sound ranging

简明释义

声波测距声测距

英英释义

例句

1.Using sound ranging, scientists can monitor seismic activity in real-time.

科学家可以实时监控地震活动，使用声测。

2.The technology of sound ranging has improved significantly over the last decade.

过去十年中，声测技术有了显著的提升。

3.The sonar system relies on sound ranging to locate submarines.

声纳系统依赖于声测来定位潜艇。

4.In underwater exploration, researchers employ sound ranging to map the ocean floor.

在水下探测中，研究人员使用声测来绘制海底地图。

5.The military uses sound ranging to detect enemy artillery positions.

军方利用声测来探测敌方炮兵位置。

作文

In the realm of scientific exploration and military applications, the term sound ranging refers to a technique used to determine the distance to a sound source by analyzing the time it takes for sound waves to travel from the source to a receiver. This method has significant implications in various fields, including underwater acoustics, artillery positioning, and even wildlife studies. Understanding sound ranging can provide insights into how we measure distances in environments where visual cues are limited or non-existent.One of the most notable applications of sound ranging is in underwater navigation and research. Marine biologists often utilize this technique to study the behavior of aquatic life. For instance, when tracking the movements of whales, researchers may deploy hydrophones—underwater microphones—that capture the sounds produced by these magnificent creatures. By analyzing the time delay between the sound emitted and the reception of that sound, scientists can calculate the distance to the whale and gain valuable information about its migration patterns and social interactions.In military contexts, sound ranging has historically played a crucial role in artillery targeting. During World War I and World War II, armies employed this technique to locate enemy artillery positions. By measuring the time it took for the sound of a cannon firing to reach a series of strategically placed microphones, military personnel could triangulate the position of the enemy guns. This allowed for more accurate counter-battery fire, significantly impacting the outcomes of battles. The precision offered by sound ranging was a game-changer in warfare, highlighting the importance of sound as a tactical element.Moreover, advancements in technology have enhanced the capabilities of sound ranging. Modern systems can now employ sophisticated algorithms and machine learning techniques to analyze sound data more efficiently. These developments have expanded the use of sound ranging beyond military applications to include environmental monitoring and disaster response. For example, in the aftermath of an earthquake, sound ranging can help locate survivors by detecting their voices or other sounds amidst the rubble, thereby facilitating rescue operations.Despite its many advantages, sound ranging does come with challenges. Factors such as temperature, salinity, and pressure can affect sound propagation in water, leading to potential inaccuracies in distance measurements. Similarly, in air, obstacles like buildings and terrain can interfere with sound waves, complicating the data collection process. Researchers continually work to refine the methods and technologies involved in sound ranging to mitigate these issues and improve accuracy.In conclusion, sound ranging is a versatile and powerful tool that has applications across various disciplines. Whether in the depths of the ocean or the chaos of battlefield strategy, understanding how to measure distances through sound opens up new possibilities for exploration, safety, and knowledge. As technology continues to evolve, the future of sound ranging promises even greater advancements, allowing us to unlock the mysteries of our world through the power of sound. Therefore, grasping the concept of sound ranging is essential for anyone interested in the intersections of science, technology, and the natural environment.

在科学探索和军事应用领域，术语声测距指的是一种通过分析声音波从源头传播到接收器所需的时间来确定声音源距离的技术。该方法在多个领域具有重要意义，包括水下声学、炮兵定位，甚至野生动物研究。理解声测距可以提供关于如何在视觉线索有限或不存在的环境中测量距离的见解。声测距最显著的应用之一是在水下导航和研究中。海洋生物学家经常利用这一技术来研究水生生物的行为。例如，在追踪鲸鱼的运动时，研究人员可能会部署水听器——水下麦克风——捕捉这些壮丽生物发出的声音。通过分析声音发出和接收到之间的时间延迟，科学家可以计算出与鲸鱼的距离，并获得关于其迁徙模式和社会互动的宝贵信息。在军事背景下，声测距在炮兵瞄准中历史上发挥了至关重要的作用。在第一次世界大战和第二次世界大战期间，各军队采用这一技术来定位敌方炮兵阵地。通过测量炮火声到达一系列战略性放置的麦克风所需的时间，军事人员能够三角测量敌方炮台的位置。这使得反炮火更加准确，对战斗结果产生了重大影响。声测距所提供的精确度在战争中是一个变革者，突显了声音作为战术元素的重要性。此外，技术的进步增强了声测距的能力。现代系统现在可以使用复杂的算法和机器学习技术更高效地分析声音数据。这些发展将声测距的应用范围扩大到包括环境监测和灾害响应。例如，在地震发生后，声测距可以通过检测幸存者的声音或其他声音来帮助定位他们，从而促进救援行动。尽管有许多优点，声测距也面临挑战。温度、盐度和压力等因素会影响水中的声音传播，从而导致距离测量的潜在不准确。同样，在空气中，建筑物和地形等障碍物可能会干扰声波，复杂化数据收集过程。研究人员不断努力改进与声测距相关的方法和技术，以减轻这些问题并提高准确性。总之，声测距是一种多功能且强大的工具，在各个学科中具有广泛的应用。无论是在海洋深处还是在战场策略的混乱中，理解如何通过声音测量距离为探索、安全和知识开辟了新的可能性。随着技术的不断发展，声测距的未来承诺带来更大的进步，使我们能够通过声音的力量揭开世界的奥秘。因此，掌握声测距的概念对任何对科学、技术和自然环境交叉点感兴趣的人来说都是至关重要的。