angle of pitch

简明释义

船舶)纵摇角

英英释义

例句

1.The engineer calculated the angle of pitch for the roof to prevent water accumulation.

工程师计算了屋顶的俯仰角以防止水积聚。

2.In automotive design, the angle of pitch affects the vehicle's aerodynamics.

在汽车设计中，俯仰角会影响车辆的空气动力学。

3.The pilot adjusted the angle of pitch to ensure a smooth ascent.

飞行员调整了俯仰角以确保平稳上升。

4.The drone's angle of pitch was adjusted for optimal stability during flight.

无人机的俯仰角被调整以在飞行中获得最佳稳定性。

5.During the presentation, the speaker used a diagram to explain the angle of pitch in sound waves.

在演讲中，发言者使用图表解释了声音波中的俯仰角。

作文

The concept of the angle of pitch is crucial in various fields, especially in aviation and engineering. Understanding this term can enhance our comprehension of how objects move through space and how they can be manipulated for better performance. The angle of pitch refers to the angle between the horizontal plane and the line that connects the center of mass of an object to its pivot point. This definition is fundamental when analyzing the dynamics of flight or the mechanics of a structure.In aviation, the angle of pitch plays a pivotal role in determining the altitude and speed of an aircraft. Pilots must constantly adjust the angle of pitch to maintain stable flight and to execute maneuvers effectively. For instance, during takeoff, a pilot increases the angle of pitch to lift the nose of the aircraft, allowing it to ascend into the sky. Conversely, during landing, the pilot decreases the angle of pitch to ensure a smooth descent onto the runway. This constant adjustment is vital for ensuring safety and efficiency in air travel.Moreover, the angle of pitch is not limited to aviation; it is also significant in the field of mechanical engineering. Engineers often analyze the angle of pitch when designing machines and structures to ensure stability and functionality. For example, in the design of bridges, the angle of pitch can influence how forces are distributed throughout the structure. A well-calculated angle of pitch can prevent structural failure and ensure that the bridge can withstand various loads and environmental conditions.In addition to its applications in aviation and engineering, the angle of pitch can also be observed in everyday life. For instance, when riding a bicycle, the rider's body position relative to the ground creates an angle of pitch that affects balance and speed. A cyclist leaning forward increases their angle of pitch, which can enhance aerodynamics and allow for faster speeds. On the other hand, leaning back may decrease the angle of pitch, providing more stability but reducing speed.Understanding the angle of pitch is essential for anyone involved in activities that require precision and control. Whether you are a pilot, an engineer, or simply someone who enjoys cycling, recognizing how the angle of pitch affects performance can lead to improved outcomes. By mastering this concept, individuals can make informed decisions that enhance their skills and ensure safety in various contexts.In conclusion, the angle of pitch is a fundamental concept that spans multiple disciplines. Its importance in aviation, engineering, and even everyday activities cannot be overstated. By grasping the intricacies of the angle of pitch, one can gain a deeper understanding of motion, stability, and performance. As we continue to explore the applications of this concept, we will undoubtedly uncover new ways to optimize our interactions with the physical world.

“俯仰角”这一概念在多个领域中至关重要，尤其是在航空和工程学中。理解这个术语可以增强我们对物体如何在空间中运动以及如何操控它们以获得更好性能的理解。“俯仰角”指的是水平面与连接物体质心和其支点的直线之间的角度。这个定义在分析飞行动力学或结构力学时是基础。在航空中，“俯仰角”在确定飞机的高度和速度方面发挥着关键作用。飞行员必须不断调整“俯仰角”以保持稳定飞行并有效执行机动。例如，在起飞过程中，飞行员增加“俯仰角”以抬起飞机的机头，使其能够升入天空。相反，在着陆时，飞行员减少“俯仰角”以确保平稳降落在跑道上。这种不断的调整对于确保航空旅行的安全性和效率至关重要。此外，“俯仰角”不仅限于航空，它在机械工程领域也具有重要意义。工程师在设计机器和结构时常常分析“俯仰角”，以确保稳定性和功能性。例如，在桥梁设计中，“俯仰角”会影响力如何在整个结构中分布。经过良好计算的“俯仰角”可以防止结构失效，并确保桥梁能够承受各种负荷和环境条件。除了在航空和工程中的应用外，“俯仰角”在日常生活中也可以观察到。例如，当骑自行车时，骑行者的身体姿势相对于地面形成的“俯仰角”会影响平衡和速度。骑行者向前倾斜会增加他们的“俯仰角”，这可以增强空气动力学，允许更快的速度。另一方面，向后倾斜可能会减少“俯仰角”，提供更多的稳定性，但降低速度。理解“俯仰角”对于任何参与需要精确和控制的活动的人来说都是必不可少的。无论你是飞行员、工程师，还是仅仅喜欢骑自行车的人，认识到“俯仰角”如何影响性能都可以带来更好的结果。通过掌握这一概念，个人可以做出明智的决策，从而提高技能并确保在各种环境中的安全。总之，“俯仰角”是一个跨越多个学科的基本概念。它在航空、工程甚至日常活动中的重要性不容小觑。通过掌握“俯仰角”的细节，人们可以更深入地理解运动、稳定性和性能。随着我们继续探索这一概念的应用，我们无疑会发现优化与物理世界互动的新方法。