Hertzian wave
简明释义
赫兹波
英英释义
A Hertzian wave is a type of electromagnetic wave that is generated by oscillating electric charges and is characterized by its ability to propagate through space. | 赫兹波是一种由振荡电荷产生的电磁波,其特征在于能够在空间中传播。 |
例句
1.The scientist explained how Hertzian wave 赫兹波 propagation is essential for wireless communication.
科学家解释了如何传播Hertzian wave 赫兹波 对无线通信至关重要。
2.The Hertzian wave 赫兹波 can travel through various media, including air and vacuum.
Hertzian wave 赫兹波 可以穿过空气和真空等多种介质。
3.Understanding Hertzian wave 赫兹波 behavior is crucial for designing effective antennas.
了解Hertzian wave 赫兹波 的行为对于设计有效的天线至关重要。
4.Engineers use Hertzian wave 赫兹波 technology to improve the efficiency of radio transmission.
工程师们利用Hertzian wave 赫兹波 技术来提高无线电传输的效率。
5.In the laboratory, researchers measured the frequency of the Hertzian wave 赫兹波 generated by the antenna.
在实验室里,研究人员测量了天线产生的Hertzian wave 赫兹波 的频率。
作文
The concept of Hertzian wave refers to electromagnetic waves that are produced by oscillating electric charges. Named after the German physicist Heinrich Hertz, who first experimentally verified their existence in the late 19th century, these waves are fundamental to the field of electromagnetism and have paved the way for modern wireless communication technologies. Hertzian wave can be described as radio waves, which travel through space and can carry information over vast distances without the need for physical connections. This property makes them invaluable for various applications, including radio broadcasting, television transmission, and mobile communications.Understanding Hertzian wave is crucial in today's technology-driven world. The ability to transmit information wirelessly has revolutionized how we communicate, access information, and interact with each other. For instance, when you make a phone call or stream a video online, you are utilizing the principles of Hertzian wave propagation. These waves can travel through different mediums, including air, vacuum, and even some materials, allowing for versatile applications.The study of Hertzian wave has also led to significant advancements in various fields, including medicine, navigation, and meteorology. In medical imaging, for example, techniques like MRI (Magnetic Resonance Imaging) rely on electromagnetic waves to create detailed images of the inside of the human body. Similarly, in navigation systems, Hertzian wave technology is used in GPS (Global Positioning System) devices to provide accurate location data.Moreover, the understanding of Hertzian wave has implications for environmental monitoring and scientific research. Scientists utilize these waves to study atmospheric conditions and monitor changes in climate patterns. By analyzing how Hertzian wave interacts with various elements in the atmosphere, researchers can gain insights into weather phenomena and improve predictive models.As technology continues to evolve, the relevance of Hertzian wave remains paramount. With the advent of the Internet of Things (IoT), where everyday objects are interconnected and communicate wirelessly, the demand for efficient Hertzian wave transmission is greater than ever. Innovations in this area are focused on enhancing signal quality, increasing bandwidth, and reducing interference, which are essential for seamless connectivity.In conclusion, the term Hertzian wave encapsulates a critical aspect of electromagnetic theory that underpins many of the technologies we rely on today. From facilitating communication to enabling advanced scientific research, the impact of Hertzian wave is profound and far-reaching. As we continue to explore the potential of electromagnetic waves, it is clear that our understanding of Hertzian wave will play a pivotal role in shaping the future of technology and innovation.
“赫兹波”这个概念指的是由振荡电荷产生的电磁波。它以德国物理学家海因里希·赫兹的名字命名,他在19世纪末首次实验性地验证了它们的存在。这些波是电磁学领域的基础,为现代无线通信技术铺平了道路。“赫兹波”可以被描述为无线电波,它们通过空间传播,可以在不需要物理连接的情况下携带信息。这一特性使它们在各种应用中变得无价,包括广播、电视传输和移动通信。在当今技术驱动的世界中,理解“赫兹波”至关重要。无线传输信息的能力彻底改变了我们沟通、获取信息和相互互动的方式。例如,当你打电话或在线流媒体视频时,你正在利用“赫兹波”传播的原理。这些波可以穿过不同的介质,包括空气、真空,甚至一些材料,从而允许多种应用。对“赫兹波”的研究也在医学、导航和气象等多个领域取得了重大进展。例如,在医学成像中,MRI(磁共振成像)等技术依赖于电磁波创建人体内部的详细图像。类似地,在导航系统中,“赫兹波”技术被用于GPS(全球定位系统)设备,以提供准确的位置数据。此外,对“赫兹波”的理解对环境监测和科学研究也有影响。科学家利用这些波研究大气条件并监测气候模式的变化。通过分析“赫兹波”如何与大气中的各种元素相互作用,研究人员可以深入了解天气现象并改善预测模型。随着技术的不断发展,“赫兹波”的相关性仍然至关重要。随着物联网(IoT)的出现,日常物品互联互通并无线通信,对高效“赫兹波”传输的需求比以往任何时候都要大。在这一领域的创新集中于增强信号质量、增加带宽和减少干扰,这对于无缝连接至关重要。总之,术语“赫兹波”概括了电磁理论的一个关键方面,这一方面支撑着我们今天所依赖的许多技术。从促进通信到支持先进的科学研究,“赫兹波”的影响深远且广泛。随着我们继续探索电磁波的潜力,很明显,我们对“赫兹波”的理解将在塑造技术和创新的未来中发挥关键作用。
