sympathetic resonant vibration

简明释义

共振振动

英英释义

例句

1.The scientist explained how sympathetic resonant vibrations can affect the structural integrity of bridges.

科学家解释了共鸣振动如何影响桥梁的结构完整性。

2.The architect designed the building to enhance sympathetic resonant vibrations for better acoustics.

建筑师设计这座建筑以增强共鸣振动，以改善声学效果。

3.During the experiment, we noticed a sympathetic resonant vibration in the glass when the tuning fork was struck.

在实验中，当音叉被敲击时，我们注意到玻璃中产生了共鸣振动。

4.When the singer hit the high note, it caused a sympathetic resonant vibration in the nearby windows.

当歌手唱出高音时，附近的窗户产生了共鸣振动。

5.The sound of the violin created a sympathetic resonant vibration, which filled the concert hall with rich tones.

小提琴的声音产生了共鸣振动，充满了整个音乐厅丰富的音色。

作文

The concept of sympathetic resonant vibration is a fascinating phenomenon that occurs when one object vibrates in response to the vibrations of another object. This principle can be observed in various fields, including music, engineering, and even architecture. Understanding this concept not only deepens our appreciation for the interconnectedness of physical systems but also enhances our ability to design and create harmoniously functioning structures.In music, sympathetic resonant vibration can be heard when a string instrument is played. For instance, when a musician plucks a string on a guitar, the vibrations produced by that string can cause other strings on the instrument to vibrate as well, even if they are not directly touched. This creates a richer and more complex sound, as the sympathetic strings resonate at frequencies that complement the original note. The beauty of this interaction highlights the importance of resonance in musical composition and performance.Beyond music, sympathetic resonant vibration has significant implications in engineering. For example, when designing buildings or bridges, engineers must consider how external vibrations—such as those from traffic or earthquakes—can affect the structure. If the frequency of these vibrations matches the natural frequency of the building, it can lead to excessive oscillations, potentially resulting in structural failure. Therefore, understanding sympathetic resonant vibration allows engineers to design safer structures that can withstand such forces, ensuring the safety of the occupants and longevity of the building.In the realm of architecture, sympathetic resonant vibration plays a crucial role in creating spaces that feel harmonious and balanced. Architects often use materials that resonate well together, ensuring that the sounds within a space are pleasant and conducive to its intended use. For instance, concert halls are designed with specific shapes and materials that enhance sound quality through controlled sympathetic resonant vibration. This careful consideration of acoustics can transform a simple room into a venue that elevates the experience of music and performance.Moreover, the concept of sympathetic resonant vibration extends beyond tangible applications. It can also serve as a metaphor for human relationships and interactions. Just as objects can resonate with each other, people can connect on emotional and intellectual levels. When individuals share similar values or experiences, they may experience a form of sympathetic resonant vibration in their conversations and interactions. This connection fosters empathy and understanding, allowing for deeper relationships and collaboration.In conclusion, the phenomenon of sympathetic resonant vibration is a remarkable illustration of how interconnected our world is. From the strings of a musical instrument to the beams of a skyscraper, the principles of resonance shape our experiences and environments. By understanding and harnessing this concept, we can enhance not only our artistic endeavors but also our technological advancements and interpersonal relationships. Embracing the idea of sympathetic resonant vibration opens up new avenues for creativity and innovation, reminding us of the profound connections that exist all around us.

“共鸣振动”（sympathetic resonant vibration）这一概念是一个迷人的现象，指的是一个物体在响应另一个物体的振动时所产生的振动。这一原理可以在音乐、工程甚至建筑等多个领域中观察到。理解这一概念不仅加深了我们对物理系统相互联系的认识，还增强了我们设计和创造和谐运作结构的能力。在音乐中，sympathetic resonant vibration可以在弦乐器演奏时听到。例如，当音乐家拨动吉他上的一根弦时，该弦产生的振动可以使乐器上其他未直接触摸的弦也发生振动。这会产生更丰富、更复杂的声音，因为共鸣弦以与原始音符互补的频率共鸣。这种互动的美感突显了共鸣在音乐创作和表演中的重要性。除了音乐之外，sympathetic resonant vibration在工程学中也有重要的意义。例如，在设计建筑或桥梁时，工程师必须考虑外部振动（如交通或地震）如何影响结构。如果这些振动的频率与建筑物的自然频率相匹配，就可能导致过度的振荡，从而可能导致结构失效。因此，理解sympathetic resonant vibration使工程师能够设计出能承受这些力量的更安全的结构，确保居住者的安全和建筑的耐用性。在建筑领域，sympathetic resonant vibration在创造和谐和平衡的空间方面发挥着关键作用。建筑师通常使用能够良好共鸣的材料，确保空间内的声音愉悦且适合其预期用途。例如，音乐厅的设计采用特定的形状和材料，通过控制sympathetic resonant vibration来增强音质。这种对声学的精心考虑可以将简单的房间转变为提升音乐和表演体验的场所。此外，sympathetic resonant vibration的概念超越了具体应用，也可以作为人际关系和互动的隐喻。正如物体可以彼此共鸣，人们也可以在情感和智力层面上建立联系。当个体分享相似的价值观或经历时，他们可能会在交流和互动中体验到一种共鸣振动（sympathetic resonant vibration）。这种联系促进了同理心和理解，使得更深层次的关系和合作成为可能。总之，sympathetic resonant vibration现象是我们世界相互联系的一个显著例证。从乐器的弦到摩天大楼的梁，共鸣的原则塑造了我们的体验和环境。通过理解和利用这一概念，我们不仅可以增强艺术创作，还可以推动技术进步和人际关系的发展。接受sympathetic resonant vibration的理念为创造力和创新开辟了新的途径，提醒我们周围存在的深刻联系。