acoustics

简明释义

英[əˈkuːstɪks]美[əˈkuːstɪks]

n. 声学；音响效果，音质

英英释义

单词用法

同义词

反义词

例句

1.Next, the author discusses the roles and functions of the human voices, music and acoustics in the TV documentation program.

接下来，分别论述人声、音乐和音响在电视纪实类节目中的功能和作用。

2.In this performance, Rattle had the acoustics of the Symphony Hall on his side.

在这场演出中，拉特尔有着交响音乐厅传声效果的翼助。

3.Acoustics is the science of sound waves and their production, transmission, reception and control.

声学是研究声波及其产生、传播、接受和控制的科学。

4.The acoustics are good in this music hall.

这音乐厅的音响效果很好。

5.The acoustics of the room have been expertly planned.

这房间的音响效果设计得颇具匠心。

6.Using acoustics and other information about thousands of miles of pipes, IBM identifies the worst leaks to prioritize repairs.

这些管道网络的漏水率高达50%。利用声学原理和这些长达数千英里管道的其他信息，IBM能找出那些漏水最严重的管道并优先修理。

7.But it was not until the beginning of the twentieth century that architectural acoustics became a scientific field.

但直到二十世纪初，建筑声学才正式成为一个科学领域。

8.Good acoustics are really important.

好的音质确实很重要。

9.I alone, what what need is an a cup of tea, lamp and an acoustics nevertheless.

我独自一人，所需要的不过是一杯茶、一盏灯和一台音响。

10.The acoustics in this room make it difficult to hear the speaker.

这个房间的声学效果使得听到演讲者的话变得困难。

11.Engineers use advanced technology to measure the acoustics of different environments.

工程师使用先进技术来测量不同环境的声学特性。

12.She studied acoustics in college and now works on sound design for films.

她在大学学习了声学，现在从事电影的声音设计工作。

13.The concert hall was designed with excellent acoustics to enhance the sound quality.

这个音乐厅的设计考虑了出色的声学效果，以提升音质。

14.The new sound system improved the acoustics significantly during the event.

新的音响系统在活动中显著改善了声学效果。

作文

The study of sound and its properties is known as acoustics. This field of science plays a crucial role in various aspects of our daily lives, from the design of concert halls to the development of audio technology. Understanding acoustics allows us to appreciate the beauty of music, enhance communication, and create environments that are conducive to learning and relaxation. In concert halls, the principles of acoustics are meticulously applied to ensure that sound travels evenly throughout the space. Architects and acousticians work together to design venues that amplify sound without distortion. For instance, the famous Sydney Opera House is celebrated not only for its stunning architecture but also for its remarkable acoustics. The shape of the building and the materials used were carefully chosen to create an optimal listening experience for audiences.Moreover, acoustics is essential in the field of audio technology. Engineers utilize their understanding of sound waves to improve the quality of recordings and playback devices. From the microphones we use to capture sound to the speakers that deliver it, every component is designed with acoustics in mind. This ensures that music and speech are reproduced as accurately as possible, allowing listeners to enjoy a rich auditory experience.In addition to music and technology, acoustics also impacts our everyday environments. For example, classrooms are often designed with acoustics in mind to facilitate better learning. Good acoustics can reduce background noise and enhance speech intelligibility, making it easier for students to hear and understand their teachers. Similarly, in workplaces, proper acoustics can minimize distractions and improve productivity. Furthermore, the importance of acoustics extends to our health and well-being. Research has shown that sound can influence our mood and stress levels. Environments with poor acoustics, such as noisy offices or echoing spaces, can lead to increased anxiety and decreased focus. Conversely, spaces designed with good acoustics, such as quiet libraries or serene meditation rooms, can promote relaxation and mental clarity. In conclusion, the study of acoustics encompasses much more than just the science of sound; it intertwines with art, technology, education, and health. By understanding and applying the principles of acoustics, we can create spaces that enhance our experiences, improve our communication, and foster our well-being. As we continue to explore the fascinating world of sound, it becomes increasingly clear that acoustics is an integral part of our lives, shaping the way we interact with the world around us.

声音及其属性的研究被称为声学。这个科学领域在我们日常生活的各个方面都发挥着至关重要的作用，从音乐厅的设计到音频技术的发展。理解声学使我们能够欣赏音乐的美，增强沟通，并创造有利于学习和放松的环境。在音乐厅中，声学的原理被精心应用，以确保声音均匀地传播到整个空间。建筑师和声学家合作设计场馆，以放大声音而不失真。例如，著名的悉尼歌剧院因其令人惊叹的建筑而受到赞誉，同时也因其卓越的声学而闻名。建筑的形状和使用的材料经过精心选择，以创造最佳的听觉体验。此外，声学在音频技术领域也是必不可少的。工程师利用他们对声波的理解来改善录音和播放设备的质量。从我们用来捕捉声音的麦克风到传递声音的扬声器，每一个组件的设计都考虑到了声学。这确保了音乐和语言尽可能准确地再现，使听众能够享受丰富的听觉体验。除了音乐和技术，声学还影响着我们的日常环境。例如，教室通常会考虑声学的设计，以促进更好的学习。良好的声学可以减少背景噪音，提高语言清晰度，使学生更容易听到和理解老师。同样，在工作场所，适当的声学可以最小化干扰，提高生产力。此外，声学的重要性还扩展到我们的健康和福祉。研究表明，声音可以影响我们的情绪和压力水平。声学差的环境，例如嘈杂的办公室或回声空间，可能导致焦虑增加和注意力下降。相反，设计良好的声学空间，例如安静的图书馆或宁静的冥想室，可以促进放松和心理清晰。总之，声学的研究不仅仅是声音科学，它与艺术、技术、教育和健康交织在一起。通过理解和应用声学的原理，我们可以创造增强我们体验、改善我们沟通并促进我们福祉的空间。随着我们继续探索声音的迷人世界，越来越清楚的是，声学是我们生活中不可或缺的一部分，塑造着我们与周围世界的互动方式。