hectometric wave
简明释义
百米波(约100~1
英英释义
例句
1.During the conference, experts discussed the applications of hectometric waves in navigation systems.
在会议上,专家们讨论了百米波在导航系统中的应用。
2.In telecommunications, understanding the behavior of the hectometric wave is crucial for signal transmission.
在电信领域,理解百米波的行为对信号传输至关重要。
3.Engineers used simulations to analyze how hectometric waves interact with various materials.
工程师们使用模拟分析百米波与各种材料的相互作用。
4.The researchers measured the impact of the hectometric wave on marine life during their expedition.
研究人员在考察期间测量了百米波对海洋生物的影响。
5.The radar system was designed to detect hectometric waves for weather forecasting.
该雷达系统旨在检测百米波以进行天气预报。
作文
In the vast realm of electromagnetic waves, there exists a category known as the hectometric wave. These waves are characterized by their wavelengths ranging from 100 meters to 1,000 meters, which places them in the lower frequency range of radio waves. Understanding hectometric waves is essential for various applications, particularly in the fields of communication and navigation. To comprehend the significance of hectometric waves, one must first consider their role in the electromagnetic spectrum. The spectrum itself is a continuum of all electromagnetic waves arranged by frequency or wavelength. As we delve deeper into this spectrum, we can observe that hectometric waves occupy a unique position, bridging the gap between longwave and medium wave frequencies.One of the primary uses of hectometric waves is in maritime communication. Ships at sea rely on these waves for long-distance communication, especially when they are beyond the reach of traditional radio signals. The ability of hectometric waves to travel over long distances with minimal interference makes them invaluable for ensuring safety and coordination among vessels navigating through busy shipping lanes.Moreover, hectometric waves are also employed in scientific research. For instance, researchers utilize these waves to study the ionosphere, a region of the Earth's atmosphere that affects radio wave propagation. By analyzing how hectometric waves interact with the ionosphere, scientists can gain insights into atmospheric conditions and improve communication technologies.In addition to communication and research, hectometric waves play a crucial role in amateur radio. Enthusiasts who engage in ham radio often experiment with different frequencies, including those in the hectometric range. This experimentation not only enhances their understanding of radio technology but also fosters a sense of community among operators who share their findings and experiences.Despite their many advantages, hectometric waves are not without challenges. One significant issue is the potential for interference from other radio signals. Since these waves can travel long distances, they may overlap with frequencies used by other services, leading to disruptions in communication. To mitigate this, regulatory bodies establish guidelines and allocate specific frequencies for different uses, ensuring that hectometric waves can be utilized effectively without causing interference.In conclusion, the study of hectometric waves offers valuable insights into the world of electromagnetic communication. Their unique properties enable long-distance transmission, making them indispensable in maritime communication, scientific research, and amateur radio activities. As technology continues to advance, the importance of understanding and utilizing hectometric waves will only grow, paving the way for new innovations in communication and navigation systems. Therefore, it is crucial for both professionals and enthusiasts alike to appreciate the significance of these waves in our increasingly interconnected world.
在电磁波的广阔领域中,存在一种被称为百米波的波。这些波的特征是其波长范围从100米到1000米,这将它们置于无线电波的低频范围内。理解百米波对于各种应用至关重要,尤其是在通信和导航领域。要理解百米波的重要性,首先必须考虑它们在电磁谱中的角色。电磁谱本身是所有电磁波按频率或波长排列的连续体。当我们深入这个谱系时,可以观察到百米波占据了一个独特的位置,架起了长波与中波频率之间的桥梁。百米波的主要用途之一是在海上通信。海上的船只依赖这些波进行远距离通信,特别是在超出传统无线电信号覆盖范围时。百米波能够以最小干扰传播长距离,使其在确保船只在繁忙航道中航行的安全和协调方面变得不可或缺。此外,百米波也被用于科学研究。例如,研究人员利用这些波来研究电离层,这是影响无线电波传播的地球大气层的一部分。通过分析百米波与电离层的相互作用,科学家可以深入了解大气条件并改善通信技术。除了通信和研究,百米波在业余无线电中也扮演着关键角色。参与业余无线电的爱好者经常实验不同的频率,包括那些在百米范围内的频率。这种实验不仅增强了他们对无线电技术的理解,还促进了操作员之间共享发现和经验的社区感。尽管有许多优点,但百米波也面临挑战。一个重大问题是来自其他无线电信号的干扰潜力。由于这些波可以传播很长距离,它们可能与其他服务使用的频率重叠,导致通信中断。为了减轻这一问题,监管机构制定指南并为不同用途分配特定频率,确保百米波能够有效利用而不造成干扰。总之,研究百米波为电磁通信的世界提供了宝贵的见解。它们独特的特性使得长距离传输成为可能,使其在海上通信、科学研究和业余无线电活动中不可或缺。随着技术的不断进步,理解和利用百米波的重要性只会增加,为通信和导航系统的新创新铺平道路。因此,无论是专业人士还是爱好者,都必须认识到这些波在我们日益互联的世界中的重要性。
