minimum steady speed
简明释义
最低稳定转速
英英释义
The lowest constant speed at which a vehicle or object can operate without losing stability or control. | 一个车辆或物体可以在不失去稳定性或控制的情况下运行的最低恒定速度。 |
例句
1.In racing, each car has a minimum steady speed 最低稳定速度 that it must achieve to qualify for the next round.
在赛车中,每辆车必须达到
2.The ship's engine is designed to operate at a minimum steady speed 最低稳定速度 for optimal fuel efficiency.
船舶的发动机设计为在
3.The pilot must maintain a minimum steady speed 最低稳定速度 during the approach to ensure safe landing.
飞行员在着陆过程中必须保持
4.During the test flight, the aircraft was required to maintain a minimum steady speed 最低稳定速度 to assess its stability.
在试飞过程中,飞机被要求保持
5.To prevent stalling, drivers should be aware of the vehicle's minimum steady speed 最低稳定速度 on steep inclines.
为了防止失速,驾驶员应了解车辆在陡坡上的
作文
In the realm of physics and engineering, the term minimum steady speed refers to the lowest constant speed that an object can maintain while performing a specific task or function without experiencing any form of failure or instability. This concept is particularly significant in fields such as aviation, automotive engineering, and even robotics. Understanding the minimum steady speed is crucial for ensuring safety, efficiency, and optimal performance in various applications.For instance, in aviation, every aircraft has a designated minimum steady speed known as the stall speed. This is the speed below which the aircraft cannot maintain level flight, leading to a loss of lift and potential stall. Pilots are trained to be aware of this critical speed to ensure they do not operate the aircraft below it during flight maneuvers. Maintaining a speed above the stall speed allows pilots to have better control over the aircraft, especially during takeoff and landing phases when the margin for error is minimal.Similarly, in automotive engineering, the minimum steady speed plays a vital role in vehicle performance. Each vehicle has a specific speed at which it can operate efficiently without stalling or losing power. For example, when driving on a highway, maintaining a speed above the minimum steady speed ensures that the engine runs smoothly and efficiently, minimizing fuel consumption and maximizing performance. If a vehicle drops below this speed, it may struggle to accelerate or respond adequately to driver inputs, which can lead to dangerous situations, especially in heavy traffic.Robotics also heavily relies on the concept of minimum steady speed. Robots designed for specific tasks, such as assembly line automation or autonomous vehicles, must have a defined minimum steady speed to perform their functions effectively. If a robot operates below this speed, it may not complete tasks within the required time frame, leading to inefficiencies and potential errors in operation. Therefore, engineers must carefully calculate the minimum steady speed for each robotic application to ensure optimal performance and reliability.Moreover, understanding the minimum steady speed is not only essential for the design and operation of vehicles and machines but also for environmental considerations. For instance, operating at lower speeds can lead to increased emissions and fuel consumption, which is contrary to modern efforts aimed at reducing the carbon footprint of transportation systems. Therefore, engineers and designers strive to determine the most efficient minimum steady speed that balances performance with environmental sustainability.In conclusion, the term minimum steady speed encapsulates a fundamental principle across various fields, including aviation, automotive engineering, and robotics. It is a critical parameter that influences safety, efficiency, and operational effectiveness. By understanding and applying the concept of minimum steady speed, professionals can enhance the performance of their designs and ensure that they meet safety standards while also considering environmental impacts. As technology continues to evolve, the importance of this concept will only grow, making it an essential area of study for future engineers and scientists.
在物理和工程领域,术语minimum steady speed指的是一个物体在执行特定任务或功能时能够保持的最低恒定速度,而不会经历任何形式的故障或不稳定。这个概念在航空、汽车工程甚至机器人等领域具有特别重要的意义。理解minimum steady speed对于确保各种应用中的安全性、效率和最佳性能至关重要。例如,在航空领域,每架飞机都有一个指定的minimum steady speed,称为失速速度。这是飞机无法维持水平飞行的速度,低于此速度会导致升力丧失并可能发生失速。飞行员经过培训,以确保他们在飞行机动过程中不会将飞机操作低于这一关键速度。保持高于失速速度的速度使飞行员在起飞和着陆阶段能够更好地控制飞机,尤其是在错误余量最小的时候。同样,在汽车工程中,minimum steady speed在车辆性能中也扮演着重要角色。每辆车都有一个特定的速度,在这个速度下它可以高效运行而不会熄火或失去动力。例如,在高速公路上行驶时,保持高于minimum steady speed的速度可以确保发动机平稳高效地运行,最小化燃油消耗并最大化性能。如果一辆车的速度降到此速度以下,它可能会在加速或对驾驶员输入做出反应时遇到困难,这可能导致危险情况,尤其是在繁忙的交通中。机器人技术也严重依赖于minimum steady speed的概念。设计用于特定任务的机器人,如生产线自动化或自主车辆,必须有一个定义的minimum steady speed来有效地执行其功能。如果机器人以低于此速度的速度运行,它可能无法在规定的时间内完成任务,导致效率低下和潜在的操作错误。因此,工程师必须仔细计算每个机器人应用的minimum steady speed,以确保最佳性能和可靠性。此外,理解minimum steady speed不仅对车辆和机器的设计和操作至关重要,而且对环境考虑也同样重要。例如,以较低的速度运行可能会导致排放和燃料消耗增加,这与现代减少交通系统碳足迹的努力相悖。因此,工程师和设计师努力确定最有效的minimum steady speed,以平衡性能与环境可持续性。总之,术语minimum steady speed概括了各个领域的基本原则,包括航空、汽车工程和机器人。它是影响安全性、效率和操作有效性的关键参数。通过理解和应用minimum steady speed的概念,专业人士可以增强其设计的性能,确保其符合安全标准,同时考虑环境影响。随着技术的不断发展,这一概念的重要性只会增加,使其成为未来工程师和科学家的重要研究领域。
相关单词
