angle of turning

简明释义

转向角

英英释义

例句

1.The pilot calculated the angle of turning 转弯角度 before making a sharp maneuver.

飞行员在进行急转弯之前计算了转弯角度。

2.The angle of turning 转弯角度 for this vehicle is optimized for better performance.

这辆车的转弯角度经过优化，以提高性能。

3.The robot's angle of turning 转弯角度 is crucial for navigating tight spaces.

机器人的转弯角度在狭小空间内导航时至关重要。

4.During the race, the driver had to adjust the angle of turning 转弯角度 to maintain control on the wet track.

在比赛中，司机必须调整转弯角度以在湿滑的赛道上保持控制。

5.In architecture, the angle of turning 转弯角度 of staircases can affect the overall design.

在建筑设计中，楼梯的转弯角度会影响整体设计。

作文

The concept of the angle of turning is fundamental in various fields, including physics, engineering, and even art. Understanding this term can greatly enhance our comprehension of motion and design. The angle of turning refers to the degree to which an object rotates around a fixed point or axis. This rotation can be seen in numerous scenarios, from the simple act of turning a doorknob to the complex maneuvers of an airplane in flight.In physics, the angle of turning plays a crucial role in understanding rotational motion. For instance, when a car takes a turn, the wheels rotate at a certain angle of turning that determines how sharply the vehicle can navigate the curve. If the angle is too steep, the car may lose traction and skid off the road. Therefore, knowing the appropriate angle of turning is essential for safe driving.In engineering, the angle of turning is also significant. Engineers must calculate the angle of turning for bridges, roller coasters, and other structures to ensure they can withstand the forces acting upon them. For example, when designing a roller coaster, engineers must consider the angle of turning at various points to create an exhilarating yet safe experience for riders. A well-calculated angle of turning allows for smooth transitions between different sections of the ride, enhancing both safety and enjoyment.Art is another domain where the angle of turning is important. Artists often use the concept of turning angles to create dynamic compositions. For instance, in a painting, the way a figure is positioned can convey movement and emotion. An artist might choose to depict a dancer in mid-twirl, emphasizing the angle of turning to capture the energy and grace of the motion. This not only draws the viewer's eye but also evokes a sense of rhythm and flow within the artwork.Moreover, the angle of turning is relevant in sports, especially in activities like gymnastics and diving. Athletes must master their body's angle of turning to execute flips and twists successfully. A gymnast, for instance, needs to control their angle of turning while performing on the balance beam to maintain balance and precision. Any miscalculation can lead to falls or poor performance, highlighting the importance of practice and skill in mastering this aspect of movement.In conclusion, the angle of turning is a versatile concept that spans multiple disciplines. Whether in physics, engineering, art, or sports, understanding the angle of turning can lead to better design, improved safety, and enhanced performance. By grasping this idea, we can appreciate the intricacies of motion and the beauty of design in our everyday lives. As we continue to explore the world around us, let us pay attention to the angle of turning in all its forms, recognizing its significance in both practical applications and artistic expressions.

转动角度的概念在物理学、工程学甚至艺术等多个领域中都是基础。理解这个术语可以大大增强我们对运动和设计的理解。转动角度指的是一个物体围绕固定点或轴旋转的程度。这种旋转可以在无数场景中看到，从简单的转动门把手到飞机在空中的复杂机动。在物理学中，转动角度在理解旋转运动时发挥着关键作用。例如，当一辆车转弯时，车轮以某个转动角度旋转，这决定了车辆如何迅速地导航曲线。如果角度过陡，汽车可能会失去牵引力而滑出道路。因此，了解适当的转动角度对安全驾驶至关重要。在工程学中，转动角度同样重要。工程师必须计算桥梁、过山车和其他结构的转动角度，以确保它们能够承受作用于其上的力量。例如，在设计过山车时，工程师必须考虑各个点的转动角度，以创造一个刺激但安全的骑乘体验。良好计算的转动角度允许在游乐设施的不同部分之间平稳过渡，提高了安全性和乐趣。艺术也是转动角度重要的领域。艺术家经常使用转动角度的概念来创造动态的构图。例如，在一幅画中，人物的姿势可以传达运动和情感。艺术家可能选择描绘一个舞者在旋转中的瞬间，强调转动角度以捕捉运动的能量和优雅。这不仅吸引了观众的目光，还在作品中唤起了一种节奏感和流动感。此外，转动角度在运动中也很相关，尤其是在体操和跳水等活动中。运动员必须掌握身体的转动角度，以成功完成翻转和扭转。例如，体操运动员在平衡木上表演时，需要控制自己的转动角度，以保持平衡和精确。任何计算失误都可能导致摔倒或表现不佳，突显了在掌握这一运动方面的重要性。总之，转动角度是一个跨越多个学科的多功能概念。无论是在物理学、工程学、艺术还是运动中，理解转动角度可以带来更好的设计、提高安全性和增强表现。通过掌握这一理念，我们可以欣赏日常生活中运动的复杂性和设计的美感。当我们继续探索周围的世界时，让我们关注各种形式的转动角度，认识到它在实际应用和艺术表现中的重要性。