low frequency range

简明释义

低频域

英英释义

例句

1.In many speakers, the low frequency range 低频范围 is crucial for delivering deep sounds.

在许多扬声器中，低频范围 low frequency range对于传递深沉的声音至关重要。

2.The research focused on how different materials affect sound absorption in the low frequency range 低频范围.

研究集中在不同材料如何影响低频范围 low frequency range的声音吸收上。

3.Musical instruments like the bass guitar produce significant energy in the low frequency range 低频范围.

像贝斯吉他这样的乐器在低频范围 low frequency range内产生显著的能量。

4.The room's acoustics were designed to minimize noise in the low frequency range 低频范围.

这个房间的声学设计旨在最小化低频范围 low frequency range内的噪音。

5.The audio engineer adjusted the settings to enhance the sound in the low frequency range 低频范围 for a richer bass experience.

音频工程师调整设置以增强低频范围 low frequency range的声音，以获得更丰富的低音体验。

作文

In the field of acoustics and audio engineering, understanding sound frequencies is crucial for various applications, from music production to environmental noise control. One important aspect of this study is the concept of the low frequency range, which refers to sound frequencies that are typically below 250 Hz. This range plays a significant role in how we perceive sound and can greatly influence the overall auditory experience. The low frequency range is often associated with deep sounds, such as bass notes in music or the rumble of thunder. These low frequencies are essential for creating a rich and immersive listening experience. For instance, in music production, producers pay close attention to the low frequency range when mixing tracks to ensure that the bass instruments are well-balanced with other elements. If the bass is too overpowering or too weak, it can significantly affect the quality of the music.Furthermore, the low frequency range is also critical in various fields beyond music. In architectural acoustics, understanding how low frequencies behave in different environments can help in designing spaces that minimize unwanted noise and enhance sound quality. For example, concert halls and theaters are often designed with specific materials and shapes to optimize the performance of the low frequency range, ensuring that audiences can appreciate the depth and richness of the sound.Moreover, the low frequency range has implications in the field of environmental noise monitoring. Many urban areas struggle with noise pollution, and understanding the sources of low-frequency noise—such as traffic, construction, and industrial activities—can aid in developing effective mitigation strategies. By measuring and analyzing sounds within the low frequency range, city planners and environmental scientists can identify problematic areas and implement solutions to improve overall sound quality in urban settings.In addition to its practical applications, the low frequency range also has intriguing psychological effects. Research has shown that low-frequency sounds can elicit emotional responses in listeners, influencing their mood and state of mind. This phenomenon is often employed in film scoring, where composers use low frequencies to create tension or evoke feelings of fear and suspense. The ability of the low frequency range to affect our emotions highlights its importance not just in technical terms but also in artistic expression.In conclusion, the low frequency range is a fundamental aspect of sound that has far-reaching implications in various fields, including music, architecture, environmental science, and psychology. Understanding this range allows us to appreciate the depth and complexity of sound and its impact on our lives. Whether we are enjoying our favorite music, attending a concert, or simply navigating the sounds of our environment, the low frequency range will always play a vital role in shaping our auditory experiences.

在声学和音频工程领域，理解声音频率对于各种应用至关重要，从音乐制作到环境噪声控制。这个研究的一个重要方面是“低频范围”的概念，它指的是通常低于250赫兹的声音频率。这一范围在我们感知声音的方式中扮演着重要角色，并且可以极大地影响整体听觉体验。“低频范围”通常与深沉的声音相关联，例如音乐中的低音音符或雷声的隆隆声。这些低频对于创造丰富而身临其境的听觉体验至关重要。例如，在音乐制作中，制作人在混合曲目时会非常关注“低频范围”，以确保低音乐器与其他元素之间的平衡。如果低音过于强烈或过于微弱，都可能显著影响音乐的质量。此外，“低频范围”在音乐之外的多个领域也至关重要。在建筑声学中，理解低频如何在不同环境中表现，可以帮助设计出减少不必要噪声并增强音质的空间。例如，音乐厅和剧院通常采用特定的材料和形状来优化“低频范围”的表现，确保观众能够欣赏声音的深度和丰富性。此外，“低频范围”在环境噪声监测领域也具有重要意义。许多城市地区面临噪声污染的问题，理解低频噪声的来源——如交通、建筑和工业活动——可以帮助制定有效的缓解策略。通过测量和分析“低频范围”内的声音，城市规划者和环境科学家可以识别问题区域，并实施解决方案以改善城市环境中的整体声音质量。除了实用应用外，“低频范围”还具有有趣的心理效应。研究表明，低频声音可以引发听众的情感反应，影响他们的情绪和心态。这种现象常被用于电影配乐中，作曲家利用低频创造紧张感或唤起恐惧和悬念的感觉。“低频范围”对我们情感的影响突显了它在技术层面和艺术表达中的重要性。总之，“低频范围”是声音的一个基本方面，在音乐、建筑、环境科学和心理学等多个领域具有深远的影响。理解这一范围使我们能够欣赏声音的深度和复杂性，以及它对我们生活的影响。无论我们是在享受自己喜欢的音乐、参加音乐会，还是简单地在环境中导航，“低频范围”始终在塑造我们的听觉体验中发挥着重要作用。