subsonic vibrations
简明释义
亚声振动
英英释义
Vibrations that occur at frequencies below the speed of sound in a given medium, typically less than 20 Hz in air. | 在特定介质中发生的频率低于声速的振动,通常在空气中低于20赫兹。 |
例句
1.Researchers found that subsonic vibrations 亚声波振动 could affect the growth of certain plants.
研究人员发现,subsonic vibrations 亚声波振动 可能会影响某些植物的生长。
2.In the study of acoustics, subsonic vibrations 亚声波振动 can be critical for understanding sound propagation.
在声学研究中,subsonic vibrations 亚声波振动 对于理解声音传播至关重要。
3.The artist used subsonic vibrations 亚声波振动 in her installation to create a unique sensory experience.
这位艺术家在她的装置中使用了subsonic vibrations 亚声波振动,以创造独特的感官体验。
4.The engineers designed a new system to monitor subsonic vibrations 亚声波振动 in the machinery to prevent failures.
工程师设计了一种新系统来监测机器中的subsonic vibrations 亚声波振动,以防止故障。
5.The building's foundation was tested for subsonic vibrations 亚声波振动 to ensure it could withstand earthquakes.
建筑的基础经过测试,以检测subsonic vibrations 亚声波振动,以确保其能够抵御地震。
作文
Subsonic vibrations are a fascinating phenomenon that occurs when sound waves travel at speeds below the speed of sound in a given medium. In air at sea level, this speed is approximately 343 meters per second, or about 1,125 feet per second. When we talk about subsonic vibrations (亚声波振动), we are referring to vibrations that occur at frequencies lower than those that can be heard by the human ear, typically below 20 Hz. These vibrations can have various sources and implications in both natural and engineered systems.One of the most common examples of subsonic vibrations (亚声波振动) can be found in the natural world. For instance, elephants communicate over long distances using low-frequency sounds that fall within the subsonic (亚声波) range. These sounds can travel through the ground and air, allowing elephants to stay in contact with each other even when they are miles apart. This ability to transmit information through subsonic vibrations (亚声波振动) highlights the significance of these frequencies in animal communication and behavior.In the realm of engineering, subsonic vibrations (亚声波振动) play a crucial role in various applications, particularly in the design of vehicles and structures. For example, in aerodynamics, understanding how subsonic vibrations (亚声波振动) affect aircraft performance is essential for optimizing fuel efficiency and stability during flight. Engineers must consider the impact of these vibrations on the materials used in construction, ensuring that they can withstand the stresses imposed by subsonic vibrations (亚声波振动) without failing.Moreover, subsonic vibrations (亚声波振动) are also utilized in various technologies. For instance, seismic sensors detect subsonic vibrations (亚声波振动) generated by earthquakes, allowing scientists to study seismic activity and improve safety measures in earthquake-prone areas. Additionally, subsonic vibrations (亚声波振动) are used in medical imaging techniques, such as ultrasound, where sound waves penetrate the body and reflect off internal structures, providing valuable diagnostic information.While subsonic vibrations (亚声波振动) are often associated with beneficial applications, they can also pose challenges. For example, in industrial settings, machinery can generate unwanted subsonic vibrations (亚声波振动), leading to noise pollution and potential structural damage. Addressing these issues requires careful monitoring and management to mitigate the effects of subsonic vibrations (亚声波振动) on both the environment and human health.In conclusion, subsonic vibrations (亚声波振动) are an integral part of our world, influencing communication, engineering, and technology. By understanding and harnessing these low-frequency vibrations, we can enhance our knowledge of natural phenomena, improve technological advancements, and address the challenges they present. As research continues to evolve, the study of subsonic vibrations (亚声波振动) will undoubtedly uncover new applications and insights, further enriching our understanding of the universe around us.
亚声波振动是一种迷人的现象,当声波以低于给定介质中声速的速度传播时就会发生。在海平面上,空气中的声速大约为343米每秒,或约1125英尺每秒。当我们谈论亚声波振动(subsonic vibrations)时,我们指的是那些频率低于人耳能听到的声音的振动,通常低于20赫兹。这些振动可以有各种来源,并在自然和工程系统中具有不同的意义。亚声波振动(subsonic vibrations)的一个常见例子可以在自然界中找到。例如,大象使用低频声音进行长距离沟通,这些声音落在亚声波(subsonic)范围内。这些声音可以通过地面和空气传播,使得大象即使相隔数英里也能保持联系。这种通过亚声波振动(subsonic vibrations)传递信息的能力突显了这些频率在动物沟通和行为中的重要性。在工程领域,亚声波振动(subsonic vibrations)在各种应用中发挥着关键作用,特别是在车辆和结构的设计中。例如,在气动学中,了解亚声波振动(subsonic vibrations)如何影响飞机性能对于优化燃油效率和飞行稳定性至关重要。工程师必须考虑这些振动对建筑材料的影响,确保它们能够承受由亚声波振动(subsonic vibrations)施加的压力而不发生故障。此外,亚声波振动(subsonic vibrations)也被用于各种技术中。例如,地震传感器检测由地震产生的亚声波振动(subsonic vibrations),使科学家能够研究地震活动并改善地震多发地区的安全措施。此外,亚声波振动(subsonic vibrations)在医学成像技术中也得到了应用,例如超声波,其中声波穿透身体并反射内部结构,提供有价值的诊断信息。虽然亚声波振动(subsonic vibrations)通常与有益的应用相关联,但它们也可能带来挑战。例如,在工业环境中,机械设备可能产生不必要的亚声波振动(subsonic vibrations),导致噪音污染和潜在的结构损坏。解决这些问题需要仔细监测和管理,以减轻亚声波振动(subsonic vibrations)对环境和人类健康的影响。总之,亚声波振动(subsonic vibrations)是我们世界的重要组成部分,影响着沟通、工程和技术。通过理解和利用这些低频振动,我们可以增强对自然现象的认识,改善技术进步,并应对它们带来的挑战。随着研究的不断发展,对亚声波振动(subsonic vibrations)的研究无疑将揭示新的应用和见解,进一步丰富我们对周围宇宙的理解。
相关单词
