time of rudder movement

简明释义

转舵时间

英英释义

例句

1.The captain noted the time of rudder movement to ensure a smooth turn.

船长记录了舵机动作的时间以确保转弯顺畅。

2.Understanding the time of rudder movement is crucial for navigation safety.

理解舵机动作的时间对航行安全至关重要。

3.To avoid collisions, the crew monitored the time of rudder movement closely.

为了避免碰撞，船员们密切监测舵机动作的时间。

4.During the simulation, we analyzed the time of rudder movement to improve response times.

在模拟过程中，我们分析了舵机动作的时间以提高响应速度。

5.The engineer adjusted the settings based on the time of rudder movement observed during tests.

工程师根据测试中观察到的舵机动作的时间调整了设置。

作文

Navigating through the vast oceans is a task that requires precision, skill, and an understanding of various navigational elements. One of the critical factors that contribute to effective navigation is the time of rudder movement, which refers to the duration it takes for a ship's rudder to respond to commands and change the vessel's direction. This concept is not only essential for mariners but also has implications in other fields such as aviation and automotive engineering.When a captain decides to alter the course of a ship, they must consider the time of rudder movement. This time frame can vary based on several factors, including the size of the vessel, the speed at which it is traveling, and the current conditions of the water. For instance, larger ships generally have a longer time of rudder movement due to their mass and inertia. As a result, a captain must anticipate the response time required for the rudder to shift the ship’s direction effectively.Moreover, the time of rudder movement plays a significant role in ensuring the safety of navigation. In busy shipping lanes, where multiple vessels may be maneuvering simultaneously, a delayed response from the rudder can lead to dangerous situations. Therefore, understanding this time frame allows mariners to make informed decisions, ensuring that they have sufficient time to execute maneuvers without risking collisions with other vessels.In addition to safety, the time of rudder movement also impacts the efficiency of navigation. For example, a ship that can quickly adjust its course will be able to avoid obstacles and optimize its route, ultimately saving fuel and time. This efficiency is particularly crucial in commercial shipping, where delays can lead to significant financial losses. Hence, ship designers and engineers continually work on improving the responsiveness of rudders to minimize the time of rudder movement.The principles governing the time of rudder movement are not limited to maritime contexts. In aviation, pilots must also consider the time it takes for an aircraft's control surfaces to respond to their inputs. Similarly, in the automotive world, the responsiveness of a vehicle's steering system can greatly influence its handling and safety. In all these scenarios, the underlying concept remains the same: the quicker the response to directional changes, the safer and more efficient the operation.In conclusion, the time of rudder movement is a vital aspect of navigation that affects safety, efficiency, and overall performance across various modes of transport. By understanding and optimizing this time frame, mariners, pilots, and drivers can enhance their ability to navigate through complex environments, thereby reducing risks and improving operational outcomes. As technology advances, we can expect further innovations that will continue to refine our understanding of the time of rudder movement and its applications in navigation.

在广阔的海洋中航行是一项需要精确、技巧和对各种导航要素理解的任务。其中一个影响有效导航的关键因素是舵机动作时间，它指的是船舶舵头响应命令并改变船只方向所需的时间。这一概念不仅对水手至关重要，在航空和汽车工程等其他领域也有重要意义。当船长决定改变船舶航向时，必须考虑舵机动作时间。这个时间框架可能会根据几个因素而有所不同，包括船舶的大小、航行速度以及水域的当前状况。例如，较大的船通常由于其质量和惯性，具有更长的舵机动作时间。因此，船长必须预见到舵头调整船舶方向所需的反应时间。此外，舵机动作时间在确保航行安全方面也起着重要作用。在繁忙的航运通道中，多艘船只可能同时进行操控，舵头的延迟反应可能导致危险情况。因此，了解这一时间框架使水手能够做出明智的决策，确保他们有足够的时间执行操作，而不冒与其他船只相撞的风险。除了安全性，舵机动作时间还影响导航效率。例如，能够快速调整航向的船舶将能够避开障碍物并优化航线，从而最终节省燃料和时间。这种效率在商业航运中尤其重要，因为延误可能导致重大的经济损失。因此，船舶设计师和工程师不断努力提高舵头的响应能力，以最小化舵机动作时间。支配舵机动作时间的原理并不限于海事环境。在航空中，飞行员也必须考虑飞机控制面响应输入所需的时间。同样，在汽车世界中，车辆转向系统的响应能力可以极大地影响其操控性和安全性。在所有这些情况下，基本概念保持不变：对方向变化的响应越快，操作就越安全和高效。总之，舵机动作时间是导航的一个重要方面，影响着安全性、效率和各种交通工具的整体性能。通过理解和优化这一时间框架，水手、飞行员和司机能够增强他们在复杂环境中航行的能力，从而降低风险，提高操作结果。随着技术的进步，我们可以期待进一步的创新，继续细化我们对舵机动作时间及其在导航中的应用的理解。