fundamental vibration

简明释义

基本振荡

英英释义

例句

1.The string of the guitar produces a rich sound due to its fundamental vibration (基本振动) and harmonics.

吉他的弦因其基本振动（基本振动）和谐波而产生丰富的声音。

2.Musicians often adjust their instruments to align with the fundamental vibration (基本振动) of a specific note.

音乐家通常会调整他们的乐器，以与特定音符的基本振动（基本振动）对齐。

3.The fundamental vibration (基本振动) frequency of a pipe organ determines the pitch of the notes produced.

管风琴的基本振动（基本振动）频率决定了所产生音符的音高。

4.The tuning fork emits a clear tone thanks to its fundamental vibration (基本振动).

音叉发出清晰的音调，这要归功于它的基本振动（基本振动）。

5.In structural engineering, understanding the fundamental vibration (基本振动) of a building is crucial for earthquake resistance.

在结构工程中，理解建筑物的基本振动（基本振动）对于抗震是至关重要的。

作文

The concept of fundamental vibration is crucial in various fields, including physics, engineering, and music. In physics, it refers to the lowest frequency at which a system can vibrate. This principle applies to everything from strings on a musical instrument to buildings during an earthquake. Understanding fundamental vibration allows engineers to design structures that can withstand natural disasters by ensuring that their natural frequencies do not resonate with the vibrations caused by such events.In the realm of music, fundamental vibration plays a significant role in sound production. When a guitar string is plucked, it vibrates at different frequencies; however, the fundamental vibration is the primary tone that we hear. This fundamental frequency determines the pitch of the note produced. Musicians often manipulate this fundamental frequency using techniques like tuning, where they adjust the tension of the strings to achieve the desired sound. Moreover, the concept of fundamental vibration extends beyond physical objects and sound waves. In the context of quantum mechanics, particles are said to exhibit fundamental vibration as they oscillate at specific frequencies. These vibrations are essential for understanding the behavior of atoms and molecules, which forms the basis of chemistry and material science.In everyday life, we encounter fundamental vibration in various forms. For instance, when we listen to music, the bass notes we feel in our chest are a result of low-frequency vibrations. These vibrations create a sense of connection and emotion, illustrating how fundamental vibration influences our experiences. In wellness practices, such as yoga or meditation, sound healing often utilizes instruments that produce harmonious fundamental vibrations to promote relaxation and mental clarity.Understanding fundamental vibration also has implications in technology. Engineers utilize the principles of vibration analysis to predict how structures will respond to external forces, such as wind or traffic. By studying the fundamental vibration of a structure, they can identify potential weaknesses and reinforce them before construction. This proactive approach not only ensures safety but also enhances the longevity of buildings and bridges.In conclusion, the idea of fundamental vibration permeates various aspects of our lives, from the music we enjoy to the structures we inhabit. Recognizing its significance helps us appreciate the intricate connections between science, art, and technology. Whether through the resonance of a musical note or the stability of a skyscraper, fundamental vibration serves as a foundation upon which many phenomena rely. As we continue to explore and understand these vibrations, we unlock new possibilities for innovation and creativity in our world.

“基本振动”这一概念在物理学、工程学和音乐等多个领域中至关重要。在物理学中，它指的是一个系统可以振动的最低频率。这个原理适用于从乐器上的弦到地震期间的建筑物的一切。理解“基本振动”使工程师能够设计出能够抵御自然灾害的结构，确保它们的自然频率不会与这些事件引起的振动共振。在音乐领域，“基本振动”在声音产生中发挥着重要作用。当吉他弦被拨动时，它以不同的频率振动；然而，“基本振动”是我们听到的主要音调。这个基本频率决定了产生的音符的音高。音乐家通常通过调音等技术来操控这个基本频率，他们调整弦的张力以达到所需的声音。此外，“基本振动”的概念超越了物理物体和声波。在量子力学的背景下，粒子被认为以特定的频率振动。这些振动对于理解原子和分子的行为至关重要，这构成了化学和材料科学的基础。在日常生活中，我们以各种形式遇到“基本振动”。例如，当我们听音乐时，胸口感受到的低音是低频振动的结果。这些振动创造了一种连接和情感，说明“基本振动”如何影响我们的体验。在瑜伽或冥想等健康实践中，声音疗法通常利用产生和谐“基本振动”的乐器来促进放松和心理清晰。理解“基本振动”在技术上也有其意义。工程师利用振动分析原理来预测结构如何应对外部力量，如风或交通。通过研究结构的“基本振动”，他们可以识别潜在的弱点并在施工前进行加固。这种主动的方法不仅确保了安全，还增强了建筑物和桥梁的耐用性。总之，“基本振动”的思想渗透到我们生活的各个方面，从我们欣赏的音乐到我们居住的建筑。认识到其重要性帮助我们欣赏科学、艺术和技术之间的复杂联系。无论是通过音乐音符的共鸣，还是摩天大楼的稳定，“基本振动”都是许多现象赖以存在的基础。随着我们继续探索和理解这些振动，我们为创新和创造力在我们世界中的新可能性打开了大门。