wave range

简明释义

波段

英英释义

例句

1.In telecommunications, understanding the wave range is crucial for optimizing signal quality.

在电信中，理解波段范围对优化信号质量至关重要。

2.The satellite can capture images across a wide wave range, enhancing its observational capabilities.

该卫星可以在广泛的波段范围内捕捉图像，从而增强其观测能力。

3.The new radar system can detect objects within a specific wave range.

新的雷达系统可以在特定的波段范围内探测物体。

4.The marine biologist studied how fish respond to changes in wave range.

海洋生物学家研究了鱼类如何对波段范围的变化做出反应。

5.Different materials absorb sound differently within the wave range of 20 Hz to 20 kHz.

不同材料在20 Hz到20 kHz的波段范围内吸收声音的方式不同。

作文

Understanding the concept of wave range is crucial in various fields, particularly in physics and engineering. The term wave range refers to the spectrum of wavelengths or frequencies that a particular wave can exhibit. This concept is not only fundamental in the study of sound waves but also plays a significant role in understanding electromagnetic waves, such as light. In acoustics, for instance, the wave range determines the pitches we hear. Different instruments produce sound waves of varying frequencies, which fall within specific wave ranges. For example, a piano has a wide wave range, allowing it to produce deep bass notes and high treble sounds. The human ear can typically hear frequencies from about 20 Hz to 20,000 Hz, which defines the wave range we perceive as sound. Understanding this range helps musicians and audio engineers create harmonious compositions and ensure that sounds blend well together.Similarly, in the field of optics, the wave range of visible light is a small portion of the entire electromagnetic spectrum. The visible light spectrum ranges from approximately 400 nm (nanometers) to 700 nm, encompassing all the colors that the human eye can see. Beyond this wave range, there are ultraviolet and infrared waves, which have applications in various technologies, including medical imaging and telecommunications. By studying the wave range of light, scientists and engineers can develop better lenses, cameras, and other optical devices that enhance our ability to capture and manipulate images.Moreover, the wave range is also relevant in the realm of radio waves, where different frequencies are used for communication. Each radio station broadcasts at a specific frequency, which corresponds to a particular wave range. Understanding the wave range of these frequencies allows engineers to design antennas and receivers that can effectively transmit and receive signals. This knowledge is vital for ensuring clear communication in various industries, from broadcasting to aviation.In summary, the concept of wave range is integral to our understanding of waves in multiple contexts. Whether it is in music, light, or radio communication, the wave range helps define how we interact with and utilize different types of waves. By grasping the significance of wave range, we can appreciate the complexity and beauty of the natural world, as well as the technological advancements that stem from this understanding. As we continue to explore the properties of waves, the importance of wave range will undoubtedly remain a key focus in both scientific research and practical applications.

理解wave range的概念在多个领域中至关重要，特别是在物理和工程学中。术语wave range指的是特定波可以表现出的波长或频率的光谱。这个概念不仅在声波的研究中是基础，同时在理解电磁波（如光）方面也发挥着重要作用。例如，在声学中，wave range决定了我们听到的音调。不同的乐器产生不同频率的声波，这些声波落在特定的wave ranges内。例如，钢琴具有广泛的wave range，使其能够产生深沉的低音和高亢的高音。人耳通常可以听到从约20 Hz到20,000 Hz的频率，这定义了我们感知为声音的wave range。理解这个范围有助于音乐家和音频工程师创作和谐的作品，并确保声音很好地融合在一起。同样，在光学领域，可见光的wave range是整个电磁波谱的一小部分。可见光谱范围大约从400 nm（纳米）到700 nm，涵盖了人眼可以看到的所有颜色。在这个wave range之外，还有紫外线和红外线，这在医疗成像和电信等各种技术中有应用。通过研究光的wave range，科学家和工程师可以开发出更好的镜头、相机和其他光学设备，从而增强我们捕捉和操控图像的能力。此外，wave range在无线电波领域也很相关，不同的频率用于通信。每个广播电台以特定的频率广播，这与特定的wave range相对应。理解这些频率的wave range使工程师能够设计有效传输和接收信号的天线和接收器。这一知识对于确保在各行各业（从广播到航空）中的清晰通信至关重要。总之，wave range的概念是我们理解多种背景下波的重要组成部分。无论是在音乐、光还是无线电通信中，wave range帮助定义了我们如何与不同类型的波互动和利用它们。通过掌握wave range的重要性，我们可以欣赏自然界的复杂性和美丽，以及源于这种理解的技术进步。随着我们继续探索波的性质，wave range的重要性无疑将继续成为科学研究和实际应用的关键焦点。