pitch changing mechanism

简明释义

调螺距机构

英英释义

例句

1.The pitch changing mechanism 音高变化机制 in this keyboard allows for real-time adjustments while playing.

这款键盘中的音高变化机制 pitch changing mechanism允许在演奏时进行实时调整。

2.The synthesizer has a built-in pitch changing mechanism 音高变化机制 that creates unique sound textures.

这款合成器内置了一个音高变化机制 pitch changing mechanism，可以创造出独特的声音纹理。

3.In our latest software update, we improved the pitch changing mechanism 音高变化机制 for better sound quality during recordings.

在我们最新的软件更新中，我们改进了音高变化机制 pitch changing mechanism，以提高录音时的音质。

4.The new guitar model features an advanced pitch changing mechanism 音高变化机制 that allows musicians to easily adjust the tuning.

这款新吉他模型具有先进的音高变化机制 pitch changing mechanism，使音乐家能够轻松调整音调。

5.During the live performance, the vocalist used a pitch changing mechanism 音高变化机制 to enhance her vocal range.

在现场表演中，女歌手使用了一个音高变化机制 pitch changing mechanism来增强她的音域。

作文

The world of music is a fascinating one, filled with various elements that contribute to the beauty and complexity of sound. Among these elements, the pitch changing mechanism plays a crucial role in how we perceive and create music. This mechanism allows musicians and composers to manipulate the pitch of notes, creating a wide range of sounds that can evoke different emotions and atmospheres. Understanding the pitch changing mechanism is essential for anyone who wishes to delve deeper into the art of music-making.At its core, the pitch changing mechanism refers to the techniques and tools used to alter the frequency of sound waves produced by musical instruments or voices. For instance, in string instruments like violins and guitars, the pitch can be changed by pressing down on the strings at different points along the fretboard or fingerboard. This action shortens the vibrating length of the string, resulting in a higher pitch. Similarly, in wind instruments, players can change the pitch by adjusting their embouchure or by using valves and slides to alter the length of the air column inside the instrument.In modern music production, electronic devices have revolutionized the way we think about the pitch changing mechanism. Digital audio workstations (DAWs) now offer a plethora of software plugins that allow producers to manipulate pitch in real-time. Tools such as pitch shifters and auto-tuners can correct the pitch of vocal performances or create harmonies that would be impossible to achieve naturally. This technological advancement has opened up new creative possibilities for artists, allowing them to experiment with sound in ways that were once unimaginable.However, the use of the pitch changing mechanism is not without controversy. Some purists argue that relying too heavily on technology can lead to a loss of authenticity in music. They believe that the raw, unaltered sound of a musician's performance is what truly connects with listeners. On the other hand, many contemporary artists embrace the pitch changing mechanism as a tool for expression and innovation. They argue that music has always evolved alongside technology, and that using these mechanisms is simply a continuation of that tradition.Moreover, the pitch changing mechanism is not limited to Western music alone. In various cultures around the world, different methods of pitch alteration are employed to create unique musical styles. For example, traditional Indian classical music utilizes a system of microtones, where the pitch can be finely adjusted to create intricate melodies. Similarly, in African music, pitch bending is often used to convey emotion and storytelling through song. This diversity in pitch manipulation highlights the universal importance of the pitch changing mechanism across different musical traditions.In conclusion, the pitch changing mechanism is a fundamental aspect of music that enables creativity and expression. Whether through traditional instruments or modern technology, the ability to manipulate pitch opens up a world of possibilities for musicians and composers. As we continue to explore and experiment with sound, understanding the pitch changing mechanism will remain key to unlocking the full potential of music. Ultimately, it is this interplay between tradition and innovation that keeps the art of music alive and thriving.

音乐的世界是一个迷人的领域，充满了各种元素，这些元素共同构成了声音的美和复杂性。在这些元素中，音高变化机制在我们如何感知和创造音乐方面发挥着至关重要的作用。这个机制允许音乐家和作曲家操纵音符的音高，创造出一系列可以唤起不同情感和氛围的声音。理解音高变化机制对于任何希望深入音乐创作艺术的人来说都是必不可少的。从本质上讲，音高变化机制指的是用于改变乐器或人声产生的声波频率的技术和工具。例如，在小提琴和吉他等弦乐器中，可以通过在指板的不同位置按压弦来改变音高。这一动作缩短了弦的振动长度，从而导致音高升高。类似地，在管乐器中，演奏者可以通过调整嘴形或使用阀门和滑管来改变乐器内部气柱的长度，从而改变音高。在现代音乐制作中，电子设备彻底改变了我们对音高变化机制的思考方式。数字音频工作站（DAWs）现在提供了大量的软件插件，允许制作人在实时中操纵音高。像音高移位器和自动调音器这样的工具可以修正人声表演的音高，或创造出自然无法实现的和声。这种技术进步为艺术家们打开了新的创作可能性，使他们能够以曾经不可想象的方式进行声音实验。然而，使用音高变化机制并非没有争议。一些纯粹主义者认为，过于依赖技术可能会导致音乐的真实性丧失。他们认为，音乐家表演的原始、未经修改的声音才是真正与听众建立联系的桥梁。另一方面，许多当代艺术家将音高变化机制视为表达和创新的工具。他们认为，音乐一直与技术一起发展，使用这些机制只是这一传统的延续。此外，音高变化机制不仅限于西方音乐。在世界各地的不同文化中，采用不同的音高变化方法来创造独特的音乐风格。例如，传统印度古典音乐利用微音的系统，音高可以精细调整以创建复杂的旋律。同样，在非洲音乐中，音高弯曲常常用于通过歌曲传达情感和故事。这种音高操控的多样性突显了音高变化机制在不同音乐传统中的普遍重要性。总之，音高变化机制是音乐的一个基本方面，使创造力和表达成为可能。无论是通过传统乐器还是现代技术，操纵音高的能力为音乐家和作曲家打开了一个可能性的大门。随着我们继续探索和实验声音，理解音高变化机制将始终是解锁音乐全部潜力的关键。最终，正是这种传统与创新之间的相互作用使音乐艺术保持活力和繁荣。