turning force

简明释义

回转力

英英释义

例句

1.The pilot adjusted the aircraft's controls to manage the turning force during the maneuver.

飞行员调整飞机的控制以管理机动过程中的转动力。

2.In robotics, understanding the turning force helps in programming precise movements.

在机器人技术中，理解转动力有助于编程精确的运动。

3.The engineer calculated the turning force to ensure the bridge could withstand strong winds.

工程师计算了转动力以确保桥梁能够承受强风。

4.The turning force generated by the car's engine allows it to make sharp turns.

汽车发动机产生的转动力使其能够进行急转弯。

5.When designing a roller coaster, it is crucial to consider the turning force at high speeds.

在设计过山车时，考虑高速度下的转动力是至关重要的。

作文

The concept of turning force is crucial in understanding the dynamics of various physical systems. In physics, turning force refers to the moment or torque that causes an object to rotate around an axis. This principle can be observed in everyday life, from the simple act of opening a door to the complex mechanics of a car engine. Understanding how turning force operates helps us grasp the underlying principles of motion and stability.For instance, when we push a door to open it, we apply a turning force at a distance from the hinges. The farther we are from the hinge, the easier it is to open the door. This illustrates how turning force is dependent on both the magnitude of the applied force and the distance from the pivot point. In engineering, this principle is applied to design machines and structures that require precise control of rotational motion.Another example of turning force can be seen in sports. In baseball, a player generates a significant turning force when swinging a bat. The player rotates their body and arms to create a powerful swing, which transfers energy to the bat and ultimately to the ball. The effectiveness of this swing is influenced by the player's technique, strength, and the timing of their movements. Coaches often emphasize the importance of generating maximum turning force to achieve better performance.In the context of vehicles, turning force plays a vital role in steering and maneuverability. When a driver turns the steering wheel, they are applying a turning force that alters the direction of the wheels. The effectiveness of this force depends on several factors, including the speed of the vehicle, the radius of the turn, and the friction between the tires and the road. Understanding these dynamics is essential for safe driving and effective vehicle design.Moreover, turning force is not limited to mechanical systems; it also applies to biological systems. For example, when a gymnast performs a routine on a balance beam, they must carefully manage their body’s turning force to maintain balance and execute their moves flawlessly. Any miscalculation in the application of turning force could result in a fall or loss of control.In conclusion, the concept of turning force is integral to various fields, including physics, engineering, sports, and biology. By understanding how turning force works, we can improve our ability to analyze and manipulate physical systems effectively. Whether it's opening a door, swinging a bat, steering a car, or performing a gymnastic routine, the principles surrounding turning force are at play, influencing our actions and outcomes. As we continue to explore and apply these principles, we gain deeper insights into the mechanics of the world around us, enabling us to innovate and enhance our daily lives.

“转动力”这个概念对于理解各种物理系统的动态至关重要。在物理学中，转动力是指使物体围绕轴旋转的力矩或扭矩。这个原理可以在日常生活中观察到，从简单的开门动作到复杂的汽车发动机机械原理。理解转动力如何运作有助于我们掌握运动和稳定性的基本原理。例如，当我们推门以打开它时，我们在铰链处施加了一个转动力。我们离铰链越远，开门就越容易。这说明转动力不仅依赖于施加力的大小，还与距离支点的远近有关。在工程学中，这一原理被应用于设计需要精确控制旋转运动的机器和结构。另一个关于转动力的例子可以在体育运动中看到。在棒球比赛中，球员在挥动球棒时会产生显著的转动力。球员通过旋转身体和手臂来形成强有力的挥杆，这将能量传递给球棒，最终传递给球。这次挥杆的有效性受到球员技术、力量和动作时机等多个因素的影响。教练们通常强调产生最大转动力的重要性，以提高表现。在车辆的背景下，转动力在转向和操控性方面发挥着至关重要的作用。当驾驶员转动方向盘时，他们施加的转动力改变了车轮的方向。这种力量的有效性取决于多个因素，包括车辆的速度、转弯半径以及轮胎与路面之间的摩擦力。理解这些动态对于安全驾驶和有效的车辆设计至关重要。此外，转动力并不仅限于机械系统；它还适用于生物系统。例如，当体操运动员在平衡木上进行表演时，他们必须仔细管理身体的转动力以保持平衡并完美地执行动作。对转动力的任何错误计算都可能导致摔倒或失去控制。总之，转动力的概念在物理学、工程学、体育和生物学等多个领域中都是不可或缺的。通过理解转动力的运作方式，我们可以提高分析和有效操纵物理系统的能力。无论是开门、挥棒、转向汽车还是进行体操表演，围绕转动力的原理都在发挥作用，影响着我们的行为和结果。随着我们继续探索和应用这些原理，我们对周围世界的机制有了更深入的认识，使我们能够创新并提升日常生活。