turning speed

简明释义

旋回速度

英英释义

例句

1.Pilots must understand the turning speed of their aircraft to ensure safe maneuvering.

飞行员必须了解他们飞机的转弯速度以确保安全操作。

2.The turning speed of a drone is important for performing aerial stunts.

无人机的转弯速度对进行空中特技很重要。

3.In racing games, players need to master the turning speed of their vehicles to win.

在赛车游戏中，玩家需要掌握他们车辆的转弯速度才能获胜。

4.The race car's turning speed is crucial for navigating sharp corners effectively.

赛车的转弯速度对于有效地通过急转弯至关重要。

5.A boat's turning speed can affect its stability during sharp turns.

船只的转弯速度会影响其在急转弯时的稳定性。

作文

In the world of engineering and mechanics, understanding the concept of turning speed (转速) is crucial for optimizing performance and ensuring safety. Turning speed refers to the rate at which an object rotates around a central point or axis. This term is often used in various fields, including automotive engineering, aviation, and even robotics. For instance, in the automotive industry, the turning speed of a vehicle can significantly affect its handling and stability during sharp turns. A higher turning speed may allow for quicker maneuvers, but it also increases the risk of losing control if the vehicle exceeds its design limits.When designing vehicles, engineers must carefully consider the turning speed to ensure that the car can navigate curves safely. Factors such as tire grip, weight distribution, and suspension design all play roles in determining how well a vehicle can handle turns at various speeds. If the turning speed is too high for the given conditions, it could lead to skidding or rollover accidents, highlighting the importance of this parameter in vehicle dynamics.In aviation, turning speed is equally important. Pilots must be aware of the turning speed of their aircraft to maintain control during maneuvers. Each aircraft has a specific turning speed that ensures safe operation when making turns. Exceeding this speed can lead to excessive bank angles and potential loss of control. Therefore, pilots are trained to understand the limitations of their aircraft's turning speed to execute safe flight operations.Moreover, the concept of turning speed extends beyond vehicles and aircraft. In robotics, for instance, the turning speed of robotic arms and automated machinery is critical for precision tasks. If a robot moves too quickly while turning, it may not accurately place components or could even cause damage to itself or surrounding equipment. Therefore, engineers programming these robots must account for the optimal turning speed to ensure efficiency and safety in operations.Understanding turning speed also has implications in sports and physical activities. Athletes, especially in sports like gymnastics or figure skating, must master their own turning speed to perform complex maneuvers successfully. Coaches often emphasize the importance of balance and control when executing turns, as a miscalculated turning speed can lead to falls or injuries.In conclusion, the concept of turning speed (转速) is fundamental across various disciplines, from engineering to athletics. Whether it involves vehicles navigating roads, aircraft soaring through the skies, or robots performing intricate tasks, mastering turning speed is essential for achieving optimal performance and safety. By understanding and applying the principles of turning speed, professionals in these fields can enhance their designs, improve safety measures, and ultimately achieve better outcomes in their respective areas of expertise.

在工程和机械的世界中，理解转速这一概念对于优化性能和确保安全至关重要。转速指的是物体围绕中心点或轴旋转的速率。这个术语在多个领域中使用，包括汽车工程、航空和甚至机器人技术。例如，在汽车工业中，车辆的转速会显著影响其在急转弯时的操控性和稳定性。较高的转速可能允许更快的机动，但如果超过设计极限，也会增加失去控制的风险。在设计车辆时，工程师必须仔细考虑转速，以确保汽车能够安全地通过曲线。轮胎抓地力、重量分配和悬挂设计等因素都在决定车辆在不同速度下如何处理转弯方面发挥作用。如果给定条件下的转速过高，可能会导致打滑或翻车事故，这突显了这一参数在车辆动力学中的重要性。在航空领域，转速同样重要。飞行员必须了解他们飞机的转速，以便在机动过程中保持控制。每架飞机都有一个特定的转速，以确保在转弯时的安全操作。超过此速度可能导致过大的倾斜角度和潜在的失控。因此，飞行员接受培训，以了解其飞机转速的限制，从而执行安全的飞行操作。此外，转速的概念不仅限于车辆和飞机。在机器人技术中，例如，机器人手臂和自动化机械的转速对精确任务至关重要。如果机器人在转弯时移动得太快，可能无法准确放置组件，甚至可能对自身或周围设备造成损坏。因此，编程这些机器人的工程师必须考虑最佳的转速，以确保操作的效率和安全。理解转速在体育和身体活动中也具有重要意义。运动员，尤其是在体操或花样滑冰等运动中，必须掌握自己的转速，以成功执行复杂的动作。教练通常强调在执行转弯时保持平衡和控制的重要性，因为计算错误的转速可能导致摔倒或受伤。总之，转速（转速）这一概念在多个学科中都是基础，无论是工程还是运动。从车辆在道路上行驶、飞机在天空中翱翔，还是机器人执行复杂任务，掌握转速对于实现最佳性能和安全至关重要。通过理解和应用转速的原理，这些领域的专业人士可以增强设计、改善安全措施，并最终在各自的专业领域取得更好的成果。