deep sea propagation

简明释义

深海传播

英英释义

例句

1.Scientists are measuring the deep sea propagation 深海传播 of seismic waves after an earthquake.

科学家们在地震后测量深海传播 深海传播的地震波。

2.Researchers are studying the effects of temperature on deep sea propagation 深海传播 of sound waves.

研究人员正在研究温度对声音波的深海传播 深海传播的影响。

3.Understanding deep sea propagation 深海传播 is crucial for improving sonar technology.

理解深海传播 深海传播对提高声纳技术至关重要。

4.The research team published a paper on the mechanisms of deep sea propagation 深海传播 in oceanic trenches.

研究小组发表了一篇关于海洋沟壑中深海传播 深海传播机制的论文。

5.The military relies on deep sea propagation 深海传播 for submarine communication.

军方依赖于深海传播 深海传播进行潜艇通信。

作文

The ocean is a vast and mysterious place, covering more than 70% of the Earth's surface. Among its many secrets lies the phenomenon of deep sea propagation, which refers to the transmission of sound waves in the deep layers of the ocean. This process plays a crucial role in various fields such as marine biology, oceanography, and even naval operations. Understanding how deep sea propagation works can lead to significant advancements in our comprehension of underwater ecosystems and communication methods. Sound travels differently in water compared to air due to the density and pressure variations found at different depths. In the deep sea, sound waves can travel thousands of kilometers, bending around obstacles and reflecting off the ocean floor. This characteristic makes deep sea propagation an essential tool for scientists studying marine life and the environment. For instance, researchers use sonar technology, which relies on the principles of deep sea propagation, to map the seafloor and monitor fish populations. Moreover, deep sea propagation is vital for understanding climate change and its impact on ocean currents. Scientists can track changes in temperature and salinity by analyzing how sound waves travel through the water. This information helps predict shifts in weather patterns and the health of marine ecosystems. As we face increasing environmental challenges, the study of deep sea propagation becomes even more critical. In addition to its scientific applications, deep sea propagation also has military significance. Navies around the world utilize this phenomenon for submarine communication and detection. Because sound can travel long distances underwater, submarines can send and receive messages without surfacing, maintaining stealth and security. Understanding the intricacies of deep sea propagation allows naval forces to enhance their operational capabilities and ensure national security. Furthermore, the implications of deep sea propagation extend to the realm of climate monitoring. By deploying underwater acoustic sensors, scientists can gather data on ocean temperatures and currents, contributing to a better understanding of global warming. The ability of sound waves to penetrate deep waters provides a unique advantage in studying areas that are otherwise difficult to access. This research is essential for predicting future climate scenarios and developing strategies for mitigation. In conclusion, deep sea propagation is a fascinating and complex phenomenon that influences many aspects of our understanding of the ocean. From marine biology to climate science and military applications, the study of sound wave transmission in deep waters offers invaluable insights. As we continue to explore the mysteries of the ocean, the importance of deep sea propagation will only grow, highlighting the need for ongoing research and innovation in this field. Our oceans hold the key to many of the answers we seek about our planet, and understanding deep sea propagation is a crucial step in unlocking those mysteries.

海洋是一个广阔而神秘的地方，覆盖了地球表面超过70%的面积。在它众多的秘密中，有一个现象叫做深海传播，指的是声波在海洋深层的传播。这一过程在海洋生物学、海洋学甚至海军作战等多个领域中发挥着至关重要的作用。理解深海传播的工作原理能够为我们对水下生态系统和通讯方式的理解带来重大进展。声波在水中的传播与在空气中的传播有所不同，这主要是由于不同深度的密度和压力变化。在深海中，声波可以传播数千公里，绕过障碍物并从海底反射。这一特性使得深海传播成为科学家研究海洋生物和环境的重要工具。例如，研究人员利用声纳技术，这依赖于深海传播的原理，来绘制海底地图和监测鱼类种群。此外，深海传播对于理解气候变化及其对海洋洋流的影响至关重要。科学家通过分析声波在水中的传播方式，可以追踪温度和盐度的变化。这些信息有助于预测天气模式的变化以及海洋生态系统的健康。随着我们面临日益严峻的环境挑战，深海传播的研究变得更加关键。除了科学应用外，深海传播在军事上也具有重要意义。世界各国的海军利用这一现象进行潜艇通讯和探测。由于声波可以在水下长距离传播，潜艇可以在不浮出水面的情况下发送和接收消息，从而保持隐蔽和安全。理解深海传播的复杂性使得海军力量能够增强其作战能力，确保国家安全。此外，深海传播的影响还扩展到气候监测领域。通过部署水下声学传感器，科学家可以收集海洋温度和洋流的数据，从而更好地理解全球变暖。声波穿透深水的能力为研究那些否则难以进入的区域提供了独特的优势。这项研究对于预测未来的气候情景和制定减缓策略至关重要。总之，深海传播是一个迷人而复杂的现象，影响着我们对海洋理解的许多方面。从海洋生物学到气候科学，再到军事应用，声波在深水中的传播研究提供了宝贵的见解。随着我们继续探索海洋的奥秘，深海传播的重要性只会增加，突显出在这一领域不断进行研究和创新的必要性。我们的海洋蕴藏着许多关于我们星球的答案，而理解深海传播是揭开这些奥秘的关键一步。