acoustic system

简明释义

1. 声系; 2. 声系测井;

英英释义

例句

1.He adjusted the settings on the acoustic system to reduce echo during the live performance.

他调整了声学系统的设置，以减少现场表演中的回声。

2.The concert hall was designed with an advanced acoustic system to enhance sound quality.

这个音乐厅采用了先进的声学系统来增强音质。

3.The acoustic system in the theater ensures that every seat has clear audio.

剧院中的声学系统确保每个座位都能听到清晰的音频。

4.We installed a new acoustic system in the recording studio for better sound capture.

我们在录音室安装了一个新的声学系统以获得更好的声音捕捉。

5.The acoustic system is crucial for podcasts to ensure high-quality audio for listeners.

对于播客来说，声学系统至关重要，以确保听众能听到高质量的音频。

作文

The term acoustic system refers to a set of components that work together to produce, transmit, and receive sound. In our daily lives, we encounter various acoustic systems, from simple devices like radios to complex setups like concert halls or home theaters. Understanding how these systems function can enhance our appreciation of sound and music. At its core, an acoustic system consists of three main elements: the sound source, the medium through which the sound travels, and the receiver. The sound source is where the sound originates, such as a musical instrument or a speaker. The medium can be air, water, or even solid materials, depending on the context. Finally, the receiver is the human ear or a microphone that captures the sound waves. One fascinating aspect of acoustic systems is how they can be designed to optimize sound quality. For instance, in concert halls, architects carefully consider the shape and materials used to enhance acoustics. They aim to create an environment where sound waves can travel freely without distortion, allowing audiences to experience music in its purest form. This involves understanding the principles of sound reflection, absorption, and diffusion. In addition to architectural considerations, technology plays a significant role in modern acoustic systems. Innovations such as digital signal processing have transformed the way we experience sound. For example, noise-canceling headphones use advanced algorithms to filter out unwanted background noise, providing a clearer listening experience. Similarly, surround sound systems create a three-dimensional audio experience by using multiple speakers placed strategically around a room. Moreover, acoustic systems are not limited to music and entertainment; they also have crucial applications in various fields, including medicine and communication. In the medical field, ultrasound machines utilize acoustic systems to visualize internal organs and monitor fetal development. These machines emit high-frequency sound waves that bounce off tissues, creating images that doctors can analyze. In communication, acoustic systems enable technologies such as telephones and voice recognition software. Telephones convert sound waves from our voices into electrical signals that can be transmitted over long distances. Voice recognition software, on the other hand, relies on sophisticated algorithms to interpret spoken language, allowing for hands-free operation of devices. In conclusion, the concept of acoustic systems encompasses a wide range of applications and technologies that impact our daily lives. By understanding the components and functions of these systems, we can better appreciate the complexities of sound and its influence on our experiences. Whether it’s enjoying a live concert, listening to our favorite music, or utilizing medical imaging technologies, acoustic systems play an essential role in shaping our auditory world. As technology continues to evolve, so too will our understanding and utilization of acoustic systems, paving the way for even more innovative sound experiences in the future.

“声学系统”一词指的是一组共同作用以产生、传输和接收声音的组件。在我们的日常生活中，我们会遇到各种“声学系统”，从简单的收音机到复杂的音乐厅或家庭影院。理解这些系统如何运作可以增强我们对声音和音乐的欣赏。在其核心，“声学系统”由三个主要元素组成：声源、声音传播的介质和接收器。声源是声音产生的地方，例如乐器或扬声器。介质可以是空气、水甚至固体材料，具体取决于上下文。最后，接收器是人耳或麦克风，用于捕捉声波。“声学系统”的一个迷人方面是它们可以被设计以优化音质。例如，在音乐厅中，建筑师仔细考虑形状和所用材料，以增强声学效果。他们旨在创造一个声波可以自由传播而不失真的环境，让观众以最纯粹的形式体验音乐。这涉及到对声音反射、吸收和扩散原理的理解。除了建筑考虑外，技术在现代“声学系统”中也发挥着重要作用。数字信号处理等创新改变了我们体验声音的方式。例如，消噪耳机使用先进的算法来过滤掉不必要的背景噪声，从而提供更清晰的听觉体验。同样，环绕声系统通过在房间周围战略性地放置多个扬声器来创造三维音频体验。此外，“声学系统”不仅限于音乐和娱乐；它们在医学和通信等各个领域也有重要应用。在医学领域，超声波机器利用“声学系统”可视化内部器官并监测胎儿发育。这些机器发出高频声波，这些声波会反射组织，创建医生可以分析的图像。在通信中，“声学系统”使电话和语音识别软件等技术成为可能。电话将我们声音中的声波转换为可以远距离传输的电信号。另一方面，语音识别软件依赖于复杂的算法来解释口语，从而允许设备的免提操作。总之，“声学系统”的概念涵盖了影响我们日常生活的广泛应用和技术。通过理解这些系统的组件和功能，我们可以更好地欣赏声音的复杂性及其对我们体验的影响。无论是享受现场音乐会、聆听我们最喜欢的音乐，还是利用医学成像技术，“声学系统”在塑造我们的听觉世界中扮演着重要角色。随着技术的不断发展，我们对“声学系统”的理解和利用也将不断演变，为未来更具创新性的声音体验铺平道路。