amplitude fluctuation

简明释义

1. 振幅摆动; 2. 振幅波动;

英英释义

例句

1.The amplitude fluctuation 幅度波动 in the ocean waves can impact coastal erosion significantly.

海浪中的幅度波动会显著影响海岸侵蚀。

2.The engineers monitored the amplitude fluctuation 幅度波动 in the signal to ensure the system was functioning correctly.

工程师监测信号中的幅度波动以确保系统正常运行。

3.In audio engineering, amplitude fluctuation 幅度波动 can lead to distortion in sound quality.

在音频工程中，幅度波动可能导致声音质量失真。

4.The researchers studied the amplitude fluctuation 幅度波动 of the seismic waves during the earthquake.

研究人员研究了地震期间地震波的幅度波动。

5.During the experiment, we noticed a significant amplitude fluctuation 幅度波动 that affected our results.

在实验过程中，我们注意到显著的幅度波动，这影响了我们的结果。

作文

In the field of physics and engineering, the term amplitude fluctuation refers to the variations in the magnitude of a wave or signal over time. Understanding this concept is crucial for numerous applications, including telecommunications, audio engineering, and even seismic studies. When we talk about amplitude fluctuation (幅度波动), we are essentially discussing how the strength or intensity of a wave can change, which can significantly impact the information being transmitted or the quality of sound produced.Amplitude fluctuations can occur due to various factors, such as environmental changes, equipment malfunctions, or inherent properties of the medium through which the wave travels. For instance, in audio systems, fluctuations in amplitude can lead to distortion, affecting the clarity and quality of sound. Engineers must carefully design systems to minimize these fluctuations, ensuring that the output remains stable and reliable.Moreover, in telecommunications, amplitude fluctuation (幅度波动) can affect signal integrity. When signals travel over long distances, they may encounter obstacles or interference that cause their amplitude to vary. This can result in data loss or degradation of the signal quality. To combat this, technologies such as error correction codes and adaptive modulation are employed to maintain a consistent signal despite these fluctuations.In the realm of seismic studies, understanding amplitude fluctuation (幅度波动) is vital for interpreting data from earthquakes. The amplitude of seismic waves can provide crucial information about the earthquake's magnitude and depth. Researchers analyze these fluctuations to predict potential aftershocks and assess the overall impact of an earthquake on the surrounding area.The study of amplitude fluctuation (幅度波动) is not limited to these fields; it also extends to various branches of science and technology. In medical imaging, for example, fluctuations in signal amplitude can influence the quality of images produced by devices like MRI machines. Ensuring stable amplitude levels can lead to clearer images, aiding in accurate diagnoses.Furthermore, in the context of renewable energy, particularly wind and solar power, amplitude fluctuation (幅度波动) can pose challenges. The output from these sources is often variable due to changing weather conditions. Understanding and managing these fluctuations is essential for integrating renewable energy into the grid and ensuring a stable energy supply.In conclusion, amplitude fluctuation (幅度波动) is a fundamental concept that plays a significant role across various disciplines. Its implications are far-reaching, affecting everything from audio quality to earthquake analysis and renewable energy management. By studying these fluctuations, scientists and engineers can develop better systems and technologies that enhance performance and reliability, ultimately leading to advancements in our everyday lives. As we continue to explore and understand amplitude fluctuation (幅度波动), we open the door to innovations that can improve our world in countless ways.

在物理和工程领域，术语amplitude fluctuation指的是波或信号在时间上的幅度变化。理解这一概念对于许多应用至关重要，包括电信、音频工程甚至地震研究。当我们谈论amplitude fluctuation（幅度波动）时，我们实际上是在讨论波的强度或强度如何变化，这可能会对传输的信息或产生的声音质量产生重大影响。幅度波动可能由于各种因素而发生，例如环境变化、设备故障或波传播介质的固有特性。例如，在音频系统中，幅度的波动可能导致失真，从而影响声音的清晰度和质量。工程师必须仔细设计系统，以最小化这些波动，确保输出保持稳定可靠。此外，在电信中，amplitude fluctuation（幅度波动）可能会影响信号完整性。当信号在长距离传播时，它们可能会遇到障碍物或干扰，导致其幅度变化。这可能导致数据丢失或信号质量下降。为了解决这个问题，采用了错误纠正代码和自适应调制等技术，以保持尽管存在这些波动，信号仍然一致。在地震研究领域，理解amplitude fluctuation（幅度波动）对于解释地震数据至关重要。地震波的幅度可以提供有关地震规模和深度的重要信息。研究人员分析这些波动，以预测潜在的余震，并评估地震对周围地区的整体影响。对amplitude fluctuation（幅度波动）的研究并不限于这些领域；它还扩展到科学和技术的各个分支。在医学成像中，例如，信号幅度的波动可能会影响MRI机器等设备所产生图像的质量。确保稳定的幅度水平可以导致更清晰的图像，有助于准确诊断。此外，在可再生能源的背景下，特别是风能和太阳能，amplitude fluctuation（幅度波动）可能带来挑战。这些来源的输出通常由于天气条件变化而变化。理解和管理这些波动对于将可再生能源整合到电网中并确保稳定的能源供应至关重要。总之，amplitude fluctuation（幅度波动）是一个基本概念，在各个学科中发挥着重要作用。其影响广泛，影响从音频质量到地震分析及可再生能源管理等方方面面。通过研究这些波动，科学家和工程师可以开发出更好的系统和技术，提高性能和可靠性，最终推动我们日常生活的进步。随着我们继续探索和理解amplitude fluctuation（幅度波动），我们为改善世界的创新打开了大门，带来无数可能。