submarine sound receiver

简明释义

水下听声器

英英释义

例句

1.In oceanographic studies, a submarine sound receiver helps researchers understand sound propagation underwater.

在海洋学研究中，潜艇声波接收器帮助研究人员理解水下声音传播。

2.Using a submarine sound receiver, scientists can detect the sounds made by underwater volcanoes.

科学家可以使用潜艇声波接收器来探测水下火山发出的声音。

3.The military relies on a submarine sound receiver for tracking enemy submarines.

军方依赖于潜艇声波接收器来追踪敌方潜艇。

4.The research team deployed a submarine sound receiver to monitor marine life in the area.

研究小组部署了一个潜艇声波接收器来监测该地区的海洋生物。

5.The submarine sound receiver was crucial in locating shipwrecks in deep waters.

这个潜艇声波接收器在定位深水中的沉船时至关重要。

作文

In recent years, the study of underwater acoustics has gained significant attention, particularly in the context of marine biology and naval operations. One of the key instruments used in this field is the submarine sound receiver, which plays a crucial role in detecting and analyzing sounds underwater. Understanding how this device works and its applications can provide valuable insights into both ecological monitoring and military strategies.The submarine sound receiver is designed to capture sound waves that travel through water. Water is an excellent medium for sound transmission; it allows sounds to travel much farther than they would in air. This property makes the submarine sound receiver an essential tool for researchers studying marine life. For example, scientists can use these devices to monitor the vocalizations of whales and dolphins, which are vital for their communication and social interactions. By analyzing these sounds, researchers can gather data on the health of marine populations and their habitats.In addition to its applications in marine biology, the submarine sound receiver is also critical in naval operations. Navies around the world utilize this technology for submarine warfare and anti-submarine warfare tactics. The ability to detect enemy submarines or underwater threats relies heavily on the effectiveness of the submarine sound receiver. These devices can pick up the faintest sounds produced by submarines, such as engine noise or propeller cavitation, allowing naval forces to track and respond to potential threats.Moreover, the technology behind the submarine sound receiver has evolved significantly over the years. Modern receivers use advanced algorithms and signal processing techniques to filter out background noise and enhance the clarity of the sounds being captured. This advancement enables researchers and military personnel to obtain more accurate data and make informed decisions based on the information gathered.The environmental implications of using a submarine sound receiver are also noteworthy. While these devices are invaluable for research and defense, they can have unintended consequences on marine ecosystems. For instance, the sounds generated by the receivers themselves, along with other human-made noises, can disrupt the natural behaviors of marine animals. This disruption raises concerns about the long-term effects of underwater noise pollution on marine life, prompting calls for more sustainable practices in both research and military operations.In conclusion, the submarine sound receiver is a vital instrument that bridges the gap between marine biology and naval defense. Its ability to capture and analyze underwater sounds opens up new avenues for understanding marine ecosystems and enhancing national security. However, as we continue to rely on this technology, it is essential to consider its environmental impact and strive for a balance that protects marine life while ensuring safety and security in our oceans. The future of underwater acoustics will undoubtedly depend on how well we can integrate these considerations into our practices, making the submarine sound receiver not just a tool for detection, but also a means of fostering a deeper respect for the ocean's delicate balance.

近年来，水下声学研究引起了广泛关注，特别是在海洋生物学和海军作战的背景下。该领域的关键仪器之一是潜艇声接收器，它在探测和分析水下声音方面发挥着至关重要的作用。理解这个设备的工作原理及其应用可以为生态监测和军事战略提供宝贵的见解。潜艇声接收器旨在捕捉穿过水体传播的声波。水是声音传播的优良介质；它使声音比在空气中传播得更远。这一特性使得潜艇声接收器成为研究海洋生物的重要工具。例如，科学家可以利用这些设备监测鲸鱼和海豚的叫声，这对它们的交流和社会互动至关重要。通过分析这些声音，研究人员可以收集有关海洋种群及其栖息地健康的数据。除了在海洋生物学中的应用外，潜艇声接收器在海军行动中也至关重要。世界各国的海军利用这一技术进行潜艇作战和反潜作战战术。探测敌方潜艇或水下威胁的能力在很大程度上依赖于潜艇声接收器的有效性。这些设备能够捕捉潜艇产生的微弱声音，例如发动机噪音或螺旋桨气蚀声，使海军力量能够跟踪并应对潜在威胁。此外，潜艇声接收器背后的技术近年来也有了显著发展。现代接收器使用先进的算法和信号处理技术来过滤背景噪声，并增强所捕获声音的清晰度。这一进步使研究人员和军事人员能够获得更准确的数据，并根据收集的信息做出明智的决策。使用潜艇声接收器的环境影响也值得注意。虽然这些设备对研究和国防至关重要，但它们可能对海洋生态系统产生意想不到的后果。例如，接收器本身产生的声音以及其他人为噪声可能会干扰海洋动物的自然行为。这种干扰引发了对水下噪声污染对海洋生物长期影响的担忧，促使人们呼吁在研究和军事行动中采取更可持续的做法。总之，潜艇声接收器是一种重要的仪器，架起了海洋生物学与海军防御之间的桥梁。它捕捉和分析水下声音的能力为理解海洋生态系统和增强国家安全开辟了新的途径。然而，随着我们继续依赖这一技术，考虑其环境影响并努力实现保护海洋生命与确保我们海洋安全之间的平衡至关重要。水下声学的未来无疑将取决于我们能多好地将这些考虑融入我们的实践，使潜艇声接收器不仅仅是探测工具，而是促进对海洋脆弱平衡更深刻尊重的手段。