amplitude excursion

简明释义

振幅偏移

英英释义

例句

1.The engineer measured the amplitude excursion to determine the signal strength in the circuit.

工程师测量了幅度偏移以确定电路中的信号强度。

2.To avoid damage, the system was designed to limit the amplitude excursion of the vibrations.

为了避免损坏，系统设计为限制振动的幅度偏移。

3.The technician adjusted the settings to minimize the amplitude excursion in the seismic readings.

技术人员调整设置，以最小化地震读数中的幅度偏移。

4.The data showed a significant amplitude excursion during the storm, indicating strong winds.

数据显示，在暴风雨期间出现了显著的幅度偏移，这表明风速很强。

5.In audio processing, excessive amplitude excursion can lead to distortion.

在音频处理中，过度的幅度偏移可能导致失真。

作文

In the realm of physics and engineering, the term amplitude excursion refers to the maximum extent of a vibration or oscillation, measured from the position of equilibrium. This concept is crucial in various fields, including sound engineering, seismic studies, and even in the design of mechanical systems. Understanding amplitude excursion can significantly impact how we approach problems related to waveforms and their effects on structures and materials.One of the most common applications of amplitude excursion is in the field of acoustics. For instance, when designing concert halls, engineers must consider how sound waves travel and interact with the environment. The amplitude excursion of sound waves determines how loud a sound can be at a given distance from the source. If the amplitude is too high, it may lead to distortion or damage to hearing. Conversely, if the amplitude is too low, the sound may not carry effectively, leading to a poor auditory experience for the audience.In the context of earthquakes, amplitude excursion plays a pivotal role in understanding how seismic waves propagate through the Earth’s crust. Geologists and seismologists analyze the amplitude excursion of these waves to assess the potential damage that an earthquake could cause. By measuring the amplitude of seismic waves, scientists can predict the intensity of shaking that buildings and infrastructure might experience. This information is vital for urban planning and disaster preparedness, as it helps in designing structures that can withstand significant tremors.Furthermore, in mechanical engineering, the concept of amplitude excursion is essential for analyzing vibrations in machinery. Machines operate with various moving parts, and each part has a specific range of motion. Engineers must ensure that the amplitude excursion of these movements does not exceed safe limits to prevent mechanical failure. For example, in rotating machinery, excessive amplitude can lead to wear and tear, ultimately resulting in costly repairs and downtime. Therefore, monitoring and controlling amplitude excursion is a critical aspect of maintaining operational efficiency and safety.The importance of understanding amplitude excursion extends beyond technical fields; it also finds relevance in music and art. Musicians often manipulate the amplitude of sound to create dynamics in their performances. The variation in amplitude excursion can evoke different emotions and responses from the audience. Similarly, visual artists may explore the concept of amplitude in their work, using size and scale to convey meaning and impact.In conclusion, the term amplitude excursion encompasses a broad range of applications across multiple disciplines. From acoustics to geology and mechanical engineering, understanding this concept is fundamental to innovation and safety. As technology advances, the ability to measure and control amplitude excursion will become increasingly important, paving the way for new discoveries and improvements in various fields. Embracing this knowledge allows us to harness the power of oscillations and vibrations, ultimately enhancing our ability to design, create, and understand the world around us.

在物理和工程领域，术语幅度偏移指的是振动或振荡的最大范围，从平衡位置测量。这一概念在多个领域至关重要，包括声音工程、地震研究，甚至机械系统的设计。理解幅度偏移可以显著影响我们处理与波形及其对结构和材料影响相关的问题的方法。幅度偏移最常见的应用之一是在声学领域。例如，在设计音乐厅时，工程师必须考虑声波如何传播并与环境相互作用。声波的幅度偏移决定了在距离声源一定距离处声音的响度。如果幅度过高，可能导致失真或听力损伤。相反，如果幅度过低，声音可能无法有效传播，导致观众的听觉体验不佳。在地震的背景下，幅度偏移在理解地震波如何通过地球地壳传播方面发挥着关键作用。地质学家和地震学家分析这些波的幅度偏移以评估地震可能造成的损害。通过测量地震波的幅度，科学家可以预测建筑物和基础设施可能经历的摇晃强度。这些信息对于城市规划和灾害准备至关重要，因为它有助于设计能够抵御重大震动的结构。此外，在机械工程中，幅度偏移的概念对于分析机械中的振动至关重要。机器由各种运动部件组成，每个部件都有特定的运动范围。工程师必须确保这些运动的幅度偏移不会超过安全限制，以防止机械故障。例如，在旋转机械中，过大的幅度可能导致磨损，最终导致昂贵的维修和停机。因此，监测和控制幅度偏移是维护操作效率和安全性的关键方面。理解幅度偏移的重要性不仅限于技术领域；它在音乐和艺术中也具有相关性。音乐家经常操控声音的幅度来创造表演的动态变化。幅度偏移的变化可以激发观众不同的情感和反应。同样，视觉艺术家可能会在他们的作品中探索幅度的概念，利用大小和比例来传达意义和影响。总之，术语幅度偏移涵盖了多个学科广泛的应用。从声学到地质学和机械工程，理解这一概念对于创新和安全至关重要。随着技术的进步，测量和控制幅度偏移的能力将变得越来越重要，为各个领域的新发现和改进铺平道路。掌握这一知识使我们能够利用振荡和振动的力量，最终增强我们设计、创造和理解周围世界的能力。