hydrophone

简明释义

英[ˈhaɪdrəˌfəʊn]美[ˈhaɪdrəˌfoʊn]

n. 水诊器；检漏器；水中听音器

英英释义

单词用法

同义词

反义词

例句

1.Pressure gradient hydrophone is one of the implementation forms of acoustic vector sensors while another form is the vibrating sphere.

压差水听器是水声矢量水听器的一种实现形式，同振球则是另一种实现形式。

2.Detailed design of the vector hydrophone is described and the experimentally measured sensitivity and directivity characteristics are given.

叙述了该矢量水听器的设计方法，给出了相应的灵敏度和指向性测试结果。

3.Martial researches in fiber grating hydrophone have also been developed.

在军事上亦开展了光纤光栅型水听器的研究。

4.The hydrophone records from the deep waters where they spend most of their time revealed them to be much more common.

水听器深水区的记录则表明，在深水区，抹香鲸确实更为常见——他们本就习惯在那儿呆着。

5.This paper describes a finite element method analysis of an acoustically transparent planar PVDF hydrophone.

本文介绍了一种透声面元PVDF水听器的有限元分析方法。

6.The cymbal hydrophone has small volume and high sensitivity, but its reception performance is not stable enough, with narrow receiving frequency band.

钹式水听器体积小，灵敏度高，但是接收的性能不够稳定，接收频带比较窄。

7.Fiber optic hydrophone unit was the basis of fiber optic hydrophone system.

光纤水听器探头是光纤水听器系统的基础。

8.The team installed a network of hydrophones to study the migration patterns of whales.

团队安装了一系列水听器来研究鲸鱼的迁徙模式。

9.The researchers deployed a hydrophone to capture the sounds of marine life in the ocean.

研究人员部署了一个水听器以捕捉海洋生物的声音。

10.During the experiment, the hydrophone recorded the sound of a passing ship.

在实验中，水听器录制到了经过船只的声音。

11.Using a hydrophone can help scientists monitor underwater earthquakes.

使用水听器可以帮助科学家监测水下地震。

12.A hydrophone is essential for detecting underwater explosions.

水听器对于探测水下爆炸至关重要。

作文

The ocean is a vast and mysterious place, home to countless species of marine life. To study these creatures and their behaviors, scientists employ various tools and technologies. One such device is the hydrophone, which is an underwater microphone designed to capture sounds in aquatic environments. The significance of the hydrophone cannot be overstated, as it plays a crucial role in marine research and conservation efforts.A hydrophone works by converting sound waves into electrical signals, allowing researchers to analyze the acoustic environment of the ocean. These devices can detect a wide range of sounds, from the calls of whales to the clicks of dolphins and even the noises produced by human activities like shipping and drilling. By studying these sounds, scientists can gain insights into the behavior, communication, and migration patterns of marine animals.One of the most fascinating applications of the hydrophone is in the study of whale communication. Whales are known for their complex vocalizations, which can travel long distances underwater. Researchers use hydrophones to record these sounds, enabling them to understand the social structures and mating behaviors of different whale species. For instance, the songs of humpback whales have been a subject of extensive study, revealing how these majestic creatures communicate and interact with one another.In addition to studying wildlife, hydrophones are also instrumental in monitoring ocean health. Noise pollution from ships, industrial activities, and other human-induced sources can have detrimental effects on marine life. By using hydrophones to measure sound levels in various regions, scientists can assess the impact of these activities on marine ecosystems. This information is vital for developing strategies to mitigate noise pollution and protect vulnerable species.Moreover, hydrophones are used in seismic studies to detect underwater earthquakes and monitor tectonic activity. By analyzing the sounds generated by seismic events, researchers can better understand the dynamics of the Earth's crust and improve early warning systems for tsunamis and other natural disasters. This application highlights the versatility of the hydrophone and its importance beyond just marine biology.The advancement of technology has further enhanced the capabilities of hydrophones. Modern devices are often equipped with advanced sensors and data logging systems, allowing for continuous monitoring over extended periods. This technological evolution has opened new avenues for research, enabling scientists to gather large amounts of data that were previously unattainable.In conclusion, the hydrophone is an invaluable tool in the field of marine science. Its ability to capture and analyze underwater sounds provides critical insights into the lives of marine organisms and the health of ocean ecosystems. As we continue to face challenges related to climate change and human impacts on the oceans, the role of the hydrophone will only become more significant. By investing in research and conservation efforts that utilize this technology, we can work towards a deeper understanding of our oceans and the preservation of their delicate balance.

海洋是一个广阔而神秘的地方，栖息着无数种类的海洋生物。为了研究这些生物及其行为，科学家们采用各种工具和技术。其中一种设备是水听器，它是一种专为捕捉水下环境声音而设计的水下麦克风。水听器的重要性不容小觑，因为它在海洋研究和保护工作中发挥着至关重要的作用。水听器通过将声波转换为电信号来工作，使研究人员能够分析海洋的声学环境。这些设备可以检测到各种声音，从鲸鱼的叫声到海豚的点击声，甚至是船舶和钻探等人类活动产生的噪音。通过研究这些声音，科学家们可以深入了解海洋动物的行为、交流和迁徙模式。水听器最引人入胜的应用之一是在鲸鱼交流研究中。鲸鱼以其复杂的发声而闻名，这些声音可以在水下传播很远。研究人员使用水听器记录这些声音，使他们能够理解不同鲸鱼物种的社会结构和交配行为。例如，座头鲸的歌声就是广泛研究的对象，揭示了这些雄伟生物如何相互交流和互动。除了研究野生动物，水听器在监测海洋健康方面也发挥着重要作用。来自船舶、工业活动和其他人类引起的噪音污染可能对海洋生物造成危害。通过使用水听器测量各个地区的噪音水平，科学家们可以评估这些活动对海洋生态系统的影响。这些信息对于制定减轻噪音污染和保护脆弱物种的策略至关重要。此外，水听器还用于地震研究，以检测水下地震并监测构造活动。通过分析地震事件产生的声音，研究人员可以更好地理解地球地壳的动态，并改善海啸和其他自然灾害的预警系统。这一应用突显了水听器的多功能性及其在海洋生物学之外的重要性。科技的进步进一步增强了水听器的能力。现代设备通常配备先进的传感器和数据记录系统，允许在较长时间内进行连续监测。这一技术演变为研究开辟了新的途径，使科学家能够收集大量之前无法获得的数据。总之，水听器是海洋科学领域中不可或缺的工具。它捕捉和分析水下声音的能力为我们提供了关于海洋生物生活和海洋生态系统健康的重要见解。随着我们继续面临气候变化和人类对海洋影响相关的挑战，水听器的作用只会变得更加重要。通过投资于利用这一技术的研究和保护工作，我们可以朝着更深入理解海洋及其脆弱平衡的方向努力。