actual displacement

简明释义

实际排水量

英英释义

例句

1.In physics, actual displacement refers to the shortest distance from the initial to the final position.

在物理学中，实际位移是指从初始位置到最终位置的最短距离。

2.The surveyor measured the actual displacement of the land after the earthquake to assess the damage.

测量员在地震后测量了土地的实际位移以评估损害。

3.The engineer calculated the actual displacement of the beam under load to ensure it met safety standards.

工程师计算了梁在载荷下的实际位移以确保其符合安全标准。

4.During the experiment, we recorded the actual displacement of the object as it moved through the water.

在实验过程中，我们记录了物体在水中移动时的实际位移。

5.The robot's movement was programmed to account for actual displacement to improve its accuracy.

机器人的运动程序考虑了实际位移以提高其准确性。

作文

In the field of physics and engineering, understanding the concept of actual displacement is crucial for analyzing motion and designing structures. Actual displacement refers to the shortest distance between the initial and final positions of an object, taking into account the direction of movement. This concept is distinct from distance traveled, which measures the total path length regardless of direction. For example, if a car travels in a circular path and returns to its starting point, the actual displacement is zero, even though the distance traveled may be significant.In practical applications, engineers often need to consider actual displacement when designing systems that involve movement. For instance, in robotics, the efficiency of a robot's movement can be greatly affected by its actual displacement. If a robot needs to move from one point to another, understanding the actual displacement helps in optimizing its path, thereby saving time and energy. Additionally, in civil engineering, the actual displacement of structures under load is critical for ensuring stability and safety. Engineers must calculate how much a bridge or building will shift under various conditions to prevent structural failure.Moreover, actual displacement plays a significant role in sports science. Athletes often track their movements to improve performance, and understanding their actual displacement can help coaches design better training programs. For example, a sprinter's actual displacement during a race can indicate how effectively they are utilizing their energy. By analyzing this data, coaches can provide feedback on technique and strategy, ultimately leading to improved performance.In addition to its applications in engineering and sports, actual displacement also has implications in other fields such as geography and environmental science. For instance, when studying the migration patterns of animals, researchers may examine the actual displacement of species over time to understand their behavior and habitat preferences. This information can be vital for conservation efforts, as it helps identify critical habitats that need protection.In conclusion, the concept of actual displacement is essential across various disciplines, including physics, engineering, sports science, and environmental studies. By focusing on the shortest distance between two points, we gain valuable insights that can lead to more efficient designs, improved athletic performance, and better understanding of ecological patterns. As we continue to explore the complexities of motion and displacement, the importance of actual displacement will only become more apparent, emphasizing the need for precise measurements and analyses in our increasingly dynamic world.

在物理和工程领域，理解“实际位移”的概念对于分析运动和设计结构至关重要。“实际位移”是指物体初始位置和最终位置之间的最短距离，同时考虑到运动的方向。这个概念与行驶的总距离不同，后者测量的是总路径长度，而不考虑方向。例如，如果一辆车沿着圆形路径行驶并返回起点，则其“实际位移”为零，即使行驶的总距离可能很大。在实际应用中，工程师在设计涉及运动的系统时，常常需要考虑“实际位移”。例如，在机器人技术中，机器人的运动效率可能会受到其“实际位移”的极大影响。如果一台机器人需要从一个点移动到另一个点，理解“实际位移”有助于优化其路径，从而节省时间和能源。此外，在土木工程中，结构在载荷下的“实际位移”对于确保稳定性和安全性至关重要。工程师必须计算桥梁或建筑在各种条件下将如何移动，以防止结构失效。此外，“实际位移”在运动科学中也发挥着重要作用。运动员通常跟踪他们的运动以提高表现，理解他们的“实际位移”可以帮助教练设计更好的训练计划。例如，短跑运动员在比赛中的“实际位移”可以指示他们如何有效利用能量。通过分析这些数据，教练可以提供关于技术和策略的反馈，最终导致表现的提升。除了在工程和体育中的应用外，“实际位移”在地理和环境科学等其他领域也有影响。例如，在研究动物迁徙模式时，研究人员可能会检查物种随时间的“实际位移”，以了解它们的行为和栖息地偏好。这些信息对于保护工作至关重要，因为它有助于识别需要保护的关键栖息地。总之，“实际位移”的概念在物理、工程、运动科学和环境研究等各个学科中都是必不可少的。通过关注两点之间的最短距离，我们获得了宝贵的见解，这可以导致更高效的设计、更好的运动表现以及对生态模式的更好理解。随着我们继续探索运动和位移的复杂性，“实际位移”的重要性将变得更加明显，强调了在我们日益动态的世界中进行精确测量和分析的必要性。