amplitude excursion

简明释义

振幅偏移

英英释义

例句

1.The amplitude excursion of the seismic waves indicated a strong earthquake.

地震波的幅度偏移表明发生了强烈地震。

2.The engineer measured the amplitude excursion to determine the signal's strength.

工程师测量了幅度偏移以确定信号的强度。

3.High amplitude excursion in the audio signal can lead to distortion.

音频信号中的高幅度偏移可能导致失真。

4.Monitoring the amplitude excursion is crucial for maintaining sound quality during live performances.

监测幅度偏移对于维持现场表演中的音质至关重要。

5.A sudden increase in amplitude excursion can signal a malfunction in the equipment.

突然增加的幅度偏移可能表示设备故障。

作文

In the field of physics and engineering, the term amplitude excursion refers to the maximum displacement or distance that a wave or oscillation reaches from its mean position. This concept is crucial in understanding various phenomena such as sound waves, electromagnetic waves, and mechanical vibrations. The amplitude excursion plays a significant role in determining the energy and intensity of these waves. For instance, in sound waves, a greater amplitude excursion results in louder sounds, while smaller excursions correspond to softer sounds. Similarly, in the context of mechanical systems, a larger amplitude excursion can indicate a more vigorous motion, which may lead to increased wear and tear on components over time.When analyzing waveforms, engineers often look at the amplitude excursion to assess the performance and stability of systems. For example, in electrical engineering, the amplitude excursion of a signal can affect the quality of data transmission. If the amplitude excursion is too high or too low, it can lead to distortion or loss of information, making it essential to maintain an optimal range for effective communication.In addition to its applications in engineering, the concept of amplitude excursion can also be found in various scientific fields, including seismology. Seismologists study the amplitude excursion of seismic waves to understand the magnitude and impact of earthquakes. A significant amplitude excursion in seismic readings typically indicates a powerful earthquake, which can have devastating effects on infrastructure and communities.The implications of amplitude excursion extend beyond just physical measurements; they also influence design considerations. Engineers must account for the potential amplitude excursion when designing structures, machines, and electronic devices. For example, in the construction of bridges and buildings, understanding the expected amplitude excursion due to wind, seismic activity, or other dynamic forces is vital to ensure safety and integrity.Moreover, in the realm of audio engineering, the amplitude excursion of speakers and microphones is a critical factor in sound reproduction. Audio engineers carefully analyze the amplitude excursion to ensure that sound systems can handle the desired volume levels without distortion. This analysis helps in creating high-fidelity audio experiences that are pleasing to the listener.In conclusion, the term amplitude excursion encompasses a wide range of applications across different fields, from physics and engineering to environmental science. Understanding the significance of amplitude excursion allows professionals to design better systems, improve performance, and predict outcomes in various scenarios. As technology advances, the study of amplitude excursion will continue to be a fundamental aspect of research and development, driving innovation and enhancing our understanding of the natural world. By grasping this concept, we can appreciate the intricate dynamics at play in both simple and complex systems, ultimately leading to improved designs and safer environments for all.

在物理和工程领域，术语幅度偏移指的是波动或振动从其平均位置达到的最大位移或距离。这个概念对于理解声波、电磁波和机械振动等各种现象至关重要。幅度偏移在确定这些波的能量和强度方面发挥着重要作用。例如，在声波中，更大的幅度偏移会导致更响亮的声音，而较小的偏移对应于较柔和的声音。同样，在机械系统的上下文中，更大的幅度偏移可能表示更剧烈的运动，这可能会导致组件随着时间的推移而增加磨损。在分析波形时，工程师通常会查看幅度偏移以评估系统的性能和稳定性。例如，在电气工程中，信号的幅度偏移可以影响数据传输的质量。如果幅度偏移过高或过低，可能会导致失真或信息丢失，因此保持最佳范围对于有效沟通至关重要。除了在工程中的应用外，幅度偏移的概念也可以在包括地震学在内的各种科学领域中找到。地震学家研究地震波的幅度偏移以了解地震的规模和影响。地震读数中的显著幅度偏移通常表明强烈的地震，这可能对基础设施和社区造成毁灭性的影响。幅度偏移的影响超越了物理测量；它们也影响设计考虑。工程师必须在设计结构、机器和电子设备时考虑潜在的幅度偏移。例如，在桥梁和建筑物的建设中，理解由于风、地震活动或其他动态力量导致的预期幅度偏移对于确保安全和完整性至关重要。此外，在音频工程领域，扬声器和麦克风的幅度偏移是声音再现的关键因素。音频工程师仔细分析幅度偏移以确保音响系统能够处理所需的音量水平而不失真。这种分析有助于创建高保真的音频体验，使听众感到愉悦。总之，术语幅度偏移涵盖了不同领域的广泛应用，从物理学和工程学到环境科学。理解幅度偏移的重要性使专业人士能够设计更好的系统、提高性能并预测各种场景中的结果。随着技术的发展，对幅度偏移的研究将继续成为研究和开发的基本方面，推动创新并增强我们对自然世界的理解。通过掌握这一概念，我们可以欣赏简单和复杂系统中所涉及的复杂动态，最终为所有人创造更好的设计和更安全的环境。