resonance loss

简明释义

谐振损耗

英英释义

例句

1.Engineers must consider resonance loss (共振损失) when developing high-frequency communication systems.

工程师在开发高频通信系统时必须考虑resonance loss（共振损失）。

2.To improve efficiency, the team focused on reducing resonance loss (共振损失) in the audio system.

为了提高效率，团队专注于减少音频系统中的resonance loss（共振损失）。

3.During testing, we noticed a spike in resonance loss (共振损失) at certain frequencies.

在测试中，我们注意到在某些频率下出现了resonance loss（共振损失）的峰值。

4.The engineer explained that the high frequency of the circuit could lead to significant resonance loss (共振损失) if not properly managed.

工程师解释说，如果不妥善管理，电路的高频率可能会导致显著的resonance loss（共振损失）。

5.The design modifications helped minimize resonance loss (共振损失) in the new prototype.

设计修改帮助最小化了新原型中的resonance loss（共振损失）。

作文

In the realm of physics and engineering, the concept of resonance loss plays a crucial role in understanding how systems respond to external frequencies. Resonance occurs when an object or system is driven at its natural frequency, leading to an increase in amplitude. However, not all energy input results in constructive outcomes; some energy is lost in the process. This phenomenon is referred to as resonance loss (共振损失), which can significantly impact the efficiency of various applications, from mechanical systems to electrical circuits.To illustrate the importance of resonance loss (共振损失), consider the example of a swing. When you push a swing at just the right moment, it goes higher and higher due to the constructive interference of forces. However, if you push too hard or too late, some energy dissipates as sound or heat, resulting in a less effective swing motion. This wasted energy is akin to what we refer to as resonance loss (共振损失) in more complex systems.In the field of engineering, resonance loss (共振损失) can lead to failures in structures such as bridges and buildings. Engineers must carefully calculate the natural frequencies of these structures to avoid resonance with environmental forces like wind or earthquakes. If a building resonates with these forces, it could lead to catastrophic failures, resulting in significant resonance loss (共振损失) and ultimately endangering lives.In electronics, resonance loss (共振损失) is equally critical. In circuits, inductors and capacitors can resonate at specific frequencies, allowing for efficient signal processing. However, if the circuit experiences resonance loss (共振损失), the intended signals may weaken, leading to poor performance or even complete failure of the device. Designers must account for these losses to ensure that devices operate efficiently and reliably.Moreover, resonance loss (共振损失) is also a consideration in the field of acoustics. Musical instruments, for instance, rely on resonance to amplify sound. A well-tuned instrument resonates beautifully, producing rich tones. However, if there are flaws in the design or materials, resonance loss (共振损失) can occur, resulting in a dull sound that lacks the desired quality. Musicians and instrument makers strive to minimize this loss to achieve the best possible auditory experience.In conclusion, the concept of resonance loss (共振损失) is essential across various fields, highlighting the balance between energy input and output. Understanding how to manage and mitigate resonance loss (共振损失) can lead to more efficient systems, safer structures, and better-performing devices. As technology continues to advance, the implications of resonance loss (共振损失) will remain a critical area of study, influencing innovations in engineering, electronics, and beyond.

在物理和工程领域，共振损失的概念在理解系统如何响应外部频率方面发挥着至关重要的作用。共振发生在一个物体或系统以其自然频率驱动时，导致振幅增加。然而，并非所有能量输入都会产生建设性的结果；在此过程中会有一些能量损失。这个现象被称为共振损失，它可能显著影响各种应用的效率，从机械系统到电气电路。为了说明共振损失的重要性，考虑秋千的例子。当你在恰当的时刻推秋千时，由于力量的建设性干涉，它会越来越高。然而，如果你推得太用力或太晚，一些能量就会以声音或热量的形式散失，导致摆动效果不佳。这种浪费的能量类似于我们在更复杂的系统中所指的共振损失。在工程领域，共振损失可能导致桥梁和建筑物等结构的失败。工程师必须仔细计算这些结构的自然频率，以避免与风或地震等环境力量发生共振。如果一座建筑与这些力量发生共振，可能导致灾难性的失败，造成显著的共振损失，最终危及生命。在电子学中，共振损失同样至关重要。在电路中，电感器和电容器可以在特定频率下共振，从而实现高效的信号处理。然而，如果电路经历了共振损失，则预期的信号可能减弱，导致设备性能不佳甚至完全失效。设计人员必须考虑这些损失，以确保设备高效可靠地运行。此外，共振损失也是声学领域的一个考虑因素。例如，乐器依赖共振来放大声音。一件调音良好的乐器共振优美，产生丰富的音调。然而，如果设计或材料存在缺陷，就可能发生共振损失，导致声音沉闷，缺乏所需的质量。音乐家和乐器制造商努力减少这种损失，以获得最佳的听觉体验。总之，共振损失的概念在各个领域都至关重要，突显了能量输入和输出之间的平衡。了解如何管理和减少共振损失可以导致更高效的系统、更安全的结构和更高性能的设备。随着技术的不断进步，共振损失的影响将继续成为研究的关键领域，影响工程、电子学及其他领域的创新。