resonant window

简明释义

谐振窗

英英释义

例句

1.During the experiment, we discovered a resonant window in the frequency range that maximized our results.

在实验中，我们发现了一个频率范围内的共鸣窗，使我们的结果最大化。

2.The team identified a resonant window for the chemical reaction that increased the yield significantly.

团队确定了一个化学反应的共鸣窗，显著提高了产量。

3.In physics, finding a resonant window can lead to breakthroughs in understanding wave behavior.

在物理学中，找到一个共鸣窗可以带来对波动行为理解的突破。

4.The architect designed the concert hall to create a resonant window that amplifies the sound beautifully.

建筑师设计了音乐厅，以创建一个共鸣窗，以优美地放大声音。

5.The musician adjusted the placement of the speakers to ensure they were within the resonant window for optimal sound quality.

音乐家调整了扬声器的位置，以确保它们位于共鸣窗内，以获得最佳音质。

作文

In the realm of physics and engineering, the concept of a resonant window plays a crucial role in understanding how systems can respond to certain frequencies. A resonant window refers to a specific range of frequencies at which a system exhibits an amplified response due to resonance. This phenomenon occurs when the frequency of an external force matches the natural frequency of the system, resulting in increased amplitude of oscillations. For example, in musical instruments, the body of the instrument can serve as a resonant window, enhancing sound production when the musician plays at particular notes that align with the instrument's natural frequencies.The significance of a resonant window extends beyond music; it is also essential in various fields such as structural engineering, acoustics, and even quantum mechanics. In structural engineering, understanding the resonant window of a building can help architects design structures that withstand seismic activities. By identifying the frequencies that resonate with the building's materials, engineers can implement designs that minimize vibrations and potential damage during earthquakes.In acoustics, the resonant window is vital for creating spaces with optimal sound quality. Concert halls and theaters are often designed with careful consideration of their resonant windows to ensure that sound waves interact in a way that enhances the listening experience. This includes manipulating the shapes and materials used in construction to either amplify or dampen certain frequencies, allowing for a more balanced sound.Moreover, the resonant window concept finds applications in technology, particularly in the field of telecommunications. Engineers utilize resonant frequencies in designing antennas and filters that improve signal transmission and reception. By tuning these devices to operate within their resonant windows, they can achieve greater efficiency and performance, ultimately enhancing communication systems.On a broader scale, the idea of a resonant window can be metaphorically applied to various aspects of life. Just as physical systems have specific frequencies that resonate, individuals often find themselves in situations or environments that align with their personal frequencies—those moments when everything seems to click, and opportunities arise. This idea encourages individuals to seek out their own resonant windows in life, whether in career choices, relationships, or creative pursuits.In conclusion, the term resonant window encapsulates a fundamental principle that resonates across multiple disciplines. Whether in the context of sound, engineering, or personal experiences, recognizing and understanding resonant windows can lead to improved outcomes and enriched experiences. As we delve deeper into the science and applications of resonance, we uncover the profound impact that these concepts have on both our environment and our lives.

在物理和工程领域，共振窗口的概念在理解系统如何响应特定频率方面发挥着至关重要的作用。共振窗口指的是系统因共振而表现出增强响应的特定频率范围。当外部力的频率与系统的自然频率相匹配时，就会发生这种现象，从而导致振动幅度的增加。例如，在乐器中，乐器的主体可以作为共振窗口，在音乐家演奏与乐器自然频率对齐的特定音符时增强声音的产生。共振窗口的重要性不仅限于音乐；它在结构工程、声学甚至量子力学等多个领域也至关重要。在结构工程中，了解建筑的共振窗口可以帮助建筑师设计能够承受地震活动的结构。通过识别与建筑材料共振的频率，工程师可以实施设计，以最小化振动和潜在损害，从而在地震期间保护建筑。在声学中，共振窗口对于创造最佳音质的空间至关重要。音乐厅和剧院通常在设计时仔细考虑其共振窗口，以确保声波以增强听觉体验的方式相互作用。这包括操控建筑中使用的形状和材料，以放大或减弱某些频率，从而实现更平衡的声音。此外，共振窗口的概念也在技术领域找到了应用，尤其是在电信领域。工程师利用共振频率设计天线和滤波器，以改善信号的传输和接收。通过调整这些设备，使其在各自的共振窗口内运行，可以实现更高的效率和性能，从而增强通信系统。在更广泛的层面上，共振窗口的想法可以隐喻性地应用于生活的各个方面。正如物理系统具有特定的共振频率，个人常常发现自己处于与他们个人频率一致的情境或环境中——那些一切似乎都恰到好处、机会出现的时刻。这个想法鼓励个人在生活中寻找自己的共振窗口，无论是在职业选择、关系还是创造性追求中。总之，共振窗口这一术语概括了一个跨越多个学科的基本原则。无论是在声音、工程还是个人经历的背景下，识别和理解共振窗口可以带来更好的结果和丰富的体验。随着我们深入探讨共振的科学及其应用，我们揭示了这些概念对我们的环境和生活产生的深远影响。