resonance peak

简明释义

谐振峰

英英释义

例句

1.The scientist observed a significant increase in amplitude at the resonance peak (共振峰) during the experiment.

科学家在实验中观察到在共振峰（resonance peak）时幅度显著增加。

2.To enhance the signal, engineers focused on tuning the system to match the resonance peak (共振峰).

为了增强信号，工程师们专注于将系统调谐到与共振峰（resonance peak）匹配。

3.In the acoustic analysis, the resonance peak (共振峰) indicated the frequency at which the material vibrated most efficiently.

在声学分析中，共振峰（resonance peak）指示了材料最有效振动的频率。

4.The resonance peak (共振峰) in the graph clearly shows the optimal operating frequency for the device.

图中的共振峰（resonance peak）清楚地显示了设备的最佳工作频率。

5.During the tests, the researchers noted that the resonance peak (共振峰) shifted as the temperature changed.

在测试过程中，研究人员注意到随着温度变化，共振峰（resonance peak）发生了偏移。

作文

In the field of physics and engineering, the term resonance peak refers to a specific frequency at which a system exhibits maximum amplitude of oscillation. This phenomenon occurs when the frequency of an external force matches the natural frequency of the system, leading to a significant increase in energy absorption. Understanding resonance peak is crucial in various applications, ranging from musical instruments to structural engineering. For instance, in musical acoustics, the resonance peak of a violin defines its unique sound quality. When a violinist plays a note, the vibrations produced resonate at certain frequencies, creating a rich and full tone that is characteristic of the instrument. The resonance peak enhances these vibrations, allowing them to be heard more clearly and powerfully.In structural engineering, resonance peak is a critical consideration when designing buildings and bridges. Engineers must ensure that the natural frequency of these structures does not coincide with the frequencies of potential external forces, such as wind or seismic activity. If a building experiences a resonance peak due to an earthquake, it could lead to catastrophic failures. Therefore, understanding the concept of resonance peak allows engineers to create safer and more resilient structures.Moreover, the concept of resonance peak extends beyond physical systems; it can also be applied in fields like electronics and signal processing. For example, in radio communications, antennas are designed to operate at specific frequencies to maximize signal strength. The resonance peak in this context represents the frequency at which the antenna can effectively transmit or receive signals, ensuring clear communication.In conclusion, the resonance peak is a fundamental concept that appears in various domains of science and technology. Its implications are vast, affecting everything from the music we enjoy to the safety of the buildings we inhabit. By studying and understanding resonance peak, we can harness its power to improve our technologies and enhance our daily lives. As we continue to explore the intricacies of resonance in different contexts, we uncover new applications and innovations that leverage this fascinating phenomenon, ultimately contributing to advancements in multiple fields. The importance of recognizing and utilizing resonance peak cannot be overstated, as it plays a pivotal role in both theoretical research and practical applications.

在物理和工程领域，术语共振峰指的是系统在特定频率下表现出最大振幅的现象。当外部力的频率与系统的自然频率相匹配时，这种现象就会发生，从而导致能量吸收显著增加。理解共振峰在各种应用中至关重要，从乐器到结构工程。例如，在音乐声学中，小提琴的共振峰定义了其独特的音质。当小提琴手演奏一个音符时，产生的振动在某些频率上共振，创造出丰富而饱满的音调，这是该乐器的特征。共振峰增强了这些振动，使它们更清晰、更有力地被听到。在结构工程中，共振峰是设计建筑物和桥梁时的关键考虑因素。工程师必须确保这些结构的自然频率与潜在外部力量的频率（如风或地震活动）不重合。如果建筑因地震经历了共振峰，可能会导致灾难性的失败。因此，理解共振峰的概念使工程师能够创建更安全、更具韧性的结构。此外，共振峰的概念不仅限于物理系统；它还可以应用于电子学和信号处理等领域。例如，在无线电通信中，天线被设计为在特定频率下工作，以最大化信号强度。在这种情况下，共振峰代表了天线有效传输或接收信号的频率，从而确保清晰的通信。总之，共振峰是一个基本概念，出现在科学和技术的多个领域。它的影响广泛，影响着我们所享受的音乐以及我们居住建筑的安全性。通过研究和理解共振峰，我们可以利用其力量来改善我们的技术并增强我们的日常生活。随着我们继续探索不同背景下的共振复杂性，我们发现新的应用和创新，利用这一迷人现象，最终促进多个领域的进步。认识和利用共振峰的重要性不容低估，因为它在理论研究和实际应用中发挥着关键作用。