static disturbances

简明释义

静电干扰

英英释义

例句

1.In the lab, we noticed that static disturbances 静态干扰 were causing inaccurate readings on the sensor.

在实验室，我们注意到静态干扰导致传感器的读数不准确。

2.The engineer identified the static disturbances 静态干扰 affecting the performance of the circuit.

工程师识别出影响电路性能的静态干扰。

3.During the experiment, static disturbances 静态干扰 led to unexpected results.

在实验过程中，静态干扰导致了意外结果。

4.The software was updated to filter out static disturbances 静态干扰 from the data collected.

软件已更新，以过滤收集到的数据中的静态干扰。

5.To minimize static disturbances 静态干扰, we implemented better grounding techniques.

为了最小化静态干扰，我们实施了更好的接地技术。

作文

In the realm of physics and engineering, the concept of static disturbances plays a crucial role in understanding how systems respond to various forces. Essentially, static disturbances refer to changes in a system that occur without any motion or dynamic effects. These disturbances can arise from external factors such as environmental conditions, material properties, or even human intervention. For instance, consider a bridge subjected to wind pressure or temperature fluctuations; these factors can lead to static disturbances that affect the structural integrity of the bridge over time.When analyzing static disturbances, engineers often employ mathematical models to predict how structures will behave under different conditions. This predictive capability is essential for ensuring safety and reliability in construction and design. For example, when designing a skyscraper, architects must account for static disturbances caused by wind loads, seismic activity, and even the weight of the building materials themselves. By understanding these forces, they can create designs that withstand potential failures.Moreover, static disturbances are not limited to large-scale structures. They can also be observed in smaller systems, such as electronic circuits. In electronics, static disturbances might manifest as voltage fluctuations that can disrupt the normal functioning of devices. Engineers must therefore implement measures to mitigate these disturbances, ensuring that electronic systems operate smoothly and efficiently.The significance of static disturbances extends beyond engineering; it also has applications in environmental science. For instance, scientists studying ecosystems must consider how various factors can cause static disturbances in habitats. Changes in temperature, pollution levels, or land use can lead to shifts in species distribution and biodiversity. Understanding these disturbances is vital for conservation efforts and for maintaining ecological balance.In conclusion, the study of static disturbances is an interdisciplinary endeavor that encompasses physics, engineering, electronics, and environmental science. By comprehensively understanding how these disturbances impact systems, we can develop better designs, improve safety standards, and create more resilient infrastructures. As our world becomes increasingly complex, the ability to analyze and respond to static disturbances will be paramount in ensuring sustainable development and technological advancement.

在物理和工程领域，静态干扰的概念在理解系统如何响应各种力方面起着至关重要的作用。基本上，静态干扰指的是在没有任何运动或动态效应的情况下发生的系统变化。这些干扰可能源于外部因素，例如环境条件、材料特性，甚至人类干预。例如，考虑一座受到风压或温度波动影响的桥；这些因素可能导致影响桥梁结构完整性的静态干扰。在分析静态干扰时，工程师通常会使用数学模型来预测结构在不同条件下的行为。这种预测能力对于确保建筑和设计的安全性和可靠性至关重要。例如，在设计摩天大楼时，建筑师必须考虑由风荷载、地震活动甚至建筑材料自身重量引起的静态干扰。通过理解这些力量，他们可以创建能抵御潜在故障的设计。此外，静态干扰并不仅限于大型结构。在较小的系统中也可以观察到这些现象，例如电子电路。在电子学中，静态干扰可能表现为电压波动，这可能会干扰设备的正常运行。因此，工程师必须采取措施来减轻这些干扰，确保电子系统平稳高效地运行。静态干扰的重要性不仅限于工程；它在环境科学中也有应用。例如，研究生态系统的科学家必须考虑各种因素如何导致栖息地中的静态干扰。温度变化、污染水平或土地利用的变化可能导致物种分布和生物多样性的变化。理解这些干扰对于保护工作和维持生态平衡至关重要。总之，静态干扰的研究是一项跨学科的努力，涵盖了物理学、工程学、电子学和环境科学。通过全面理解这些干扰对系统的影响，我们可以开发更好的设计，提高安全标准，并创造更具韧性的基础设施。随着我们的世界变得越来越复杂，分析和应对静态干扰的能力将在确保可持续发展和技术进步方面发挥关键作用。