acoustic frequency

简明释义

声频

英英释义

例句

1.The audio engineer used software to analyze the acoustic frequency 声频 response of the recording studio.

音频工程师使用软件分析录音室的声频响应。

2.To improve sound quality, they focused on the acoustic frequency 声频 range that was most affected by background noise.

为了改善音质，他们专注于受到背景噪声影响最大的声频范围。

3.In underwater research, scientists measure the acoustic frequency 声频 of marine animals to study their communication.

在水下研究中，科学家测量海洋动物的声频以研究它们的交流。

4.The musician adjusted the settings to enhance the acoustic frequency 声频 of the guitar.

音乐家调整设置以增强吉他的声频。

5.The speaker's voice resonated at a specific acoustic frequency 声频, making it clearer for the audience.

演讲者的声音在特定的声频上共鸣，使听众更清晰。

作文

Acoustic frequency is a term that refers to the frequency of sound waves, which can be understood as the rate at which the sound wave oscillates. This concept is crucial in various fields, including music, engineering, and environmental science. Understanding acoustic frequency (声频) allows us to appreciate how sound behaves and interacts with different mediums. In music, for instance, each note corresponds to a specific acoustic frequency (声频), enabling musicians to create harmonious melodies. The relationship between frequency and pitch is fundamental; higher frequencies produce higher pitches, while lower frequencies yield deeper sounds.In the realm of engineering, acoustic frequency (声频) plays a vital role in designing sound systems and architectural acoustics. Engineers must consider how sound waves travel and resonate within a space. For example, in concert halls, the goal is to enhance the quality of sound by manipulating the acoustic frequency (声频) response of the environment. This involves using materials that absorb or reflect sound waves at certain frequencies, ensuring that the audience experiences a clear and rich auditory experience.Environmental scientists also utilize the concept of acoustic frequency (声频) to study wildlife and ecosystems. Many animals communicate through sound, and understanding the acoustic frequency (声频) of their calls can provide insights into their behavior and habitat. For example, researchers may analyze the frequency of bird songs to monitor population health or assess the impact of environmental changes on animal communication.Moreover, the study of acoustic frequency (声频) extends to medical applications, particularly in ultrasound technology. Ultrasound machines use high-frequency sound waves to create images of the inside of the body, allowing doctors to diagnose conditions without invasive procedures. The acoustic frequency (声频) used in these machines is typically above the range of human hearing, making it a safe and effective diagnostic tool.In conclusion, acoustic frequency (声频) is an essential concept that permeates various aspects of our lives, from the music we enjoy to the technologies we rely on for health and safety. By understanding how acoustic frequency (声频) works, we can better appreciate the intricacies of sound and its profound impact on our world. Whether in the concert hall, the laboratory, or the great outdoors, the principles of acoustic frequency (声频) remind us of the beauty and complexity of sound as a fundamental aspect of our experience.

声频是指声波的频率，这可以理解为声波振荡的速率。这个概念在音乐、工程和环境科学等多个领域至关重要。理解声频（acoustic frequency）使我们能够欣赏声音如何与不同介质相互作用。在音乐中，例如，每个音符对应于特定的声频（acoustic frequency），使音乐家能够创作和谐的旋律。频率与音高之间的关系是基本的；较高的频率产生较高的音高，而较低的频率则产生更深的声音。在工程领域，声频（acoustic frequency）在设计音响系统和建筑声学中发挥着重要作用。工程师必须考虑声音波如何在空间中传播和共鸣。例如，在音乐厅中，目标是通过操控环境的声频（acoustic frequency）响应来增强声音的质量。这涉及使用能够在某些频率下吸收或反射声波的材料，以确保观众体验到清晰而丰富的听觉体验。环境科学家也利用声频（acoustic frequency）的概念来研究野生动物和生态系统。许多动物通过声音进行交流，理解它们叫声的声频（acoustic frequency）可以提供关于行为和栖息地的见解。例如，研究人员可能会分析鸟类鸣唱的频率，以监测种群健康或评估环境变化对动物交流的影响。此外，声频（acoustic frequency）的研究还扩展到医学应用，特别是在超声技术中。超声波机使用高频声波来创建身体内部的图像，使医生能够在不进行侵入性手术的情况下进行诊断。这些机器使用的声频（acoustic frequency）通常高于人类听觉范围，使其成为一种安全有效的诊断工具。总之，声频（acoustic frequency）是一个重要的概念，渗透到我们生活的各个方面，从我们欣赏的音乐到我们依赖的健康和安全技术。通过理解声频（acoustic frequency）是如何工作的，我们可以更好地欣赏声音的复杂性及其对我们世界的深远影响。无论是在音乐厅、实验室还是大自然中，声频（acoustic frequency）的原理提醒我们声音作为我们体验的基本方面的美丽和复杂性。