vertical displacement

简明释义

垂直变位

英英释义

例句

1.In geology, measuring the vertical displacement 垂直位移 of tectonic plates helps predict earthquakes.

在地质学中，测量构造板块的垂直位移 垂直位移有助于预测地震。

2.The construction team must account for vertical displacement 垂直位移 when designing the foundation.

施工团队在设计基础时必须考虑垂直位移 垂直位移。

3.During the experiment, we observed a significant vertical displacement 垂直位移 of the pendulum.

在实验中，我们观察到摆的显著垂直位移 垂直位移。

4.The engineer calculated the vertical displacement 垂直位移 of the bridge under load to ensure its safety.

工程师计算了桥梁在负载下的垂直位移 垂直位移以确保其安全性。

5.The vertical displacement 垂直位移 of the water level in the reservoir is monitored daily.

水库水位的垂直位移 垂直位移每天都在监测。

作文

In the study of physics and engineering, the term vertical displacement refers to the distance an object moves in a vertical direction from its original position. This concept is crucial in various fields, including mechanics, civil engineering, and even architecture. Understanding vertical displacement allows engineers and architects to design structures that can withstand forces such as gravity and wind, ensuring safety and stability.For instance, when analyzing the motion of a pendulum, we observe that it swings back and forth, changing its height with each movement. The maximum height reached by the pendulum can be described using vertical displacement. If the pendulum starts at a certain height and swings to a peak height that is higher or lower than the starting point, the difference in height represents its vertical displacement. This measurement is essential for calculating the potential energy of the pendulum at different points in its swing.In civil engineering, vertical displacement is often used to assess the stability of structures like bridges and buildings. Engineers need to ensure that these structures can handle various loads without experiencing excessive movement. For example, if a building settles unevenly due to soil erosion or poor foundation work, the vertical displacement can indicate potential structural issues. By measuring this displacement, engineers can determine whether repairs are necessary to prevent further damage or collapse.Moreover, vertical displacement plays a significant role in geophysics, particularly in understanding tectonic movements. Earthquakes can cause shifts in the Earth's crust, leading to vertical displacements that can dramatically alter landscapes. Scientists use instruments to measure these displacements to predict future seismic activity and assess the risks associated with living in earthquake-prone areas. By studying patterns of vertical displacement, researchers can develop better building codes and safety protocols to protect communities from natural disasters.In the realm of sports, vertical displacement is also relevant. Athletes, particularly in disciplines such as high jumping or pole vaulting, aim to maximize their vertical displacement to achieve greater heights. Coaches analyze the techniques used by athletes to optimize their performance, focusing on how they can increase their vertical displacement through improved form and strength training.In conclusion, the concept of vertical displacement is integral to various domains, from physics to engineering and even sports. It helps us understand how objects move in relation to gravity and provides critical insights into the stability and safety of structures. By grasping the significance of vertical displacement, we can apply this knowledge in practical situations, enhancing our designs and improving our understanding of the physical world around us. Whether in the context of a swinging pendulum, a towering skyscraper, or an athlete's leap, vertical displacement remains a fundamental principle that underpins many aspects of our lives.

在物理和工程学的研究中，术语vertical displacement指的是一个物体从其原始位置在垂直方向上移动的距离。这个概念在多个领域中至关重要，包括力学、土木工程甚至建筑学。理解vertical displacement使工程师和建筑师能够设计能够承受重力和风等力量的结构，确保安全和稳定。例如，在分析摆的运动时，我们观察到它前后摆动，每次移动都会改变高度。摆所达到的最大高度可以用vertical displacement来描述。如果摆从某个高度开始摆动，达到比起始点更高或更低的峰值高度，则高度差表示其vertical displacement。这一测量对于计算摆在不同摆动点的势能至关重要。在土木工程中，vertical displacement常用于评估桥梁和建筑物等结构的稳定性。工程师需要确保这些结构能够承受各种载荷，而不会经历过度运动。例如，如果一座建筑由于土壤侵蚀或基础工作不良而不均匀沉降，vertical displacement可以指示潜在的结构问题。通过测量这种位移，工程师可以确定是否需要进行修复，以防止进一步的损坏或倒塌。此外，vertical displacement在地球物理学中也起着重要作用，尤其是在理解构造运动方面。地震可能导致地壳的移动，导致垂直位移，这可以显著改变地貌。科学家使用仪器来测量这些位移，以预测未来的地震活动，并评估生活在易发生地震地区的风险。通过研究vertical displacement的模式，研究人员可以制定更好的建筑规范和安全协议，以保护社区免受自然灾害。在体育领域，vertical displacement同样重要。运动员，特别是在跳高或撑杆跳等项目中，旨在最大化他们的垂直位移以达到更大的高度。教练分析运动员的技术，以优化他们的表现，专注于如何通过改善姿势和力量训练来增加他们的vertical displacement。总之，vertical displacement的概念在多个领域中是不可或缺的，从物理学到工程学甚至体育。它帮助我们理解物体如何相对于重力移动，并为结构的稳定性和安全性提供关键见解。通过掌握vertical displacement的重要性，我们可以将这一知识应用于实际情况，增强我们的设计并改善我们对周围物理世界的理解。无论是在摆动的摆、巍峨的摩天大楼还是运动员的跳跃中，vertical displacement始终是支撑我们生活许多方面的基本原则。