turning angle

简明释义

折转角

英英释义

例句

1.In racing, knowing the turning angle 转弯角度 is crucial for maintaining speed while cornering.

在赛车中，了解turning angle 转弯角度对于在转弯时保持速度至关重要。

2.The robot can calculate the optimal turning angle 转弯角度 to navigate through tight spaces.

这台机器人可以计算出最佳的turning angle 转弯角度，以便在狭窄空间中导航。

3.The architect designed the building with a specific turning angle 转弯角度 to enhance its aesthetic appeal.

建筑师设计了具有特定turning angle 转弯角度的建筑，以增强其美学吸引力。

4.During the simulation, we measured the turning angle 转弯角度 of the drone to ensure it could maneuver effectively.

在模拟过程中，我们测量了无人机的turning angle 转弯角度，以确保它能够有效机动。

5.To improve safety, the vehicle's software adjusts the turning angle 转弯角度 based on speed and road conditions.

为了提高安全性，车辆的软件根据速度和路况调整turning angle 转弯角度。

作文

In the realm of physics and engineering, the concept of a turning angle plays a crucial role in understanding motion and direction. A turning angle refers to the angle through which an object rotates around a specific point or axis. This concept is not only applicable in theoretical contexts but also has practical implications in various fields such as robotics, automotive design, and even sports. For instance, when designing a car, engineers must consider the turning angle to ensure that the vehicle can navigate corners effectively without losing stability.In robotics, the turning angle is essential for programming robots to move accurately. When a robot is required to turn, the precise measurement of the turning angle determines how far it needs to rotate to reach its desired orientation. This precision is vital for tasks that require careful manipulation, such as assembling parts on a production line. Similarly, in sports like gymnastics or figure skating, athletes must master their turning angles to execute spins and turns flawlessly. A slight miscalculation can lead to a loss of balance or a failed routine.Understanding turning angles also involves considering the forces at play. When an object turns, it experiences centripetal force, which acts towards the center of the circular path. The relationship between the turning angle, radius of the turn, and speed of the object is governed by formulas derived from physics. For example, in circular motion, the formula for centripetal acceleration includes the turning angle as a critical factor in determining how quickly an object can make a turn without skidding or losing control.Moreover, the turning angle can significantly affect the performance of vehicles in racing scenarios. Drivers must be adept at calculating the optimal turning angles for different tracks to maintain high speeds while ensuring safety. This skill often separates successful racers from their competitors. In essence, mastering the turning angle is not just about understanding the mathematics behind it; it is also about developing an intuitive sense of how to apply this knowledge in real-world situations.In conclusion, the turning angle is a fundamental concept that transcends various disciplines. Its applications in engineering, robotics, and sports illustrate its importance in both theoretical understanding and practical execution. By grasping the significance of turning angles, individuals can enhance their skills in navigation, design, and performance, ultimately leading to greater success in their respective fields. As we continue to advance technologically and scientifically, the mastery of concepts like the turning angle will remain pivotal in shaping our future innovations and achievements.

在物理和工程领域，转角的概念在理解运动和方向方面起着至关重要的作用。转角是指物体围绕特定点或轴旋转的角度。这个概念不仅适用于理论背景，还在机器人技术、汽车设计乃至体育等多个领域具有实际意义。例如，在设计汽车时，工程师必须考虑转角以确保车辆能够有效地转弯而不会失去稳定性。在机器人技术中，转角对于编程机器人准确移动至关重要。当机器人需要转向时，转角的精确测量决定了它需要旋转多远才能达到所需的方向。这种精确性对于需要仔细操作的任务至关重要，例如在生产线上组装零件。同样，在体操或花样滑冰等体育项目中，运动员必须掌握他们的转角以完美地执行旋转和转弯。稍微的计算错误可能导致失去平衡或失败的动作。理解转角还涉及考虑作用于物体的力。当物体转动时，它会经历指向圆周路径中心的向心力。转角、转弯半径和物体速度之间的关系由物理学派生的公式来描述。例如，在圆周运动中，向心加速度的公式包括转角作为决定物体在不打滑或失控的情况下能多快转弯的关键因素。此外，转角在赛车场景中对车辆性能有显著影响。车手必须善于计算不同赛道的最佳转角以维持高速同时确保安全。这种技能常常将成功的赛车手与竞争对手区分开来。从本质上讲，掌握转角不仅仅是理解其背后的数学；还涉及培养一种直觉，了解如何在现实世界中应用这些知识。总之，转角是一个基本概念，超越了各个学科。它在工程、机器人技术和体育中的应用说明了它在理论理解和实际执行中的重要性。通过掌握转角的重要性，个人可以提升他们在导航、设计和表现方面的技能，最终在各自的领域取得更大的成功。随着我们在技术和科学上的不断进步，像转角这样的概念的掌握将在塑造我们未来的创新和成就中保持关键作用。