sub-audio frequency

简明释义

亚声频

英英释义

例句

1.The researchers discovered that certain animals can detect sub-audio frequency 次声频率 signals that are inaudible to humans.

研究人员发现某些动物能够检测到人类听不见的sub-audio frequency 次声频率 信号。

2.In audio engineering, understanding sub-audio frequency 次声频率 is crucial for creating effective sound systems.

在音频工程中，理解sub-audio frequency 次声频率 对于创建有效的音响系统至关重要。

3.Animals like elephants use sub-audio frequency 次声频率 communication to coordinate with each other over long distances.

像大象这样的动物使用sub-audio frequency 次声频率 进行沟通，以便在长距离上协调彼此。

4.The seismic sensors pick up sub-audio frequency 次声频率 waves generated by underground movements.

地震传感器捕捉到地下运动产生的sub-audio frequency 次声频率 波。

5.Some speakers are designed to reproduce sub-audio frequency 次声频率 sounds for a more immersive experience.

一些扬声器被设计用来重现sub-audio frequency 次声频率 声音，以提供更身临其境的体验。

作文

In the realm of sound and audio engineering, the term sub-audio frequency refers to frequencies that are below the range of human hearing, typically below 20 Hz. These frequencies are often imperceptible to our ears but can have significant effects on the physical environment and on electronic devices. Understanding sub-audio frequency is crucial for various applications, including music production, architectural acoustics, and even in the field of psychology. For instance, in music production, sub-audio frequency can be used creatively to enhance the listening experience. Producers might incorporate low-frequency sounds that resonate with the body, creating a feeling of depth and immersion in the music. This is particularly prominent in genres like electronic dance music (EDM), where bass drops and low-end frequencies can energize a crowd and elevate the overall experience of a live performance. Moreover, sub-audio frequency plays a vital role in architectural acoustics. Designers and engineers must consider these frequencies when constructing concert halls or theaters. Low-frequency vibrations can affect the structural integrity of buildings and the quality of sound within them. By understanding how sub-audio frequency interacts with different materials and spaces, architects can create environments that enhance auditory experiences while minimizing unwanted resonances. In addition to its applications in music and architecture, sub-audio frequency has been studied in psychological contexts as well. Research has shown that certain low-frequency sounds can evoke emotional responses in individuals, even if they are not consciously aware of hearing them. For example, some horror films utilize sub-audio frequency to create a sense of unease or tension, manipulating viewers' emotions without their explicit knowledge. This phenomenon highlights the power of sound and its ability to influence human perception and behavior. Furthermore, sub-audio frequency is also relevant in the context of technology and communication. In telecommunications, engineers often work with signals that include low-frequency components to ensure clear transmission over long distances. Understanding the characteristics of sub-audio frequency allows for better design of systems that can operate efficiently while maintaining high-quality sound reproduction. In conclusion, the concept of sub-audio frequency encompasses a wide range of applications and implications across various fields. From enhancing musical experiences to informing architectural design and influencing psychological responses, these low-frequency sounds are more impactful than one might initially assume. As technology continues to advance, the exploration of sub-audio frequency will likely reveal even more fascinating insights into the world of sound and its effects on our lives. Whether we realize it or not, sub-audio frequency is an integral part of our auditory landscape, shaping our experiences and interactions in profound ways.

在声音和音频工程的领域中，术语sub-audio frequency指的是低于人耳听觉范围的频率，通常低于20赫兹。这些频率通常是我们耳朵无法感知的，但对物理环境和电子设备可以产生显著影响。理解sub-audio frequency对于音乐制作、建筑声学甚至心理学等多个应用至关重要。例如，在音乐制作中，sub-audio frequency可以被创造性地用来增强听觉体验。制作人可能会加入与身体共鸣的低频声音，从而在音乐中创造出深度和沉浸感。这在电子舞曲（EDM）等类型中尤为明显，低音的爆发和低频可以激励人群，提升现场表演的整体体验。此外，sub-audio frequency在建筑声学中也发挥着重要作用。设计师和工程师在建造音乐厅或剧院时必须考虑这些频率。低频振动可能影响建筑的结构完整性以及内部音质。通过理解sub-audio frequency如何与不同材料和空间相互作用，建筑师可以创造出增强听觉体验的环境，同时最小化不必要的共振。除了在音乐和建筑中的应用外，sub-audio frequency在心理学背景下也受到研究。有研究表明，某些低频声音可以在个体中引发情感反应，即使他们并没有意识到自己听到了这些声音。例如，一些恐怖电影利用sub-audio frequency来制造不安或紧张感，操控观众的情感，而他们并未明确意识到。这一现象突显了声音的力量及其影响人类感知和行为的能力。此外，sub-audio frequency在技术和通信的背景下也具有相关性。在电信领域，工程师们经常处理包含低频成分的信号，以确保在长距离传输中的清晰度。理解sub-audio frequency的特性可以更好地设计能够高效运行的系统，同时保持高质量的声音再现。总之，sub-audio frequency的概念涵盖了多个领域的广泛应用和影响。从增强音乐体验到指导建筑设计，再到影响心理反应，这些低频声音的影响远比人们最初假设的要深远。随着技术的不断进步，对sub-audio frequency的探索可能会揭示出更多关于声音世界及其对我们生活影响的迷人见解。无论我们是否意识到，sub-audio frequency都是我们听觉环境的重要组成部分，以深刻的方式塑造我们的体验和互动。