, making it an essential topic for both scientists and engineers alike.To understand kilometric waves, it is important to first grasp the concept of wavelength. Wavelength is the distance between successive crests of a wave, and in the case of kilometric waves, this distance is measured in kilometers. This characteristic allows these waves to propagate through different mediums, whether it be air, water, or even solid materials. For example, in oceanography, kilometric waves can be observed as large swells in the ocean that travel across vast distances before breaking on shore.One of the most fascinating aspects of kilometric waves is their application in radio communications. Longwave radio signals, which can be transmitted over thousands of kilometers, utilize these long wavelengths to ensure that the signals can bend around obstacles and follow the curvature of the Earth. This property makes kilometric waves particularly valuable for broadcasting over long distances, especially in remote areas where traditional communication methods may fail.Moreover, kilometric waves play a crucial role in understanding natural disasters. For instance, when a tsunami occurs, it generates kilometric waves that travel across the ocean at incredible speeds. Scientists monitor these waves to predict their impact on coastal regions, allowing for timely evacuations and safety measures. The ability to analyze the behavior of kilometric waves in such scenarios is vital for disaster preparedness and response.In addition to their practical applications, kilometric waves also present intriguing theoretical challenges. Researchers continue to explore the properties and behaviors of these waves, seeking to understand how they interact with other waves and the environments they traverse. This ongoing research contributes to advancements in technology and science, offering potential solutions to complex problems.In conclusion, kilometric waves represent a fascinating area of study within the field of wave theory. Their significance spans multiple disciplines, from enhancing communication systems to improving our understanding of natural disasters. As we continue to explore the properties and applications of kilometric waves, we unlock new possibilities for innovation and safety in our increasingly interconnected world. The study of kilometric waves not only enriches our knowledge of physics but also equips us with the tools necessary to navigate the challenges posed by nature and technology alike.

在物理学和波动理论的广阔领域中，术语千米波是指波长在千米级别的波。这种类型的波在包括无线电通信、海洋学，甚至理解自然现象如海啸等多个领域中具有重要意义。对千米波的研究提供了关于能量如何在长距离上传输的见解，使其成为科学家和工程师都必不可少的主题。要理解千米波，首先需要掌握波长的概念。波长是波的连续波峰之间的距离，而在千米波的情况下，这个距离是以千米为单位来测量的。这一特性使这些波能够通过不同的介质传播，无论是空气、水还是固体材料。例如，在海洋学中，可以观察到千米波作为海洋中的大涌浪，它们在破碎上岸之前穿越广阔的距离。千米波最引人注目的方面之一是它们在无线电通信中的应用。长波无线电信号可以传输数千公里，利用这些长波长确保信号能够绕过障碍物并跟随地球的曲率。这一特性使得千米波在偏远地区的广播中尤其有价值，因为传统的通信方法可能会失效。此外，千米波在理解自然灾害方面也发挥着至关重要的作用。例如，当海啸发生时，它会生成千米波，这些波以惊人的速度穿越海洋。科学家监测这些波以预测它们对沿海地区的影响，从而允许及时撤离和安全措施。分析千米波在这种情况下的行为的能力对于灾难准备和响应至关重要。除了它们的实际应用外，千米波还提出了有趣的理论挑战。研究人员继续探索这些波的特性和行为，寻求理解它们如何与其他波及其经过的环境相互作用。这项持续的研究有助于技术和科学的进步，为复杂问题提供潜在解决方案。总之，千米波代表了波动理论领域内一个引人入胜的研究领域。它们的重要性跨越多个学科，从增强通信系统到改善我们对自然灾害的理解。随着我们继续探索千米波的特性和应用，我们为在日益相互关联的世界中应对创新和安全的挑战打开了新的可能性。对千米波的研究不仅丰富了我们对物理学的知识，还为我们提供了应对自然和技术所带来的挑战所需的工具。