acoustic tank

简明释义

声学试验水槽;

英英释义

例句

1.The design of the acoustic tank allows for precise measurements of sound waves.

这个声学水槽的设计可以精确测量声波。

2.We need to calibrate the instruments inside the acoustic tank before starting the tests.

我们需要在开始测试之前校准声学水槽内的仪器。

3.The marine biologists observed fish behavior in the acoustic tank during sound exposure.

海洋生物学家在声学水槽中观察鱼类在声音暴露下的行为。

4.Using an acoustic tank helps in studying underwater acoustics effectively.

使用声学水槽有助于有效研究水下声学。

5.The researchers conducted their experiments in an acoustic tank to eliminate external noise.

研究人员在一个声学水槽中进行实验，以消除外部噪音。

作文

The concept of an acoustic tank has become increasingly important in the fields of acoustics and underwater sound research. An acoustic tank is essentially a large, controlled environment designed to study sound waves in water. These tanks are typically filled with water and are used for a variety of experiments, including the testing of underwater communication systems, sonar technology, and the effects of sound on marine life. The design of an acoustic tank allows researchers to manipulate variables such as temperature, salinity, and pressure to simulate different underwater conditions.One of the primary uses of an acoustic tank is in the field of marine biology. Scientists can observe how different species respond to various sound frequencies, which is crucial for understanding their behavior and communication. For instance, some fish use sound to attract mates or warn others of predators. By studying these interactions in an acoustic tank, researchers can gain insights into the ecological impacts of noise pollution and how it affects marine ecosystems.In addition to biological studies, acoustic tanks are also vital in engineering applications. Engineers utilize these tanks to test and develop sonar systems that are used in submarines and other naval vessels. By creating realistic underwater environments, they can assess how well these systems perform under different conditions. This is particularly important for military applications, where effective sonar detection can mean the difference between success and failure in missions.Moreover, acoustic tanks serve as educational tools for students and researchers alike. Universities and research institutions often have access to these facilities, providing hands-on experience in acoustic research. Students studying marine science or engineering can conduct experiments that enhance their understanding of sound propagation in water, which is a fundamental concept in both fields.The construction of an acoustic tank requires careful consideration of materials and design to minimize sound interference from external sources. The walls of the tank are usually lined with sound-absorbing materials to prevent echoes that could distort experimental results. Additionally, the size and shape of the tank can influence how sound waves travel within it, making it essential to design these tanks with precision.As technology advances, the capabilities of acoustic tanks continue to evolve. Researchers are now able to incorporate advanced sensors and data collection methods, allowing for more detailed analysis of sound behavior in water. This technological integration enhances the accuracy of experiments and broadens the scope of research possibilities.In conclusion, the acoustic tank is a crucial tool for both scientific research and engineering applications. Its ability to simulate underwater environments allows for a deeper understanding of sound dynamics in aquatic settings. As we continue to explore the complexities of sound in water, the importance of acoustic tanks will undoubtedly grow, paving the way for innovations that could benefit marine conservation and technology development in the future.

“声学水槽”这一概念在声学和水下声研究领域变得越来越重要。声学水槽本质上是一个大型的、受控的环境，旨在研究水中的声波。这些水槽通常装满水，并用于各种实验，包括测试水下通信系统、声纳技术以及声波对海洋生物的影响。声学水槽的设计使研究人员能够操纵温度、盐度和压力等变量，以模拟不同的水下条件。声学水槽的主要用途之一是在海洋生物学领域。科学家可以观察不同物种如何响应各种声频，这对于理解它们的行为和交流至关重要。例如，一些鱼类利用声音吸引配偶或警告其他鱼类捕食者的存在。通过在声学水槽中研究这些相互作用，研究人员可以深入了解噪声污染的生态影响以及它如何影响海洋生态系统。除了生物学研究，声学水槽在工程应用中也至关重要。工程师利用这些水槽测试和开发潜艇和其他海军舰艇使用的声纳系统。通过创建逼真的水下环境，他们可以评估这些系统在不同条件下的性能。这对于军事应用尤其重要，因为有效的声纳探测可能意味着任务成功与否之间的差异。此外，声学水槽还作为学生和研究人员的教育工具。大学和研究机构通常可以使用这些设施，为声学研究提供实践经验。学习海洋科学或工程的学生可以进行实验，增强他们对水中声传播的理解，这是两个领域的基本概念。构建声学水槽需要仔细考虑材料和设计，以最小化来自外部源的声干扰。水槽的墙壁通常用吸音材料衬里，以防止回声扭曲实验结果。此外，水槽的大小和形状会影响声波在其中的传播方式，因此必须精确设计这些水槽。随着技术的进步，声学水槽的能力不断演变。研究人员现在能够整合先进的传感器和数据收集方法，从而允许对水中声行为进行更详细的分析。这种技术整合提高了实验的准确性，并拓宽了研究的可能性。总之，声学水槽是科学研究和工程应用的关键工具。它能够模拟水下环境，使我们对水中声动态有更深入的理解。随着我们继续探索水中声波的复杂性，声学水槽的重要性无疑会增加，为未来海洋保护和技术发展带来创新的可能性。