assumed longitudinal extent of damage

简明释义

假定纵向破损范围

英英释义

例句

1.To ensure safety, the assumed longitudinal extent of damage 假设的损坏纵向范围 must be accurately measured before any construction work.

为了确保安全，必须在任何施工工作之前准确测量假设的损坏纵向范围。

2.The engineers calculated the assumed longitudinal extent of damage 假设的损坏纵向范围 after the earthquake to assess the structural integrity.

在地震后，工程师计算了假设的损坏纵向范围以评估结构的完整性。

3.During the assessment, the team discussed the assumed longitudinal extent of damage 假设的损坏纵向范围 caused by the flood.

在评估过程中，团队讨论了洪水造成的假设的损坏纵向范围。

4.In the report, the assumed longitudinal extent of damage 假设的损坏纵向范围 was outlined to help prioritize repairs.

在报告中，概述了假设的损坏纵向范围以帮助优先安排维修。

5.The insurance adjuster needed to determine the assumed longitudinal extent of damage 假设的损坏纵向范围 for the claim evaluation.

保险理算师需要确定索赔评估的假设的损坏纵向范围。

作文

In the field of engineering and environmental science, understanding the impact of various factors on structures and ecosystems is crucial for effective management and mitigation strategies. One of the key concepts that often arises in these discussions is the assumed longitudinal extent of damage, which refers to the anticipated range or scope of damage along a particular axis or direction due to external influences such as natural disasters, human activities, or structural failures. This term becomes particularly significant when assessing the potential risks associated with infrastructure, urban planning, and environmental conservation.When we analyze the assumed longitudinal extent of damage, we must consider several variables that can influence the severity and reach of damage. For instance, in the case of an earthquake, the intensity of the seismic waves can vary greatly depending on the geological characteristics of the area. This means that the assumed longitudinal extent of damage may differ significantly from one location to another. Engineers and scientists utilize advanced modeling techniques to predict how far the damage might extend, allowing for better preparedness and response strategies.Moreover, the assumed longitudinal extent of damage is not limited to physical structures; it can also apply to ecological systems. For example, when a toxic spill occurs in a river, the damage is not confined to the immediate vicinity of the spill. Instead, the contaminants can travel downstream, affecting a much larger area than initially expected. By understanding the assumed longitudinal extent of damage, environmentalists can devise more effective cleanup and restoration plans, minimizing the long-term impact on the ecosystem.Another important aspect to consider is the role of technology in assessing the assumed longitudinal extent of damage. With the advent of satellite imagery and remote sensing, researchers can now monitor changes in landscapes and structures over time. This technology enables them to gather data on how damage propagates longitudinally, providing insights that were previously difficult to obtain. For instance, after a hurricane, satellite images can reveal the extent of flooding and destruction, helping authorities allocate resources where they are needed most.In conclusion, the concept of assumed longitudinal extent of damage is vital in various fields, including engineering, environmental science, and disaster management. By accurately predicting the range of damage, professionals can implement more effective strategies to mitigate risks and protect both human life and the environment. As we continue to face challenges posed by climate change, urbanization, and other factors, a thorough understanding of this concept will be essential for creating resilient communities and sustainable ecosystems.

在工程和环境科学领域，理解各种因素对结构和生态系统的影响对于有效的管理和缓解策略至关重要。在这些讨论中，常常出现的一个关键概念是假定的纵向损害范围，它指的是由于自然灾害、人类活动或结构故障等外部影响，沿特定轴线或方向预期的损害范围或范围。当评估与基础设施、城市规划和环境保护相关的潜在风险时，这个术语变得尤为重要。当我们分析假定的纵向损害范围时，必须考虑几种可能影响损害严重程度和范围的变量。例如，在地震的情况下，地震波的强度可能会因区域的地质特征而大相径庭。这意味着假定的纵向损害范围可能在不同地点之间显著不同。工程师和科学家利用先进的建模技术来预测损害可能扩展的范围，从而允许更好的准备和响应策略。此外，假定的纵向损害范围不仅限于物理结构；它也适用于生态系统。例如，当河流中发生有毒泄漏时，损害并不局限于泄漏的直接附近。相反，污染物可以顺流而下，影响到比最初预期的更大区域。通过理解假定的纵向损害范围，环保人士可以制定更有效的清理和恢复计划，尽量减少对生态系统的长期影响。另一个需要考虑的重要方面是技术在评估假定的纵向损害范围中的作用。随着卫星图像和遥感技术的出现，研究人员现在可以监测随时间变化的景观和结构。这项技术使他们能够收集有关损害如何纵向传播的数据，提供以前难以获得的见解。例如，在飓风过后，卫星图像可以揭示洪水和破坏的范围，帮助当局将资源分配到最需要的地方。总之，假定的纵向损害范围的概念在工程、环境科学和灾难管理等多个领域至关重要。通过准确预测损害的范围，专业人员可以实施更有效的策略来减轻风险，保护人类生命和环境。随着我们继续面临气候变化、城市化和其他因素带来的挑战，深入理解这一概念对于创建具有韧性的社区和可持续的生态系统将是必不可少的。